{-# LANGUAGE ScopedTypeVariables #-} {-# LANGUAGE LambdaCase #-} -- | Platform description module GHC.Platform ( Platform (..) , PlatformWordSize(..) , platformArch , platformOS , ArchOS(..) , Arch(..) , OS(..) , ArmISA(..) , ArmISAExt(..) , ArmABI(..) , PPC_64ABI(..) , ByteOrder(..) , target32Bit , isARM , osElfTarget , osMachOTarget , osSubsectionsViaSymbols , platformUsesFrameworks , platformWordSizeInBytes , platformWordSizeInBits , platformMinInt , platformMaxInt , platformMaxWord , platformInIntRange , platformInWordRange , platformCConvNeedsExtension , PlatformMisc(..) , SseVersion (..) , BmiVersion (..) -- * Platform constants , PlatformConstants(..) , lookupPlatformConstants , platformConstants -- * Shared libraries , platformSOName , platformHsSOName , platformSOExt ) where import Prelude -- See Note [Why do we import Prelude here?] import GHC.Read import GHC.ByteOrder (ByteOrder(..)) import GHC.Platform.Constants import GHC.Platform.ArchOS import GHC.Utils.Panic.Plain import Data.Word import Data.Int import System.FilePath import System.Directory -- | Platform description -- -- This is used to describe platforms so that we can generate code for them. data Platform = Platform { platformArchOS :: !ArchOS -- ^ Architecture and OS , platformWordSize :: !PlatformWordSize -- ^ Word size , platformByteOrder :: !ByteOrder -- ^ Byte order (endianness) , platformUnregisterised :: !Bool , platformHasGnuNonexecStack :: !Bool , platformHasIdentDirective :: !Bool , platformHasSubsectionsViaSymbols :: !Bool , platformIsCrossCompiling :: !Bool , platformLeadingUnderscore :: !Bool -- ^ Symbols need underscore prefix , platformTablesNextToCode :: !Bool -- ^ Determines whether we will be compiling info tables that reside just -- before the entry code, or with an indirection to the entry code. See -- TABLES_NEXT_TO_CODE in includes/rts/storage/InfoTables.h. , platform_constants :: !(Maybe PlatformConstants) -- ^ Constants such as structure offsets, type sizes, etc. } deriving (Read, Show, Eq) platformConstants :: Platform -> PlatformConstants platformConstants platform = case platform_constants platform of Nothing -> panic "Platform constants not available!" Just c -> c data PlatformWordSize = PW4 -- ^ A 32-bit platform | PW8 -- ^ A 64-bit platform deriving (Eq, Ord) instance Show PlatformWordSize where show PW4 = "4" show PW8 = "8" instance Read PlatformWordSize where readPrec = do i :: Int <- readPrec case i of 4 -> return PW4 8 -> return PW8 other -> fail ("Invalid PlatformWordSize: " ++ show other) platformWordSizeInBytes :: Platform -> Int platformWordSizeInBytes p = case platformWordSize p of PW4 -> 4 PW8 -> 8 platformWordSizeInBits :: Platform -> Int platformWordSizeInBits p = platformWordSizeInBytes p * 8 -- | Platform architecture platformArch :: Platform -> Arch platformArch platform = case platformArchOS platform of ArchOS arch _ -> arch -- | Platform OS platformOS :: Platform -> OS platformOS platform = case platformArchOS platform of ArchOS _ os -> os isARM :: Arch -> Bool isARM (ArchARM {}) = True isARM ArchAArch64 = True isARM _ = False -- | This predicate tells us whether the platform is 32-bit. target32Bit :: Platform -> Bool target32Bit p = case platformWordSize p of PW4 -> True PW8 -> False -- | This predicate tells us whether the OS supports ELF-like shared libraries. osElfTarget :: OS -> Bool osElfTarget OSLinux = True osElfTarget OSFreeBSD = True osElfTarget OSDragonFly = True osElfTarget OSOpenBSD = True osElfTarget OSNetBSD = True osElfTarget OSSolaris2 = True osElfTarget OSDarwin = False osElfTarget OSMinGW32 = False osElfTarget OSKFreeBSD = True osElfTarget OSHaiku = True osElfTarget OSQNXNTO = False osElfTarget OSAIX = False osElfTarget OSHurd = True osElfTarget OSUnknown = False -- Defaulting to False is safe; it means don't rely on any -- ELF-specific functionality. It is important to have a default for -- portability, otherwise we have to answer this question for every -- new platform we compile on (even unreg). -- | This predicate tells us whether the OS support Mach-O shared libraries. osMachOTarget :: OS -> Bool osMachOTarget OSDarwin = True osMachOTarget _ = False osUsesFrameworks :: OS -> Bool osUsesFrameworks OSDarwin = True osUsesFrameworks _ = False platformUsesFrameworks :: Platform -> Bool platformUsesFrameworks = osUsesFrameworks . platformOS osSubsectionsViaSymbols :: OS -> Bool osSubsectionsViaSymbols OSDarwin = True osSubsectionsViaSymbols _ = False -- | Minimum representable Int value for the given platform platformMinInt :: Platform -> Integer platformMinInt p = case platformWordSize p of PW4 -> toInteger (minBound :: Int32) PW8 -> toInteger (minBound :: Int64) -- | Maximum representable Int value for the given platform platformMaxInt :: Platform -> Integer platformMaxInt p = case platformWordSize p of PW4 -> toInteger (maxBound :: Int32) PW8 -> toInteger (maxBound :: Int64) -- | Maximum representable Word value for the given platform platformMaxWord :: Platform -> Integer platformMaxWord p = case platformWordSize p of PW4 -> toInteger (maxBound :: Word32) PW8 -> toInteger (maxBound :: Word64) -- | Test if the given Integer is representable with a platform Int platformInIntRange :: Platform -> Integer -> Bool platformInIntRange platform x = x >= platformMinInt platform && x <= platformMaxInt platform -- | Test if the given Integer is representable with a platform Word platformInWordRange :: Platform -> Integer -> Bool platformInWordRange platform x = x >= 0 && x <= platformMaxWord platform -- | For some architectures the C calling convention is that any -- integer shorter than 64 bits is replaced by its 64 bits -- representation using sign or zero extension. platformCConvNeedsExtension :: Platform -> Bool platformCConvNeedsExtension platform = case platformArch platform of ArchPPC_64 _ -> True ArchS390X -> True _ -> False -------------------------------------------------- -- Instruction sets -------------------------------------------------- -- | x86 SSE instructions data SseVersion = SSE1 | SSE2 | SSE3 | SSE4 | SSE42 deriving (Eq, Ord) -- | x86 BMI (bit manipulation) instructions data BmiVersion = BMI1 | BMI2 deriving (Eq, Ord) -- | Platform-specific settings formerly hard-coded in Config.hs. -- -- These should probably be all be triaged whether they can be computed from -- other settings or belong in another another place (like 'Platform' above). data PlatformMisc = PlatformMisc { -- TODO Recalculate string from richer info? platformMisc_targetPlatformString :: String , platformMisc_ghcWithInterpreter :: Bool , platformMisc_ghcWithSMP :: Bool , platformMisc_ghcRTSWays :: String , platformMisc_libFFI :: Bool , platformMisc_ghcRtsWithLibdw :: Bool , platformMisc_llvmTarget :: String } platformSOName :: Platform -> FilePath -> FilePath platformSOName platform root = case platformOS platform of OSMinGW32 -> root <.> platformSOExt platform _ -> ("lib" ++ root) <.> platformSOExt platform platformHsSOName :: Platform -> FilePath -> FilePath platformHsSOName platform root = ("lib" ++ root) <.> platformSOExt platform platformSOExt :: Platform -> FilePath platformSOExt platform = case platformOS platform of OSDarwin -> "dylib" OSMinGW32 -> "dll" _ -> "so" -- Note [Platform constants] -- ~~~~~~~~~~~~~~~~~~~~~~~~~ -- -- The RTS is partly written in C, hence we use an external C compiler to build -- it. Thus GHC must somehow retrieve some information about the produced code -- (sizes of types, offsets of struct fields, etc.) to produce compatible code. -- -- This is the role of utils/deriveConstants utility: it produces a C -- source, compiles it with the same toolchain that will be used to build the -- RTS, and finally retrieves the constants from the built artefact. We can't -- directly run the produced program because we may be cross-compiling. -- -- These constants are then stored in DerivedConstants.h header file that is -- bundled with the RTS unit. This file is directly imported by Cmm codes and it -- is also read by GHC. deriveConstants also produces the Haskell definition of -- the PlatformConstants datatype and the Haskell parser for the -- DerivedConstants.h file. -- -- For quite some time, constants used by GHC were globally installed in -- ${libdir}/platformConstants but now GHC reads the DerivedConstants.h header -- bundled with the RTS unit. GHC detects when it builds the RTS unit itself and -- in this case it loads the header from the include-dirs passed on the -- command-line. -- -- Note that GHC doesn't parse every "#define SOME_CONSTANT 123" individually. -- Instead there is a single #define that contains all the constants useful to -- GHC in a comma separated list: -- -- #define HS_CONSTANTS "123,45,..." -- -- Note that GHC mustn't directly import DerivedConstants.h as these constants -- are only valid for a specific target platform and we want GHC to be target -- agnostic. -- -- | Try to locate "DerivedConstants.h" file in the given dirs and to parse the -- PlatformConstants from it. -- -- See Note [Platform constants] lookupPlatformConstants :: [FilePath] -> IO (Maybe PlatformConstants) lookupPlatformConstants include_dirs = find_constants include_dirs where try_parse d = do let p = d "DerivedConstants.h" doesFileExist p >>= \case True -> Just <$> parseConstantsHeader p False -> return Nothing find_constants [] = return Nothing find_constants (x:xs) = try_parse x >>= \case Nothing -> find_constants xs Just c -> return (Just c)