{-# LANGUAGE CPP #-} {-# LANGUAGE ScopedTypeVariables #-} {- ----------------------------------------------------------------------------- -- -- (c) The University of Glasgow 2001-2017 -- -- Finding the compiler's base directory. -- ----------------------------------------------------------------------------- -} module GHC.SysTools.BaseDir ( expandTopDir, expandToolDir , findTopDir, findToolDir , tryFindTopDir ) where import GHC.Prelude -- See Note [Base Dir] for why some of this logic is shared with ghc-pkg. import GHC.BaseDir import GHC.Utils.Panic import System.Environment (lookupEnv) import System.FilePath -- Windows #if defined(mingw32_HOST_OS) import System.Directory (doesDirectoryExist) #endif {- Note [topdir: How GHC finds its files] ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ 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<dir> option On Windows: - ghc never has a shell wrapper. - we can find the location of the ghc binary, which is $topdir/<foo>/<something>.exe where <something> may be "ghc", "ghc-stage2", or similar - we strip off the "<foo>/<something>.exe" to leave $topdir. from topdir we can find package.conf, ghc-asm, etc. Note [tooldir: How GHC finds mingw on Windows] ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ GHC has some custom logic on Windows for finding the mingw toolchain. In general we will find the mingw toolchain in $topdir/../../mingw/. This story is long and with lots of twist and turns.. But let's talk about how the build system finds and wires through the toolchain information. 1) It all starts in configure.ac which has two modes it operates on: a) The default is where `EnableDistroToolchain` is false. This indicates that we want to use the in-tree bundled toolchains. In this mode we will download and unpack some custom toolchains into the `inplace/mingw` folder and everything is pointed to that folder. b) The second path is when `EnableDistroToolchain` is true. This makes the toolchain behave a lot like Linux, in that the environment is queried for information on the tools we require. From configure.ac we export the standard variables to set the paths to the tools for the build system to use. 2) After we have the path to the tools we have to generate the right paths to store in the settings file for ghc to use. This is done in aclocal.m4. Again we have two modes of operation: a) If not `EnableDistroToolchain` the paths are rewritten to paths using a variable `$tooldir` as we need an absolute path. $tooldir is filled in by the `expandToolDir` function in this module at GHC startup. b) When `EnableDistroToolchain` then instead of filling in a absolute path we fill in just the program name. The assumption here is that at runtime the environment GHC is operating on will be the same as the one configure was run in. This means we expect `gcc, ld, as` etc to be on the PATH. From `aclocal.m4` we export a couple of variables starting with `Settings` which will be used to generate the settings file. 3) The next step is to generate the settings file: The file `cfg/system.config.in` is preprocessed by configure and the output written to `system.config`. This serves the same purpose as `config.mk` but it rewrites the values that were exported. As an example `SettingsCCompilerCommand` is rewritten to `settings-c-compiler-command`. Next up is `src/Oracles/Settings.hs` which makes from some Haskell ADT to the settings `keys` in the `system.config`. As an example, `settings-c-compiler-command` is mapped to `SettingsFileSetting_CCompilerCommand`. The last part of this is the `generateSettings` in `src/Rules/Generate.hs` which produces the desired settings file out of Hadrian. This is the equivalent to `rts/include/ghc.mk`. -- So why do we have these? On Windows there's no such thing as a platform compiler and as such we need to provide GCC and binutils. The easiest way is to bundle these with the compiler and wire them up. This gives you a relocatable binball. This works fine for most users. However mingw-w64 have a different requirement. They require all packages in the repo to be compiled using the same version of the compiler. So it means when they are rebuilding the world to add support for GCC X, they expect all packages to have been compiled with GCC X which is a problem since we ship an older GCC version. GHC is a package in mingw-w64 because there are Haskell packages in the repository which of course requires a Haskell compiler. To help them we provide the override which allows GHC to instead of using an inplace compiler to play nice with the system compiler instead. -} -- | Expand occurrences of the @$tooldir@ interpolation in a string -- on Windows, leave the string untouched otherwise. expandToolDir :: Bool -- ^ whether we use the ambient mingw toolchain -> Maybe FilePath -- ^ tooldir -> String -> String #if defined(mingw32_HOST_OS) expandToolDir False (Just tool_dir) s = expandPathVar "tooldir" tool_dir s expandToolDir False Nothing _ = panic "Could not determine $tooldir" expandToolDir True _ s = s #else expandToolDir :: Bool -> Maybe FilePath -> FilePath -> FilePath expandToolDir Bool _ Maybe FilePath _ FilePath s = FilePath s #endif -- | Returns a Unix-format path pointing to TopDir. findTopDir :: Maybe String -- Maybe TopDir path (without the '-B' prefix). -> IO String -- TopDir (in Unix format '/' separated) findTopDir :: Maybe FilePath -> IO FilePath findTopDir Maybe FilePath m_minusb = do Maybe FilePath maybe_exec_dir <- Maybe FilePath -> IO (Maybe FilePath) tryFindTopDir Maybe FilePath m_minusb case Maybe FilePath maybe_exec_dir of -- "Just" on Windows, "Nothing" on unix Maybe FilePath Nothing -> GhcException -> IO FilePath forall a. GhcException -> IO a throwGhcExceptionIO (GhcException -> IO FilePath) -> GhcException -> IO FilePath forall a b. (a -> b) -> a -> b $ FilePath -> GhcException InstallationError FilePath "missing -B<dir> option" Just FilePath dir -> FilePath -> IO FilePath forall a. a -> IO a forall (m :: * -> *) a. Monad m => a -> m a return FilePath dir tryFindTopDir :: Maybe String -- ^ Maybe TopDir path (without the '-B' prefix). -> IO (Maybe String) -- ^ TopDir (in Unix format '/' separated) tryFindTopDir :: Maybe FilePath -> IO (Maybe FilePath) tryFindTopDir (Just FilePath minusb) = Maybe FilePath -> IO (Maybe FilePath) forall a. a -> IO a forall (m :: * -> *) a. Monad m => a -> m a return (Maybe FilePath -> IO (Maybe FilePath)) -> Maybe FilePath -> IO (Maybe FilePath) forall a b. (a -> b) -> a -> b $ FilePath -> Maybe FilePath forall a. a -> Maybe a Just (FilePath -> Maybe FilePath) -> FilePath -> Maybe FilePath forall a b. (a -> b) -> a -> b $ FilePath -> FilePath normalise FilePath minusb tryFindTopDir Maybe FilePath Nothing = do -- The _GHC_TOP_DIR environment variable can be used to specify -- the top dir when the -B argument is not specified. It is not -- intended for use by users, it was added specifically for the -- purpose of running GHC within GHCi. Maybe FilePath maybe_env_top_dir <- FilePath -> IO (Maybe FilePath) lookupEnv FilePath "_GHC_TOP_DIR" case Maybe FilePath maybe_env_top_dir of Just FilePath env_top_dir -> Maybe FilePath -> IO (Maybe FilePath) forall a. a -> IO a forall (m :: * -> *) a. Monad m => a -> m a return (Maybe FilePath -> IO (Maybe FilePath)) -> Maybe FilePath -> IO (Maybe FilePath) forall a b. (a -> b) -> a -> b $ FilePath -> Maybe FilePath forall a. a -> Maybe a Just FilePath env_top_dir -- Try directory of executable Maybe FilePath Nothing -> IO (Maybe FilePath) getBaseDir -- See Note [tooldir: How GHC finds mingw on Windows] -- Returns @Nothing@ when not on Windows. -- When called on Windows, it either throws an error when the -- tooldir can't be located, or returns @Just tooldirpath@. -- If the distro toolchain is being used we treat Windows the same as Linux findToolDir :: Bool -- ^ whether we use the ambient mingw toolchain -> FilePath -- ^ topdir -> IO (Maybe FilePath) #if defined(mingw32_HOST_OS) findToolDir False top_dir = go 0 (top_dir </> "..") [] where maxDepth = 3 go :: Int -> FilePath -> [FilePath] -> IO (Maybe FilePath) go k path tried | k == maxDepth = throwGhcExceptionIO $ InstallationError $ "could not detect mingw toolchain in the following paths: " ++ show tried | otherwise = do let try = path </> "mingw" let tried' = tried ++ [try] oneLevel <- doesDirectoryExist try if oneLevel then return (Just path) else go (k+1) (path </> "..") tried' findToolDir True _ = return Nothing #else findToolDir :: Bool -> FilePath -> IO (Maybe FilePath) findToolDir Bool _ FilePath _ = Maybe FilePath -> IO (Maybe FilePath) forall a. a -> IO a forall (m :: * -> *) a. Monad m => a -> m a return Maybe FilePath forall a. Maybe a Nothing #endif