-----------------------------------------------------------------------------
\begin{code}
-{-# OPTIONS -fno-cse #-}
--- -fno-cse is needed for GLOBAL_VAR's to behave properly
-
+{-# OPTIONS -fno-warn-unused-do-bind #-}
module SysTools (
-- Initialisation
initSysTools,
-- Interface to system tools
runUnlit, runCpp, runCc, -- [Option] -> IO ()
runPp, -- [Option] -> IO ()
- runMangle, runSplit, -- [Option] -> IO ()
+ runSplit, -- [Option] -> IO ()
runAs, runLink, -- [Option] -> IO ()
runMkDLL,
runWindres,
+ runLlvmOpt,
+ runLlvmLlc,
+ readElfSection,
touch, -- String -> String -> IO ()
copy,
copyWithHeader,
- getExtraViaCOpts,
-- Temporary-file management
setTmpDir,
import Panic
import Util
import DynFlags
-import FiniteMap
+import StaticFlags
+import Exception
-import Control.Exception
import Data.IORef
import Control.Monad
import System.Exit
import System.IO.Error as IO
import System.Directory
import Data.Char
-import Data.Maybe
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 CString ( CString, peekCString )
+import Foreign.C.String
#endif
-import System.Process ( runInteractiveProcess, getProcessExitCode )
+import System.Process
import Control.Concurrent
import FastString
import SrcLoc ( SrcLoc, mkSrcLoc, noSrcSpan, mkSrcSpan )
\end{code}
+How GHC finds its files
+~~~~~~~~~~~~~~~~~~~~~~~
- The configuration story
- ~~~~~~~~~~~~~~~~~~~~~~~
+[Note topdir]
GHC needs various support files (library packages, RTS etc), plus
-various auxiliary programs (cp, gcc, etc). It finds these in one
-of two places:
+various auxiliary programs (cp, gcc, etc). It starts by finding topdir,
+the root of GHC's support files
-* 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 .
+On Unix:
+ - ghc always has a shell wrapper that passes a -B<dir> option
-* 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.
+On Windows:
+ - ghc never has a shell wrapper.
+ - we can find the location of the ghc binary, which is
+ $topdir/bin/<something>.exe
+ where <something> may be "ghc", "ghc-stage2", or similar
+ - we strip off the "bin/<something>.exe" to leave $topdir.
-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).
+from topdir we can find package.conf, ghc-asm, etc.
SysTools.initSysProgs figures out exactly where all the auxiliary programs
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,
+ 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)
\begin{code}
initSysTools :: Maybe String -- Maybe TopDir path (without the '-B' prefix)
-
- -> DynFlags
- -> IO DynFlags -- Set all the mutable variables above, holding
+ -> 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 dflags0
- = do { (am_installed, top_dir) <- findTopDir mbMinusB
- -- top_dir
- -- for "installed" this is the root of GHC's support files
- -- for "in-place" it is the root of the build tree
+initSysTools mbMinusB
+ = do { top_dir <- findTopDir mbMinusB
+ -- see [Note topdir]
-- NB: top_dir is assumed to be in standard Unix
-- format, '/' separated
- ; let installed, installed_bin :: FilePath -> FilePath
- installed_bin pgm = top_dir </> pgm
- installed file = top_dir </> file
- inplace dir pgm = let real_top_dir = foldr (</>) ""
- $ reverse
- $ drop 4
- $ reverse
- $ splitDirectories top_dir
- in real_top_dir </> dir </> pgm
+ ; let settingsFile = top_dir </> "settings"
+ installed :: FilePath -> FilePath
+ installed file = top_dir </> file
+ installed_mingw_bin file = top_dir </> ".." </> "mingw" </> "bin" </> file
+ installed_perl_bin file = top_dir </> ".." </> "perl" </> file
- ; 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"
+ ; 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 xs
+ Nothing -> pgmError ("No entry for " ++ show key ++ " in " ++ show settingsFile)
+ ; 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 <- if isWindowsHost then return $ installed_mingw_bin "gcc"
+ else getSetting "C compiler command"
+ ; gcc_args_str <- if isWindowsHost then return []
+ else getSetting "C compiler flags"
+ ; let gcc_args = map Option (words gcc_args_str)
+ ; perl_path <- if isWindowsHost
+ then return $ installed_perl_bin "perl"
+ else 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
- | 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
+ unlit_path = installed cGHC_UNLIT_PGM
- mangle_script
- | am_installed = installed_bin cGHC_MANGLER_PGM
- | otherwise = inplace cGHC_MANGLER_DIR_REL cGHC_MANGLER_PGM
+ -- split is a Perl script
+ split_script = installed cGHC_SPLIT_PGM
- windres_path
- | am_installed = installed_bin "bin/windres"
- | otherwise = "windres"
+ windres_path = installed_mingw_bin "windres"
; tmpdir <- getTemporaryDirectory
- ; let dflags1 = setTmpDir tmpdir 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))
-
- -- On Windows, gcc and friends are distributed with GHC,
- -- so when "installed" we look in TopDir/bin
- -- When "in-place", or when not on Windows, we look wherever
- -- the build-time configure script found them
+
; let
- -- 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)
- gcc_b_arg = Option ("-B" ++ installed "gcc-lib/")
- (gcc_prog,gcc_args)
- | isWindowsHost && am_installed
- -- 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.
- = (installed_bin "gcc", [gcc_b_arg])
- | otherwise = (cGCC, [])
- perl_path
- | isWindowsHost && am_installed = installed_bin cGHC_PERL
- | otherwise = cGHC_PERL
-- 'touch' is a GHC util for Windows
touch_path
- | isWindowsHost
- = if am_installed
- then installed_bin cGHC_TOUCHY_PGM
- else inplace cGHC_TOUCHY_DIR_REL cGHC_TOUCHY_PGM
- | otherwise = "touch"
+ | isWindowsHost = installed cGHC_TOUCHY_PGM
+ | otherwise = "touch"
-- 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.
+ -- 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
(split_prog, split_args)
| isWindowsHost = (perl_path, [Option split_script])
| otherwise = (split_script, [])
- (mangle_prog, mangle_args)
- | isWindowsHost = (perl_path, [Option mangle_script])
- | otherwise = (mangle_script, [])
(mkdll_prog, mkdll_args)
| not isWindowsHost
= panic "Can't build DLLs on a non-Win32 system"
- | am_installed =
- (installed "gcc-lib/" </> cMKDLL,
- [ Option "--dlltool-name",
- Option (installed "gcc-lib/" </> "dlltool"),
- Option "--driver-name",
- Option gcc_prog, gcc_b_arg ])
- | otherwise = (cMKDLL, [])
+ | otherwise =
+ (installed_mingw_bin cMKDLL, [])
-- 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)))
+ ; 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,as_args) = (gcc_prog,gcc_args)
- (ld_prog,ld_args) = (gcc_prog,gcc_args)
-
- ; return dflags1{
- ghcUsagePath = ghc_usage_msg_path,
- ghciUsagePath = ghci_usage_msg_path,
- topDir = top_dir,
- systemPackageConfig = pkgconfig_path,
- 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),
- pgm_T = touch_path,
- pgm_sysman = top_dir ++ "/ghc/rts/parallel/SysMan",
- pgm_windres = windres_path
+ ; let as_prog = gcc_prog
+ as_args = gcc_args
+ ld_prog = gcc_prog
+ ld_args = gcc_args
+
+ -- We just assume on command line
+ ; let lc_prog = "llc"
+ lo_prog = "opt"
+
+ ; return $ Settings {
+ sTmpDir = normalise tmpdir,
+ sGhcUsagePath = ghc_usage_msg_path,
+ sGhciUsagePath = ghci_usage_msg_path,
+ sTopDir = top_dir,
+ sRawSettings = mySettings,
+ sExtraGccViaCFlags = words myExtraGccViaCFlags,
+ sSystemPackageConfig = pkgconfig_path,
+ 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 = (if opt_PIC
+ then -- this list gets reversed
+ ["-D__PIC__", "-U __PIC__"]
+ else []),
+ sOpt_F = [],
+ sOpt_c = [],
+ sOpt_a = [],
+ sOpt_m = [],
+ sOpt_l = [],
+ sOpt_windres = [],
+ sOpt_lo = [],
+ sOpt_lc = []
}
}
\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 </> "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 (normalise 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<dir> option")
- Just dir -> return dir
+-- 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<dir> option")
+ Just dir -> return dir
\end{code}
runCpp dflags args = do
let (p,args0) = pgm_P dflags
args1 = args0 ++ args
- mb_env <- getGccEnv args1
- runSomethingFiltered dflags id "C pre-processor" p args1 mb_env
+ 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
= (path, '\"' : head b_dirs ++ "\";" ++ paths)
mangle_path other = other
-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
mb_env <- getGccEnv args1
runSomethingFiltered dflags id "Assembler" p args1 mb_env
+runLlvmOpt :: DynFlags -> [Option] -> IO ()
+runLlvmOpt dflags args = do
+ let (p,args0) = pgm_lo dflags
+ runSomething dflags "LLVM Optimiser" p (args0++args)
+
+runLlvmLlc :: DynFlags -> [Option] -> IO ()
+runLlvmLlc dflags args = do
+ let (p,args0) = pgm_lc dflags
+ runSomething dflags "LLVM Compiler" p (args0++args)
+
runLink :: DynFlags -> [Option] -> IO ()
runLink dflags args = do
let (p,args0) = pgm_l dflags
runWindres :: DynFlags -> [Option] -> IO ()
runWindres dflags args = do
- let (gcc,gcc_args) = pgm_c dflags
- windres = pgm_windres dflags
+ 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
- -- we must tell windres where to find gcc: it might not be on PATH
- (Option ("--preprocessor=" ++
- unwords (map quote (gcc : map showOpt gcc_args ++
- ["-E", "-xc", "-DRC_INVOKED"])))
- -- -- use-temp-file is required for windres to interpret the
- -- quoting in the preprocessor arg above correctly. Without
- -- this, windres calls the preprocessor with popen, which gets
- -- the quoting wrong (discovered by experimentation and
- -- reading the windres sources). See #1828.
- : Option "--use-temp-file"
- : args)
- -- we must use the PATH workaround here too, since windres invokes gcc
- mb_env
- where
- quote x = '\"' : x ++ "\""
+ runSomethingFiltered dflags id "Windres" windres args' mb_env
touch :: DynFlags -> String -> String -> IO ()
touch dflags purpose arg =
copyWithHeader dflags purpose maybe_header 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.
- maybe (return ()) (hPutStr h) maybe_header
- hPutStr h ls
- hClose h
-
-getExtraViaCOpts :: DynFlags -> IO [String]
-getExtraViaCOpts dflags = do
- f <- readFile (topDir dflags </> "extra-gcc-opts")
- return (words f)
+ hout <- openBinaryFile to WriteMode
+ hin <- openBinaryFile from ReadMode
+ ls <- hGetContents hin -- inefficient, but it'll do for now. ToDo: speed up
+ maybe (return ()) (hPutStr hout) maybe_header
+ hPutStr hout ls
+ hClose hout
+ hClose hin
+
+-- | 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}
%************************************************************************
%************************************************************************
\begin{code}
-GLOBAL_VAR(v_FilesToClean, [], [String] )
-GLOBAL_VAR(v_DirsToClean, emptyFM, FiniteMap FilePath FilePath )
-\end{code}
-
-\begin{code}
cleanTempDirs :: DynFlags -> IO ()
cleanTempDirs dflags
= unless (dopt Opt_KeepTmpFiles dflags)
- $ do ds <- readIORef v_DirsToClean
- removeTmpDirs dflags (eltsFM ds)
- writeIORef v_DirsToClean emptyFM
+ $ 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 fs <- readIORef v_FilesToClean
+ $ do let ref = filesToClean dflags
+ fs <- readIORef ref
removeTmpFiles dflags fs
- writeIORef v_FilesToClean []
+ writeIORef ref []
cleanTempFilesExcept :: DynFlags -> [FilePath] -> IO ()
cleanTempFilesExcept dflags dont_delete
= unless (dopt Opt_KeepTmpFiles dflags)
- $ do files <- readIORef v_FilesToClean
+ $ 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
- writeIORef v_FilesToClean to_keep
-- find a temporary name that doesn't already exist.
newTempName dflags extn
= do d <- getTempDir dflags
x <- getProcessID
- findTempName (d ++ "/ghc" ++ show x ++ "_") 0
+ 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 consIORef v_FilesToClean filename -- clean it up later
+ 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@(DynFlags{tmpDir=tmp_dir})
- = do mapping <- readIORef v_DirsToClean
- case lookupFM mapping tmp_dir of
+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 prefix = tmp_dir </> "ghc" ++ show x ++ "_"
let
mkTempDir :: Integer -> IO FilePath
mkTempDir x
= let dirname = prefix ++ show x
in do createDirectory dirname
- let mapping' = addToFM mapping tmp_dir dirname
- writeIORef v_DirsToClean mapping'
+ let mapping' = Map.insert tmp_dir dirname mapping
+ writeIORef ref mapping'
debugTraceMsg dflags 2 (ptext (sLit "Created temporary directory:") <+> text dirname)
return dirname
- `IO.catch` \e ->
+ `catchIO` \e ->
if isAlreadyExistsError e
then mkTempDir (x+1)
else ioError e
mkTempDir 0
Just d -> return d
-addFilesToClean :: [FilePath] -> IO ()
+addFilesToClean :: DynFlags -> [FilePath] -> IO ()
-- May include wildcards [used by DriverPipeline.run_phase SplitMangle]
-addFilesToClean files = mapM_ (consIORef v_FilesToClean) files
+addFilesToClean dflags files = mapM_ (consIORef (filesToClean dflags)) files
removeTmpDirs :: DynFlags -> [FilePath] -> IO ()
removeTmpDirs dflags ds
(non_deletees, deletees) = partition isHaskellUserSrcFilename fs
removeWith :: DynFlags -> (FilePath -> IO ()) -> FilePath -> IO ()
-removeWith dflags remover f = remover f `IO.catch`
+removeWith dflags remover f = remover f `catchIO`
(\e ->
let msg = if isDoesNotExistError e
then ptext (sLit "Warning: deleting non-existent") <+> text f
runSomethingFiltered dflags filter_fn phase_name pgm args mb_env = do
let real_args = filter notNull (map showOpt args)
- traceCmd dflags phase_name (unwords (pgm:real_args)) $ do
+#if __GLASGOW_HASKELL__ >= 701
+ cmdLine = showCommandForUser pgm real_args
+#else
+ cmdLine = unwords (pgm:real_args)
+#endif
+ traceCmd dflags phase_name cmdLine $ do
(exit_code, doesn'tExist) <-
- IO.catch (do
+ catchIO (do
rc <- builderMainLoop dflags filter_fn pgm real_args mb_env
case rc of
ExitSuccess{} -> return (rc, False)
then return (ExitFailure 1, True)
else IO.ioError err)
case (doesn'tExist, exit_code) of
- (True, _) -> throwDyn (InstallationError ("could not execute: " ++ pgm))
+ (True, _) -> ghcError (InstallationError ("could not execute: " ++ pgm))
(_, ExitSuccess) -> return ()
- _ -> throwDyn (PhaseFailed phase_name exit_code)
+ _ -> ghcError (PhaseFailed phase_name exit_code)
builderMainLoop :: DynFlags -> (String -> String) -> FilePath
-> [String] -> Maybe [(String, String)]
-- 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)
+ _ <- 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.
| BuildError !SrcLoc !SDoc
| EOF
-showOpt :: Option -> String
-showOpt (FileOption pre f) = pre ++ f
-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
; unless (dopt Opt_DryRun dflags) $ do {
-- And run it!
- ; action `IO.catch` handle_exn verb
+ ; 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))
- ; throwDyn (PhaseFailed phase_name (ExitFailure 1)) }
+ ; ghcError (PhaseFailed phase_name (ExitFailure 1)) }
\end{code}
%************************************************************************
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))
+-- 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") ->
+ (d, ghc_exe)
+ | lower ghc_exe `elem` ["ghc.exe",
+ "ghc-stage1.exe",
+ "ghc-stage2.exe",
+ "ghc-stage3.exe"] ->
case splitFileName $ takeDirectory d of
- (d', "bin") -> takeDirectory d'
- _ -> panic ("Expected \"bin\" in " ++ show s)
- _ -> panic ("Expected \"ghc.exe\" in " ++ show s)
-
-foreign import stdcall unsafe "GetModuleFileNameA"
- getModuleFileName :: Ptr () -> CString -> Int -> IO Int32
+ -- 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 stdcall unsafe "windows.h GetModuleFileNameW"
+ c_GetModuleFileName :: Ptr () -> CWString -> Word32 -> IO Word32
#else
getBaseDir = return Nothing
#endif