-- Copyright (c) 2019 The DAML Authors. All rights reserved. -- SPDX-License-Identifier: Apache-2.0 -- | General utility functions, mostly focused around GHC operations. module Development.IDE.GHC.Util( -- * HcsEnv and environment HscEnvEq, hscEnv, newHscEnvEq, hscEnvWithImportPaths, envImportPaths, modifyDynFlags, evalGhcEnv, runGhcEnv, deps, -- * GHC wrappers prettyPrint, printRdrName, printName, ParseResult(..), runParser, lookupPackageConfig, textToStringBuffer, bytestringToStringBuffer, stringBufferToByteString, moduleImportPath, cgGutsToCoreModule, fingerprintToBS, fingerprintFromStringBuffer, -- * General utilities readFileUtf8, hDuplicateTo', setHieDir, dontWriteHieFiles, disableWarningsAsErrors, newHscEnvEqPreserveImportPaths) where import Control.Concurrent import Data.List.Extra import Data.ByteString.Internal (ByteString(..)) import Data.Maybe import Data.Typeable import qualified Data.ByteString.Internal as BS import Fingerprint import GhcMonad import Control.Exception import Data.IORef import FileCleanup import Foreign.Ptr import Foreign.ForeignPtr import Foreign.Storable import GHC.IO.BufferedIO (BufferedIO) import GHC.IO.Device as IODevice import GHC.IO.Encoding import GHC.IO.Exception import GHC.IO.Handle.Types import GHC.IO.Handle.Internals import Data.Unique import Development.Shake.Classes import qualified Data.Text as T import qualified Data.Text.Encoding as T import qualified Data.Text.Encoding.Error as T import qualified Data.ByteString as BS import Lexer import StringBuffer import System.FilePath import HscTypes (cg_binds, md_types, cg_module, ModDetails, CgGuts, ic_dflags, hsc_IC, HscEnv(hsc_dflags)) import PackageConfig (PackageConfig) import Outputable (showSDocUnsafe, ppr, showSDoc, Outputable) import Packages (getPackageConfigMap, lookupPackage') import SrcLoc (mkRealSrcLoc) import FastString (mkFastString) import DynFlags (emptyFilesToClean, unsafeGlobalDynFlags) import Module (moduleNameSlashes, InstalledUnitId) import OccName (parenSymOcc) import RdrName (nameRdrName, rdrNameOcc) import Development.IDE.GHC.Compat as GHC import Development.IDE.Types.Location ---------------------------------------------------------------------- -- GHC setup -- | Used to modify dyn flags in preference to calling 'setSessionDynFlags', -- since that function also reloads packages (which is very slow). modifyDynFlags :: GhcMonad m => (DynFlags -> DynFlags) -> m () modifyDynFlags f = do newFlags <- f <$> getSessionDynFlags -- We do not use setSessionDynFlags here since we handle package -- initialization separately. modifySession $ \h -> h { hsc_dflags = newFlags, hsc_IC = (hsc_IC h) {ic_dflags = newFlags} } -- | Given a 'UnitId' try and find the associated 'PackageConfig' in the environment. lookupPackageConfig :: UnitId -> HscEnv -> Maybe PackageConfig lookupPackageConfig unitId env = lookupPackage' False pkgConfigMap unitId where pkgConfigMap = -- For some weird reason, the GHC API does not provide a way to get the PackageConfigMap -- from PackageState so we have to wrap it in DynFlags first. getPackageConfigMap $ hsc_dflags env -- | Convert from the @text@ package to the @GHC@ 'StringBuffer'. -- Currently implemented somewhat inefficiently (if it ever comes up in a profile). textToStringBuffer :: T.Text -> StringBuffer textToStringBuffer = stringToStringBuffer . T.unpack runParser :: DynFlags -> String -> P a -> ParseResult a runParser flags str parser = unP parser parseState where filename = "" location = mkRealSrcLoc (mkFastString filename) 1 1 buffer = stringToStringBuffer str parseState = mkPState flags buffer location stringBufferToByteString :: StringBuffer -> ByteString stringBufferToByteString StringBuffer{..} = PS buf cur len bytestringToStringBuffer :: ByteString -> StringBuffer bytestringToStringBuffer (PS buf cur len) = StringBuffer{..} -- | Pretty print a GHC value using 'unsafeGlobalDynFlags '. prettyPrint :: Outputable a => a -> String prettyPrint = showSDoc unsafeGlobalDynFlags . ppr -- | Pretty print a 'RdrName' wrapping operators in parens printRdrName :: RdrName -> String printRdrName name = showSDocUnsafe $ parenSymOcc rn (ppr rn) where rn = rdrNameOcc name -- | Pretty print a 'Name' wrapping operators in parens printName :: Name -> String printName = printRdrName . nameRdrName -- | Run a 'Ghc' monad value using an existing 'HscEnv'. Sets up and tears down all the required -- pieces, but designed to be more efficient than a standard 'runGhc'. evalGhcEnv :: HscEnv -> Ghc b -> IO b evalGhcEnv env act = snd <$> runGhcEnv env act -- | Run a 'Ghc' monad value using an existing 'HscEnv'. Sets up and tears down all the required -- pieces, but designed to be more efficient than a standard 'runGhc'. runGhcEnv :: HscEnv -> Ghc a -> IO (HscEnv, a) runGhcEnv env act = do filesToClean <- newIORef emptyFilesToClean dirsToClean <- newIORef mempty let dflags = (hsc_dflags env){filesToClean=filesToClean, dirsToClean=dirsToClean, useUnicode=True} ref <- newIORef env{hsc_dflags=dflags} res <- unGhc act (Session ref) `finally` do cleanTempFiles dflags cleanTempDirs dflags (,res) <$> readIORef ref -- | Given a module location, and its parse tree, figure out what is the include directory implied by it. -- For example, given the file @\/usr\/\Test\/Foo\/Bar.hs@ with the module name @Foo.Bar@ the directory -- @\/usr\/Test@ should be on the include path to find sibling modules. moduleImportPath :: NormalizedFilePath -> GHC.ModuleName -> Maybe FilePath -- The call to takeDirectory is required since DAML does not require that -- the file name matches the module name in the last component. -- Once that has changed we can get rid of this. moduleImportPath (takeDirectory . fromNormalizedFilePath -> pathDir) mn -- This happens for single-component modules since takeDirectory "A" == "." | modDir == "." = Just pathDir | otherwise = dropTrailingPathSeparator <$> stripSuffix modDir pathDir where -- A for module A.B modDir = takeDirectory $ fromNormalizedFilePath $ toNormalizedFilePath' $ moduleNameSlashes mn -- | An 'HscEnv' with equality. Two values are considered equal -- if they are created with the same call to 'newHscEnvEq'. data HscEnvEq = HscEnvEq { envUnique :: !Unique , hscEnv :: !HscEnv , deps :: [(InstalledUnitId, DynFlags)] -- ^ In memory components for this HscEnv -- This is only used at the moment for the import dirs in -- the DynFlags , envImportPaths :: Maybe [String] -- ^ If Just, import dirs originally configured in this env -- If Nothing, the env import dirs are unaltered } -- | Wrap an 'HscEnv' into an 'HscEnvEq'. newHscEnvEq :: FilePath -> HscEnv -> [(InstalledUnitId, DynFlags)] -> IO HscEnvEq newHscEnvEq cradlePath hscEnv0 deps = do envUnique <- newUnique let envImportPaths = Just $ relativeToCradle <$> importPaths (hsc_dflags hscEnv0) relativeToCradle = (takeDirectory cradlePath ) hscEnv = removeImportPaths hscEnv0 return HscEnvEq{..} -- | Wrap an 'HscEnv' into an 'HscEnvEq'. newHscEnvEqPreserveImportPaths :: HscEnv -> [(InstalledUnitId, DynFlags)] -> IO HscEnvEq newHscEnvEqPreserveImportPaths hscEnv deps = do let envImportPaths = Nothing envUnique <- newUnique return HscEnvEq{..} -- | Unwrap the 'HscEnv' with the original import paths. -- Used only for locating imports hscEnvWithImportPaths :: HscEnvEq -> HscEnv hscEnvWithImportPaths HscEnvEq{..} | Just imps <- envImportPaths = hscEnv{hsc_dflags = (hsc_dflags hscEnv){importPaths = imps}} | otherwise = hscEnv removeImportPaths :: HscEnv -> HscEnv removeImportPaths hsc = hsc{hsc_dflags = (hsc_dflags hsc){importPaths = []}} instance Show HscEnvEq where show HscEnvEq{envUnique} = "HscEnvEq " ++ show (hashUnique envUnique) instance Eq HscEnvEq where a == b = envUnique a == envUnique b instance NFData HscEnvEq where rnf (HscEnvEq a b c d) = rnf (hashUnique a) `seq` b `seq` c `seq` rnf d instance Hashable HscEnvEq where hashWithSalt s = hashWithSalt s . envUnique -- Fake instance needed to persuade Shake to accept this type as a key. -- No harm done as ghcide never persists these keys currently instance Binary HscEnvEq where put _ = error "not really" get = error "not really" -- | Read a UTF8 file, with lenient decoding, so it will never raise a decoding error. readFileUtf8 :: FilePath -> IO T.Text readFileUtf8 f = T.decodeUtf8With T.lenientDecode <$> BS.readFile f -- | Convert from a 'CgGuts' to a 'CoreModule'. cgGutsToCoreModule :: SafeHaskellMode -> CgGuts -> ModDetails -> CoreModule cgGutsToCoreModule safeMode guts modDetails = CoreModule (cg_module guts) (md_types modDetails) (cg_binds guts) safeMode -- | Convert a 'Fingerprint' to a 'ByteString' by copying the byte across. -- Will produce an 8 byte unreadable ByteString. fingerprintToBS :: Fingerprint -> BS.ByteString fingerprintToBS (Fingerprint a b) = BS.unsafeCreate 8 $ \ptr -> do ptr <- pure $ castPtr ptr pokeElemOff ptr 0 a pokeElemOff ptr 1 b -- | Take the 'Fingerprint' of a 'StringBuffer'. fingerprintFromStringBuffer :: StringBuffer -> IO Fingerprint fingerprintFromStringBuffer (StringBuffer buf len cur) = withForeignPtr buf $ \ptr -> fingerprintData (ptr `plusPtr` cur) len -- | A slightly modified version of 'hDuplicateTo' from GHC. -- Importantly, it avoids the bug listed in https://gitlab.haskell.org/ghc/ghc/merge_requests/2318. hDuplicateTo' :: Handle -> Handle -> IO () hDuplicateTo' h1@(FileHandle path m1) h2@(FileHandle _ m2) = do withHandle__' "hDuplicateTo" h2 m2 $ \h2_ -> do -- The implementation in base has this call to hClose_help. -- _ <- hClose_help h2_ -- hClose_help does two things: -- 1. It flushes the buffer, we replicate this here _ <- flushWriteBuffer h2_ `catch` \(_ :: IOException) -> pure () -- 2. It closes the handle. This is redundant since dup2 takes care of that -- but even worse it is actively harmful! Once the handle has been closed -- another thread is free to reallocate it. This leads to dup2 failing with EBUSY -- if it happens just in the right moment. withHandle_' "hDuplicateTo" h1 m1 $ \h1_ -> do dupHandleTo path h1 Nothing h2_ h1_ (Just handleFinalizer) hDuplicateTo' h1@(DuplexHandle path r1 w1) h2@(DuplexHandle _ r2 w2) = do withHandle__' "hDuplicateTo" h2 w2 $ \w2_ -> do _ <- hClose_help w2_ withHandle_' "hDuplicateTo" h1 w1 $ \w1_ -> do dupHandleTo path h1 Nothing w2_ w1_ (Just handleFinalizer) withHandle__' "hDuplicateTo" h2 r2 $ \r2_ -> do _ <- hClose_help r2_ withHandle_' "hDuplicateTo" h1 r1 $ \r1_ -> do dupHandleTo path h1 (Just w1) r2_ r1_ Nothing hDuplicateTo' h1 _ = ioe_dupHandlesNotCompatible h1 -- | This is copied unmodified from GHC since it is not exposed. dupHandleTo :: FilePath -> Handle -> Maybe (MVar Handle__) -> Handle__ -> Handle__ -> Maybe HandleFinalizer -> IO Handle__ dupHandleTo filepath h other_side _hto_@Handle__{haDevice=devTo} h_@Handle__{haDevice=dev} mb_finalizer = do flushBuffer h_ case cast devTo of Nothing -> ioe_dupHandlesNotCompatible h Just dev' -> do _ <- IODevice.dup2 dev dev' FileHandle _ m <- dupHandle_ dev' filepath other_side h_ mb_finalizer takeMVar m -- | This is copied unmodified from GHC since it is not exposed. -- Note the beautiful inline comment! dupHandle_ :: (IODevice dev, BufferedIO dev, Typeable dev) => dev -> FilePath -> Maybe (MVar Handle__) -> Handle__ -> Maybe HandleFinalizer -> IO Handle dupHandle_ new_dev filepath other_side _h_@Handle__{..} mb_finalizer = do -- XXX wrong! mb_codec <- if isJust haEncoder then fmap Just getLocaleEncoding else return Nothing mkHandle new_dev filepath haType True{-buffered-} mb_codec NewlineMode { inputNL = haInputNL, outputNL = haOutputNL } mb_finalizer other_side -- | This is copied unmodified from GHC since it is not exposed. ioe_dupHandlesNotCompatible :: Handle -> IO a ioe_dupHandlesNotCompatible h = ioException (IOError (Just h) IllegalOperation "hDuplicateTo" "handles are incompatible" Nothing Nothing)