----------------------------------------------------------------------------- -- -- (c) The University of Glasgow 2001-2003 -- -- Access to system tools: gcc, cp, rm etc -- ----------------------------------------------------------------------------- \begin{code} module SysTools ( -- Initialisation initSysTools, getTopDir, -- IO String -- The value of $topdir getPackageConfigPath, -- IO String -- Where package.conf is getUsageMsgPaths, -- IO (String,String) -- Interface to system tools runUnlit, runCpp, runCc, -- [Option] -> IO () runPp, -- [Option] -> IO () runMangle, runSplit, -- [Option] -> IO () runAs, runLink, -- [Option] -> IO () runMkDLL, touch, -- String -> String -> IO () copy, -- String -> String -> String -> IO () normalisePath, -- FilePath -> FilePath -- Temporary-file management setTmpDir, newTempName, cleanTempDirs, cleanTempFiles, cleanTempFilesExcept, addFilesToClean, -- System interface system, -- String -> IO ExitCode -- Misc getSysMan, -- IO String Parallel system only Option(..) ) where #include "HsVersions.h" import DriverPhases ( isHaskellUserSrcFilename ) import Config import Outputable import ErrUtils ( putMsg, debugTraceMsg, showPass, Severity(..), Messages ) import Panic ( GhcException(..) ) import Util ( Suffix, global, notNull, consIORef, joinFileName, normalisePath, pgmPath, platformPath, joinFileExt ) import DynFlags ( DynFlags(..), DynFlag(..), dopt, Option(..), setTmpDir, defaultDynFlags ) import EXCEPTION ( throwDyn, finally ) import DATA_IOREF ( IORef, readIORef, writeIORef ) import DATA_INT import Monad ( when, unless ) import System ( ExitCode(..), getEnv, system ) import IO ( try, catch, hGetContents, openFile, hPutStr, hClose, hFlush, IOMode(..), stderr, ioError, isDoesNotExistError, isAlreadyExistsError ) import Directory ( doesFileExist, removeFile, createDirectory, removeDirectory ) import Maybe ( isJust ) import List ( partition ) import FiniteMap ( FiniteMap, emptyFM, lookupFM, addToFM, eltsFM ) -- GHC <= 4.08 didn't have rawSystem, and runs into problems with long command -- lines on mingw32, so we disallow it now. #if __GLASGOW_HASKELL__ < 500 #error GHC >= 5.00 is required for bootstrapping GHC #endif #ifndef mingw32_HOST_OS #if __GLASGOW_HASKELL__ > 504 import qualified System.Posix.Internals #else import qualified Posix #endif #else /* Must be Win32 */ import List ( isPrefixOf ) import Util ( dropList ) import Foreign import CString ( CString, peekCString ) #endif import Text.Regex #if __GLASGOW_HASKELL__ < 603 -- rawSystem comes from libghccompat.a in stage1 import Compat.RawSystem ( rawSystem ) import GHC.IOBase ( IOErrorType(..) ) import System.IO.Error ( ioeGetErrorType ) #else import System.Process ( runInteractiveProcess, getProcessExitCode ) import System.IO ( hSetBuffering, hGetLine, BufferMode(..) ) import Control.Concurrent( forkIO, newChan, readChan, writeChan ) import Data.Char ( isSpace ) import FastString ( mkFastString ) import SrcLoc ( SrcLoc, mkSrcLoc, noSrcSpan, mkSrcSpan ) #endif \end{code} The configuration story ~~~~~~~~~~~~~~~~~~~~~~~ GHC needs various support files (library packages, RTS etc), plus various auxiliary programs (cp, gcc, etc). It finds these in one of two places: * When running as an *installed program*, GHC finds most of this support stuff in the installed library tree. The path to this tree is passed to GHC via the -B flag, and given to initSysTools . * When running *in-place* in a build tree, GHC finds most of this support stuff in the build tree. The path to the build tree is, again passed to GHC via -B. GHC tells which of the two is the case by seeing whether package.conf is in TopDir [installed] or in TopDir/ghc/driver [inplace] (what a hack). 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_REL The *path* to the directory containing unlit, split etc cSPLIT_DIR_REL *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{Global variables to contain system programs} %* * %************************************************************************ All these pathnames are maintained IN THE NATIVE FORMAT OF THE HOST MACHINE. (See remarks under pathnames below) \begin{code} GLOBAL_VAR(v_Pgm_T, error "pgm_T", String) -- touch GLOBAL_VAR(v_Pgm_CP, error "pgm_CP", String) -- cp GLOBAL_VAR(v_Path_package_config, error "path_package_config", String) GLOBAL_VAR(v_Path_usages, error "ghc_usage.txt", (String,String)) GLOBAL_VAR(v_TopDir, error "TopDir", String) -- -B -- Parallel system only GLOBAL_VAR(v_Pgm_sysman, error "pgm_sysman", String) -- system manager -- ways to get at some of these variables from outside this module getPackageConfigPath = readIORef v_Path_package_config getTopDir = readIORef v_TopDir \end{code} %************************************************************************ %* * \subsection{Initialisation} %* * %************************************************************************ \begin{code} initSysTools :: Maybe String -- Maybe TopDir path (without the '-B' prefix) -> DynFlags -> IO DynFlags -- Set all the mutable variables above, holding -- (a) the system programs -- (b) the package-config file -- (c) the GHC usage message initSysTools mbMinusB dflags = do { (am_installed, top_dir) <- findTopDir mbMinusB ; writeIORef v_TopDir top_dir -- top_dir -- for "installed" this is the root of GHC's support files -- for "in-place" it is the root of the build tree -- NB: top_dir is assumed to be in standard Unix format '/' separated ; let installed, installed_bin :: FilePath -> FilePath installed_bin pgm = pgmPath top_dir pgm installed file = pgmPath top_dir file inplace dir pgm = pgmPath (top_dir `joinFileName` cPROJECT_DIR `joinFileName` dir) pgm ; let pkgconfig_path | am_installed = installed "package.conf" | otherwise = inplace cGHC_DRIVER_DIR_REL "package.conf.inplace" ghc_usage_msg_path | am_installed = installed "ghc-usage.txt" | otherwise = inplace cGHC_DRIVER_DIR_REL "ghc-usage.txt" ghci_usage_msg_path | am_installed = installed "ghci-usage.txt" | otherwise = inplace cGHC_DRIVER_DIR_REL "ghci-usage.txt" -- For all systems, unlit, split, mangle are GHC utilities -- architecture-specific stuff is done when building Config.hs unlit_path | am_installed = installed_bin cGHC_UNLIT_PGM | otherwise = inplace cGHC_UNLIT_DIR_REL cGHC_UNLIT_PGM -- split and mangle are Perl scripts split_script | am_installed = installed_bin cGHC_SPLIT_PGM | otherwise = inplace cGHC_SPLIT_DIR_REL cGHC_SPLIT_PGM mangle_script | am_installed = installed_bin cGHC_MANGLER_PGM | otherwise = inplace cGHC_MANGLER_DIR_REL cGHC_MANGLER_PGM ; let dflags0 = defaultDynFlags #ifndef mingw32_HOST_OS -- check whether TMPDIR is set in the environment ; e_tmpdir <- IO.try (getEnv "TMPDIR") -- fails if not set #else -- On Win32, consult GetTempPath() for a temp dir. -- => it first tries TMP, TEMP, then finally the -- Windows directory(!). The directory is in short-path -- form. ; e_tmpdir <- IO.try (do let len = (2048::Int) buf <- mallocArray len ret <- getTempPath len buf if ret == 0 then do -- failed, consult TMPDIR. free buf getEnv "TMPDIR" else do s <- peekCString buf free buf return s) #endif ; let dflags1 = case e_tmpdir of Left _ -> dflags0 Right d -> setTmpDir d dflags0 -- Check that the package config exists ; config_exists <- doesFileExist pkgconfig_path ; when (not config_exists) $ throwDyn (InstallationError ("Can't find package.conf as " ++ pkgconfig_path)) #if defined(mingw32_HOST_OS) -- WINDOWS-SPECIFIC STUFF -- On Windows, gcc and friends are distributed with GHC, -- so when "installed" we look in TopDir/bin -- When "in-place" we look wherever the build-time configure -- script found them -- When "install" we tell gcc where its specs file + exes are (-B) -- and also some places to pick up include files. We need -- to be careful to put all necessary exes in the -B place -- (as, ld, cc1, etc) since if they don't get found there, gcc -- then tries to run unadorned "as", "ld", etc, and will -- pick up whatever happens to be lying around in the path, -- possibly including those from a cygwin install on the target, -- which is exactly what we're trying to avoid. ; let gcc_b_arg = Option ("-B" ++ installed "gcc-lib/") (gcc_prog,gcc_args) | am_installed = (installed_bin "gcc", [gcc_b_arg]) | otherwise = (cGCC, []) -- The trailing "/" is absolutely essential; gcc seems -- to construct file names simply by concatenating to -- this -B path with no extra slash We use "/" rather -- than "\\" because otherwise "\\\" is mangled -- later on; although gcc_args are in NATIVE format, -- gcc can cope -- (see comments with declarations of global variables) -- -- The quotes round the -B argument are in case TopDir -- has spaces in it perl_path | am_installed = installed_bin cGHC_PERL | otherwise = cGHC_PERL -- 'touch' is a GHC util for Windows, and similarly unlit, mangle ; let touch_path | am_installed = installed_bin cGHC_TOUCHY_PGM | otherwise = inplace cGHC_TOUCHY_DIR_REL cGHC_TOUCHY_PGM -- On Win32 we don't want to rely on #!/bin/perl, so we prepend -- a call to Perl to get the invocation of split and mangle ; let (split_prog, split_args) = (perl_path, [Option split_script]) (mangle_prog, mangle_args) = (perl_path, [Option mangle_script]) ; let (mkdll_prog, mkdll_args) | am_installed = (pgmPath (installed "gcc-lib/") cMKDLL, [ Option "--dlltool-name", Option (pgmPath (installed "gcc-lib/") "dlltool"), Option "--driver-name", Option gcc_prog, gcc_b_arg ]) | otherwise = (cMKDLL, []) #else -- UNIX-SPECIFIC STUFF -- On Unix, the "standard" tools are assumed to be -- in the same place whether we are running "in-place" or "installed" -- That place is wherever the build-time configure script found them. ; let gcc_prog = cGCC gcc_args = [] touch_path = "touch" mkdll_prog = panic "Can't build DLLs on a non-Win32 system" mkdll_args = [] -- 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. ; let (split_prog, split_args) = (split_script, []) (mangle_prog, mangle_args) = (mangle_script, []) #endif -- 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_path = (gcc_prog, gcc_args ++ (Option "-E"):(map Option (words cRAWCPP_FLAGS))) -- For all systems, copy and remove are provided by the host -- system; architecture-specific stuff is done when building Config.hs ; let cp_path = cGHC_CP -- Other things being equal, as and ld are simply gcc ; let (as_prog,as_args) = (gcc_prog,gcc_args) (ld_prog,ld_args) = (gcc_prog,gcc_args) -- Initialise the global vars ; writeIORef v_Path_package_config pkgconfig_path ; writeIORef v_Path_usages (ghc_usage_msg_path, ghci_usage_msg_path) ; writeIORef v_Pgm_sysman (top_dir ++ "/ghc/rts/parallel/SysMan") -- Hans: this isn't right in general, but you can -- elaborate it in the same way as the others ; writeIORef v_Pgm_T touch_path ; writeIORef v_Pgm_CP cp_path ; return dflags1{ pgm_L = unlit_path, pgm_P = cpp_path, pgm_F = "", pgm_c = (gcc_prog,gcc_args), pgm_m = (mangle_prog,mangle_args), pgm_s = (split_prog,split_args), pgm_a = (as_prog,as_args), pgm_l = (ld_prog,ld_args), pgm_dll = (mkdll_prog,mkdll_args) } } #if defined(mingw32_HOST_OS) foreign import stdcall unsafe "GetTempPathA" getTempPath :: Int -> CString -> IO Int32 #endif \end{code} \begin{code} -- Find TopDir -- for "installed" this is the root of GHC's support files -- for "in-place" it is the root of the build tree -- -- Plan of action: -- 1. Set proto_top_dir -- if there is no given TopDir path, get the directory -- where GHC is running (only on Windows) -- -- 2. If package.conf exists in proto_top_dir, we are running -- installed; and TopDir = proto_top_dir -- -- 3. Otherwise we are running in-place, so -- proto_top_dir will be /...stuff.../ghc/compiler -- Set TopDir to /...stuff..., which is the root of the build tree -- -- This is very gruesome indeed findTopDir :: Maybe String -- Maybe TopDir path (without the '-B' prefix). -> IO (Bool, -- True <=> am installed, False <=> in-place String) -- TopDir (in Unix format '/' separated) findTopDir mbMinusB = do { top_dir <- get_proto -- Discover whether we're running in a build tree or in an installation, -- by looking for the package configuration file. ; am_installed <- doesFileExist (top_dir `joinFileName` "package.conf") ; return (am_installed, top_dir) } where -- get_proto returns a Unix-format path (relying on getBaseDir to do so too) get_proto = case mbMinusB of Just minusb -> return (normalisePath minusb) Nothing -> do maybe_exec_dir <- getBaseDir -- Get directory of executable case maybe_exec_dir of -- (only works on Windows; -- returns Nothing on Unix) Nothing -> throwDyn (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 runSomething dflags "C pre-processor" p (args0 ++ args) 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 runSomethingFiltered dflags cc_filter "C Compiler" p (args0++args) where -- discard some harmless warnings from gcc that we can't turn off cc_filter str = unlines (do_filter (lines str)) do_filter [] = [] do_filter ls@(l:ls') | (w:rest) <- dropWhile (isJust .matchRegex r_from) ls, isJust (matchRegex r_warn w) = do_filter rest | otherwise = l : do_filter ls' r_from = mkRegex "from.*:[0-9]+" r_warn = mkRegex "warning: call-clobbered register used" runMangle :: DynFlags -> [Option] -> IO () runMangle dflags args = do let (p,args0) = pgm_m dflags runSomething dflags "Mangler" p (args0++args) 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 runSomething dflags "Assembler" p (args0++args) runLink :: DynFlags -> [Option] -> IO () runLink dflags args = do let (p,args0) = pgm_l dflags runSomething dflags "Linker" p (args0++args) runMkDLL :: DynFlags -> [Option] -> IO () runMkDLL dflags args = do let (p,args0) = pgm_dll dflags runSomething dflags "Make DLL" p (args0++args) touch :: DynFlags -> String -> String -> IO () touch dflags purpose arg = do p <- readIORef v_Pgm_T runSomething dflags purpose p [FileOption "" arg] copy :: DynFlags -> String -> String -> String -> IO () copy dflags purpose from to = do showPass dflags purpose h <- openFile to WriteMode ls <- readFile from -- inefficient, but it'll do for now. -- ToDo: speed up via slurping. hPutStr h ls hClose h \end{code} \begin{code} getSysMan :: IO String -- How to invoke the system manager -- (parallel system only) getSysMan = readIORef v_Pgm_sysman \end{code} \begin{code} getUsageMsgPaths :: IO (FilePath,FilePath) -- the filenames of the usage messages (ghc, ghci) getUsageMsgPaths = readIORef v_Path_usages \end{code} %************************************************************************ %* * \subsection{Managing temporary files %* * %************************************************************************ \begin{code} GLOBAL_VAR(v_FilesToClean, [], [String] ) GLOBAL_VAR(v_DirsToClean, emptyFM, FiniteMap FilePath FilePath ) \end{code} \begin{code} cleanTempDirs :: DynFlags -> IO () cleanTempDirs dflags = do ds <- readIORef v_DirsToClean removeTmpDirs dflags (eltsFM ds) writeIORef v_DirsToClean emptyFM cleanTempFiles :: DynFlags -> IO () cleanTempFiles dflags = do fs <- readIORef v_FilesToClean removeTmpFiles dflags fs writeIORef v_FilesToClean [] cleanTempFilesExcept :: DynFlags -> [FilePath] -> IO () cleanTempFilesExcept dflags dont_delete = do files <- readIORef v_FilesToClean let (to_keep, to_delete) = partition (`elem` dont_delete) files removeTmpFiles dflags to_delete writeIORef v_FilesToClean to_keep -- 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 prefix x = do let filename = (prefix ++ show x) `joinFileExt` extn b <- doesFileExist filename if b then findTempName prefix (x+1) else do consIORef v_FilesToClean filename -- clean it up later return filename -- return our temporary directory within tmp_dir, creating one if we -- don't have one yet getTempDir :: DynFlags -> IO FilePath getTempDir dflags@(DynFlags{tmpDir=tmp_dir}) = do mapping <- readIORef v_DirsToClean case lookupFM mapping tmp_dir of Nothing -> do x <- getProcessID let prefix = tmp_dir ++ "/ghc" ++ show x ++ "_" mkTempDir x = let dirname = prefix ++ show x in do createDirectory dirname let mapping' = addToFM mapping tmp_dir dirname writeIORef v_DirsToClean mapping' debugTraceMsg dflags 2 (ptext SLIT("Created temporary directory:") <+> text dirname) return dirname `IO.catch` \e -> if isAlreadyExistsError e then mkTempDir (x+1) else ioError e mkTempDir 0 Just d -> return d addFilesToClean :: [FilePath] -> IO () -- May include wildcards [used by DriverPipeline.run_phase SplitMangle] addFilesToClean files = mapM_ (consIORef v_FilesToClean) 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 `IO.catch` (\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 runSomethingFiltered :: DynFlags -> (String->String) -> String -> String -> [Option] -> IO () runSomethingFiltered dflags filter_fn phase_name pgm args = do let real_args = filter notNull (map showOpt args) traceCmd dflags phase_name (unwords (pgm:real_args)) $ do (exit_code, doesn'tExist) <- IO.catch (do rc <- builderMainLoop dflags filter_fn pgm real_args case rc of ExitSuccess{} -> return (rc, False) 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 -> return (rc, True) | otherwise -> return (rc, False)) -- Should 'rawSystem' generate an IO exception indicating that -- 'pgm' couldn't be run rather than a funky return code, catch -- this here (the win32 version does this, but it doesn't hurt -- to test for this in general.) (\ err -> if IO.isDoesNotExistError err #if defined(mingw32_HOST_OS) && __GLASGOW_HASKELL__ < 604 -- the 'compat' version of rawSystem under mingw32 always -- maps 'errno' to EINVAL to failure. || case (ioeGetErrorType err ) of { InvalidArgument{} -> True ; _ -> False} #endif then return (ExitFailure 1, True) else IO.ioError err) case (doesn'tExist, exit_code) of (True, _) -> throwDyn (InstallationError ("could not execute: " ++ pgm)) (_, ExitSuccess) -> return () _ -> throwDyn (PhaseFailed phase_name exit_code) #if __GLASGOW_HASKELL__ < 603 builderMainLoop dflags filter_fn pgm real_args = do rawSystem pgm real_args #else builderMainLoop dflags filter_fn pgm real_args = do chan <- newChan (hStdIn, hStdOut, hStdErr, hProcess) <- runInteractiveProcess pgm real_args Nothing Nothing -- 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) rc <- loop chan hProcess 2 1 ExitSuccess 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 chan hProcess 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 SevInfo noSrcSpan defaultUserStyle msg loop chan hProcess t p exitcode BuildError loc msg -> do log_action 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 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 checkError l ls = case matchRegex errRegex l of Nothing -> do writeChan chan (BuildMsg (text l)) loop ls Nothing Just (file':lineno':colno':msg:_) -> do let file = mkFastString file' lineno = read lineno'::Int colno = case colno' of "" -> 0 _ -> read (init colno') :: Int srcLoc = mkSrcLoc file lineno colno loop ls (Just (BuildError srcLoc (text msg))) leading_whitespace [] = False leading_whitespace (x:_) = isSpace x errRegex = mkRegex "^([^:]*):([0-9]+):([0-9]+:)?(.*)" data BuildMessage = BuildMsg !SDoc | BuildError !SrcLoc !SDoc | EOF #endif showOpt (FileOption pre f) = pre ++ platformPath f showOpt (Option "") = "" showOpt (Option s) = s traceCmd :: DynFlags -> String -> String -> IO () -> IO () -- a) trace the command (at two levels of verbosity) -- b) don't do it at all if dry-run is set traceCmd dflags phase_name cmd_line action = do { let verb = verbosity dflags ; showPass dflags phase_name ; debugTraceMsg dflags 3 (text cmd_line) ; hFlush stderr -- Test for -n flag ; unless (dopt Opt_DryRun dflags) $ do { -- And run it! ; action `IO.catch` 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)) ; throwDyn (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 $()/bin/ghc.exe, -- return the path $(stuff). Note that we drop the "bin/" directory too. getBaseDir = do let len = (2048::Int) -- plenty, PATH_MAX is 512 under Win32. buf <- mallocArray len ret <- getModuleFileName nullPtr buf len if ret == 0 then free buf >> return Nothing else do s <- peekCString buf free buf return (Just (rootDir s)) where rootDir s = reverse (dropList "/bin/ghc.exe" (reverse (normalisePath s))) foreign import stdcall unsafe "GetModuleFileNameA" getModuleFileName :: Ptr () -> CString -> Int -> IO Int32 #else getBaseDir = return Nothing #endif #ifdef mingw32_HOST_OS foreign import ccall unsafe "_getpid" getProcessID :: IO Int -- relies on Int == Int32 on Windows #elif __GLASGOW_HASKELL__ > 504 getProcessID :: IO Int getProcessID = System.Posix.Internals.c_getpid >>= return . fromIntegral #else getProcessID :: IO Int getProcessID = Posix.getProcessID #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}