ghc-9.8.2: GHC/Settings/IO.hs
{-# LANGUAGE LambdaCase #-}
{-# LANGUAGE ScopedTypeVariables #-}
module GHC.Settings.IO
( SettingsError (..)
, initSettings
) where
import GHC.Prelude
import GHC.Settings.Utils
import GHC.Settings.Config
import GHC.Utils.CliOption
import GHC.Utils.Fingerprint
import GHC.Platform
import GHC.Utils.Panic
import GHC.Settings
import GHC.SysTools.BaseDir
import Control.Monad.Trans.Except
import Control.Monad.IO.Class
import qualified Data.Map as Map
import System.FilePath
import System.Directory
data SettingsError
= SettingsError_MissingData String
| SettingsError_BadData String
initSettings
:: forall m
. MonadIO m
=> String -- ^ TopDir path
-> ExceptT SettingsError m Settings
initSettings top_dir = do
let installed :: FilePath -> FilePath
installed file = top_dir </> file
libexec :: FilePath -> FilePath
libexec file = top_dir </> "bin" </> file
settingsFile = installed "settings"
readFileSafe :: FilePath -> ExceptT SettingsError m String
readFileSafe path = liftIO (doesFileExist path) >>= \case
True -> liftIO $ readFile path
False -> throwE $ SettingsError_MissingData $ "Missing file: " ++ path
settingsStr <- readFileSafe settingsFile
settingsList <- case maybeReadFuzzy settingsStr of
Just s -> pure s
Nothing -> throwE $ SettingsError_BadData $
"Can't parse " ++ show settingsFile
let mySettings = Map.fromList settingsList
getBooleanSetting :: String -> ExceptT SettingsError m Bool
getBooleanSetting key = either pgmError pure $
getRawBooleanSetting settingsFile mySettings key
-- On Windows, by mingw is often distributed with GHC,
-- so we look in TopDir/../mingw/bin,
-- as well as TopDir/../../mingw/bin for hadrian.
-- But we might be disabled, in which we we don't do that.
useInplaceMinGW <- getBooleanSetting "Use inplace MinGW toolchain"
-- see Note [topdir: How GHC finds its files]
-- NB: top_dir is assumed to be in standard Unix
-- format, '/' separated
mtool_dir <- liftIO $ findToolDir useInplaceMinGW top_dir
-- see Note [tooldir: How GHC finds mingw on Windows]
-- See Note [Settings file] for a little more about this file. We're
-- just partially applying those functions and throwing 'Left's; they're
-- written in a very portable style to keep ghc-boot light.
let getSetting key = either pgmError pure $
getRawFilePathSetting top_dir settingsFile mySettings key
getToolSetting :: String -> ExceptT SettingsError m String
getToolSetting key = expandToolDir useInplaceMinGW mtool_dir <$> getSetting key
targetPlatformString <- getSetting "target platform string"
cc_prog <- getToolSetting "C compiler command"
cxx_prog <- getToolSetting "C++ compiler command"
cc_args_str <- getToolSetting "C compiler flags"
cxx_args_str <- getToolSetting "C++ compiler flags"
gccSupportsNoPie <- getBooleanSetting "C compiler supports -no-pie"
cpp_prog <- getToolSetting "Haskell CPP command"
cpp_args_str <- getToolSetting "Haskell CPP flags"
platform <- either pgmError pure $ getTargetPlatform settingsFile mySettings
let unreg_cc_args = if platformUnregisterised platform
then ["-DNO_REGS", "-DUSE_MINIINTERPRETER"]
else []
cpp_args = map Option (words cpp_args_str)
cc_args = words cc_args_str ++ unreg_cc_args
cxx_args = words cxx_args_str
-- The extra flags we need to pass gcc when we invoke it to compile .hc code.
--
-- -fwrapv is needed for gcc to emit well-behaved code in the presence of
-- integer wrap around (#952).
extraGccViaCFlags = if platformUnregisterised platform
-- configure guarantees cc support these flags
then ["-fwrapv", "-fno-builtin"]
else []
ldSupportsCompactUnwind <- getBooleanSetting "ld supports compact unwind"
ldSupportsFilelist <- getBooleanSetting "ld supports filelist"
ldSupportsResponseFiles <- getBooleanSetting "ld supports response files"
ldSupportsSingleModule <- getBooleanSetting "ld supports single module"
ldIsGnuLd <- getBooleanSetting "ld is GNU ld"
arSupportsDashL <- getBooleanSetting "ar supports -L"
let globalpkgdb_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 <- getToolSetting "unlit command"
windres_path <- getToolSetting "windres command"
ar_path <- getToolSetting "ar command"
otool_path <- getToolSetting "otool command"
install_name_tool_path <- getToolSetting "install_name_tool command"
ranlib_path <- getToolSetting "ranlib command"
touch_path <- getToolSetting "touch command"
mkdll_prog <- getToolSetting "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.
-- Other things being equal, as and ld are simply gcc
cc_link_args_str <- getToolSetting "C compiler link flags"
let as_prog = cc_prog
as_args = map Option cc_args
ld_prog = cc_prog
ld_args = map Option (cc_args ++ words cc_link_args_str)
ld_r_prog <- getToolSetting "Merge objects command"
ld_r_args <- getToolSetting "Merge objects flags"
let ld_r
| null ld_r_prog = Nothing
| otherwise = Just (ld_r_prog, map Option $ words ld_r_args)
llvmTarget <- getSetting "LLVM target"
-- We just assume on command line
lc_prog <- getSetting "LLVM llc command"
lo_prog <- getSetting "LLVM opt command"
lcc_prog <- getSetting "LLVM clang command"
let iserv_prog = libexec "ghc-iserv"
ghcWithInterpreter <- getBooleanSetting "Use interpreter"
useLibFFI <- getBooleanSetting "Use LibFFI"
return $ Settings
{ sGhcNameVersion = GhcNameVersion
{ ghcNameVersion_programName = "ghc"
, ghcNameVersion_projectVersion = cProjectVersion
}
, sFileSettings = FileSettings
{ fileSettings_ghcUsagePath = ghc_usage_msg_path
, fileSettings_ghciUsagePath = ghci_usage_msg_path
, fileSettings_toolDir = mtool_dir
, fileSettings_topDir = top_dir
, fileSettings_globalPackageDatabase = globalpkgdb_path
}
, sToolSettings = ToolSettings
{ toolSettings_ldSupportsCompactUnwind = ldSupportsCompactUnwind
, toolSettings_ldSupportsFilelist = ldSupportsFilelist
, toolSettings_ldSupportsResponseFiles = ldSupportsResponseFiles
, toolSettings_ldSupportsSingleModule = ldSupportsSingleModule
, toolSettings_ldIsGnuLd = ldIsGnuLd
, toolSettings_ccSupportsNoPie = gccSupportsNoPie
, toolSettings_useInplaceMinGW = useInplaceMinGW
, toolSettings_arSupportsDashL = arSupportsDashL
, toolSettings_pgm_L = unlit_path
, toolSettings_pgm_P = (cpp_prog, cpp_args)
, toolSettings_pgm_F = ""
, toolSettings_pgm_c = cc_prog
, toolSettings_pgm_cxx = cxx_prog
, toolSettings_pgm_a = (as_prog, as_args)
, toolSettings_pgm_l = (ld_prog, ld_args)
, toolSettings_pgm_lm = ld_r
, toolSettings_pgm_dll = (mkdll_prog,mkdll_args)
, toolSettings_pgm_T = touch_path
, toolSettings_pgm_windres = windres_path
, toolSettings_pgm_ar = ar_path
, toolSettings_pgm_otool = otool_path
, toolSettings_pgm_install_name_tool = install_name_tool_path
, toolSettings_pgm_ranlib = ranlib_path
, toolSettings_pgm_lo = (lo_prog,[])
, toolSettings_pgm_lc = (lc_prog,[])
, toolSettings_pgm_lcc = (lcc_prog,[])
, toolSettings_pgm_i = iserv_prog
, toolSettings_opt_L = []
, toolSettings_opt_P = []
, toolSettings_opt_P_fingerprint = fingerprint0
, toolSettings_opt_F = []
, toolSettings_opt_c = cc_args
, toolSettings_opt_cxx = cxx_args
, toolSettings_opt_a = []
, toolSettings_opt_l = []
, toolSettings_opt_lm = []
, toolSettings_opt_windres = []
, toolSettings_opt_lcc = []
, toolSettings_opt_lo = []
, toolSettings_opt_lc = []
, toolSettings_opt_i = []
, toolSettings_extraGccViaCFlags = extraGccViaCFlags
}
, sTargetPlatform = platform
, sPlatformMisc = PlatformMisc
{ platformMisc_targetPlatformString = targetPlatformString
, platformMisc_ghcWithInterpreter = ghcWithInterpreter
, platformMisc_libFFI = useLibFFI
, platformMisc_llvmTarget = llvmTarget
}
, sRawSettings = settingsList
}
getTargetPlatform
:: FilePath -- ^ Settings filepath (for error messages)
-> RawSettings -- ^ Raw settings file contents
-> Either String Platform
getTargetPlatform settingsFile settings = do
let
getBooleanSetting = getRawBooleanSetting settingsFile settings
readSetting :: (Show a, Read a) => String -> Either String a
readSetting = readRawSetting settingsFile settings
targetArchOS <- getTargetArchOS settingsFile settings
targetWordSize <- readSetting "target word size"
targetWordBigEndian <- getBooleanSetting "target word big endian"
targetLeadingUnderscore <- getBooleanSetting "Leading underscore"
targetUnregisterised <- getBooleanSetting "Unregisterised"
targetHasGnuNonexecStack <- getBooleanSetting "target has GNU nonexec stack"
targetHasIdentDirective <- getBooleanSetting "target has .ident directive"
targetHasSubsectionsViaSymbols <- getBooleanSetting "target has subsections via symbols"
targetHasLibm <- getBooleanSetting "target has libm"
crossCompiling <- getBooleanSetting "cross compiling"
tablesNextToCode <- getBooleanSetting "Tables next to code"
pure $ Platform
{ platformArchOS = targetArchOS
, platformWordSize = targetWordSize
, platformByteOrder = if targetWordBigEndian then BigEndian else LittleEndian
, platformUnregisterised = targetUnregisterised
, platformHasGnuNonexecStack = targetHasGnuNonexecStack
, platformHasIdentDirective = targetHasIdentDirective
, platformHasSubsectionsViaSymbols = targetHasSubsectionsViaSymbols
, platformIsCrossCompiling = crossCompiling
, platformLeadingUnderscore = targetLeadingUnderscore
, platformTablesNextToCode = tablesNextToCode
, platformHasLibm = targetHasLibm
, platform_constants = Nothing -- will be filled later when loading (or building) the RTS unit
}