{-# LANGUAGE ScopedTypeVariables #-} {- ----------------------------------------------------------------------------- -- -- (c) The University of Glasgow 2001-2003 -- -- Access to system tools: gcc, cp, rm etc -- ----------------------------------------------------------------------------- -} module GHC.SysTools ( -- * Initialisation initSysTools, -- * Interface to system tools module GHC.SysTools.Tasks, -- * Fast file copy copyFile, copyHandle, copyWithHeader, -- * General utilities Option(..), expandTopDir, ) where import GHC.Prelude import GHC.Utils.Panic import GHC.Driver.Session import GHC.SysTools.Tasks import GHC.SysTools.BaseDir import GHC.Settings.IO import Control.Monad.Trans.Except (runExceptT) import System.IO import Foreign.Marshal.Alloc (allocaBytes) import System.Directory (copyFile) {- Note [How GHC finds toolchain utilities] ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ GHC.SysTools.initSysProgs figures out exactly where all the auxiliary programs are, and initialises mutable variables to make it easy to call them. To do 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} * * ************************************************************************ -} initSysTools :: String -- TopDir path -> IO Settings -- Set all the mutable variables above, holding -- (a) the system programs -- (b) the package-config file -- (c) the GHC usage message initSysTools :: String -> IO Settings initSysTools String top_dir = do res <- ExceptT SettingsError IO Settings -> IO (Either SettingsError Settings) forall e (m :: * -> *) a. ExceptT e m a -> m (Either e a) runExceptT (ExceptT SettingsError IO Settings -> IO (Either SettingsError Settings)) -> ExceptT SettingsError IO Settings -> IO (Either SettingsError Settings) forall a b. (a -> b) -> a -> b $ String -> ExceptT SettingsError IO Settings forall (m :: * -> *). MonadIO m => String -> ExceptT SettingsError m Settings initSettings String top_dir case res of Right Settings a -> Settings -> IO Settings forall a. a -> IO a forall (f :: * -> *) a. Applicative f => a -> f a pure Settings a Left (SettingsError_MissingData String msg) -> String -> IO Settings forall a. HasCallStack => String -> a pgmError String msg Left (SettingsError_BadData String msg) -> String -> IO Settings forall a. HasCallStack => String -> a pgmError String msg {- Note [Windows stack allocations] ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ See: #8870 (and #8834 for related info) and #12186 On Windows, occasionally we need to grow the stack. In order to do this, we would normally just bump the stack pointer - but there's a catch on Windows. If the stack pointer is bumped by more than a single page, then the pages between the initial pointer and the resulting location must be properly committed by the Windows virtual memory subsystem. This is only needed in the event we bump by more than one page (i.e 4097 bytes or more). Windows compilers solve this by emitting a call to a special function called _chkstk, which does this committing of the pages for you. The reason this was causing a segfault was because due to the fact the new code generator tends to generate larger functions, we needed more stack space in GHC itself. In the x86 codegen, we needed approximately ~12kb of stack space in one go, which caused the process to segfault, as the intervening pages were not committed. GCC can emit such a check for us automatically but only when the flag -fstack-check is used. See https://gcc.gnu.org/onlinedocs/gnat_ugn/Stack-Overflow-Checking.html for more information. -} -- | Copy remaining bytes from the first Handle to the second one copyHandle :: Handle -> Handle -> IO () copyHandle :: Handle -> Handle -> IO () copyHandle Handle hin Handle hout = do let buf_size :: Int buf_size = Int 8192 Int -> (Ptr (ZonkAny 0) -> IO ()) -> IO () forall a b. Int -> (Ptr a -> IO b) -> IO b allocaBytes Int buf_size ((Ptr (ZonkAny 0) -> IO ()) -> IO ()) -> (Ptr (ZonkAny 0) -> IO ()) -> IO () forall a b. (a -> b) -> a -> b $ \Ptr (ZonkAny 0) ptr -> do let go :: IO () go = do c <- Handle -> Ptr (ZonkAny 0) -> Int -> IO Int forall a. Handle -> Ptr a -> Int -> IO Int hGetBuf Handle hin Ptr (ZonkAny 0) ptr Int buf_size hPutBuf hout ptr c if c == 0 then return () else go IO () go -- | Copy file after printing the given header copyWithHeader :: String -> FilePath -> FilePath -> IO () copyWithHeader :: String -> String -> String -> IO () copyWithHeader String header String from String to = String -> IOMode -> (Handle -> IO ()) -> IO () forall r. String -> IOMode -> (Handle -> IO r) -> IO r withBinaryFile String to IOMode WriteMode ((Handle -> IO ()) -> IO ()) -> (Handle -> IO ()) -> IO () forall a b. (a -> b) -> a -> b $ \Handle hout -> do -- 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. Handle -> TextEncoding -> IO () hSetEncoding Handle hout TextEncoding utf8 Handle -> String -> IO () hPutStr Handle hout String header String -> IOMode -> (Handle -> IO ()) -> IO () forall r. String -> IOMode -> (Handle -> IO r) -> IO r withBinaryFile String from IOMode ReadMode ((Handle -> IO ()) -> IO ()) -> (Handle -> IO ()) -> IO () forall a b. (a -> b) -> a -> b $ \Handle hin -> Handle -> Handle -> IO () copyHandle Handle hin Handle hout