{-# LANGUAGE CPP #-}
{-# LANGUAGE ConstraintKinds #-}
{-# LANGUAGE DataKinds #-}
{-# LANGUAGE DeriveFoldable #-}
{-# LANGUAGE DeriveFunctor #-}
{-# LANGUAGE DeriveTraversable #-}
{-# LANGUAGE FunctionalDependencies #-}
{-# LANGUAGE LambdaCase #-}
{-# LANGUAGE GADTs #-}
{-# LANGUAGE KindSignatures #-}
{-# LANGUAGE MultiParamTypeClasses #-}
{-# LANGUAGE StandaloneDeriving #-}
{-# LANGUAGE TupleSections #-}
{-# OPTIONS_GHC -fno-warn-name-shadowing #-}
module GHC.PackageDb (
InstalledPackageInfo(..),
DbModule(..),
DbUnitId(..),
BinaryStringRep(..),
DbUnitIdModuleRep(..),
emptyInstalledPackageInfo,
PackageDbLock,
lockPackageDb,
unlockPackageDb,
DbMode(..),
DbOpenMode(..),
isDbOpenReadMode,
readPackageDbForGhc,
readPackageDbForGhcPkg,
writePackageDb
) where
import Data.Version (Version(..))
import qualified Data.ByteString as BS
import qualified Data.ByteString.Char8 as BS.Char8
import qualified Data.ByteString.Lazy as BS.Lazy
import qualified Data.ByteString.Lazy.Internal as BS.Lazy (defaultChunkSize)
import qualified Data.Foldable as F
import qualified Data.Traversable as F
import Data.Binary as Bin
import Data.Binary.Put as Bin
import Data.Binary.Get as Bin
import Control.Exception as Exception
import Control.Monad (when)
import System.FilePath
import System.IO
import System.IO.Error
import GHC.IO.Exception (IOErrorType(InappropriateType))
import GHC.IO.Handle.Lock
import System.Directory
data InstalledPackageInfo compid srcpkgid srcpkgname instunitid unitid modulename mod
= InstalledPackageInfo {
unitId :: instunitid,
componentId :: compid,
instantiatedWith :: [(modulename, mod)],
sourcePackageId :: srcpkgid,
packageName :: srcpkgname,
packageVersion :: Version,
sourceLibName :: Maybe srcpkgname,
abiHash :: String,
depends :: [instunitid],
abiDepends :: [(instunitid, String)],
importDirs :: [FilePath],
hsLibraries :: [String],
extraLibraries :: [String],
extraGHCiLibraries :: [String],
libraryDirs :: [FilePath],
libraryDynDirs :: [FilePath],
frameworks :: [String],
frameworkDirs :: [FilePath],
ldOptions :: [String],
ccOptions :: [String],
includes :: [String],
includeDirs :: [FilePath],
haddockInterfaces :: [FilePath],
haddockHTMLs :: [FilePath],
exposedModules :: [(modulename, Maybe mod)],
hiddenModules :: [modulename],
indefinite :: Bool,
exposed :: Bool,
trusted :: Bool
}
deriving (Eq, Show)
type RepInstalledPackageInfo compid srcpkgid srcpkgname instunitid unitid modulename mod =
(BinaryStringRep srcpkgid, BinaryStringRep srcpkgname,
BinaryStringRep modulename, BinaryStringRep compid,
BinaryStringRep instunitid,
DbUnitIdModuleRep instunitid compid unitid modulename mod)
class DbUnitIdModuleRep instunitid compid unitid modulename mod
| mod -> unitid, unitid -> mod, mod -> modulename, unitid -> compid, unitid -> instunitid
where
fromDbModule :: DbModule instunitid compid unitid modulename mod -> mod
toDbModule :: mod -> DbModule instunitid compid unitid modulename mod
fromDbUnitId :: DbUnitId instunitid compid unitid modulename mod -> unitid
toDbUnitId :: unitid -> DbUnitId instunitid compid unitid modulename mod
data DbModule instunitid compid unitid modulename mod
= DbModule {
dbModuleUnitId :: unitid,
dbModuleName :: modulename
}
| DbModuleVar {
dbModuleVarName :: modulename
}
deriving (Eq, Show)
data DbUnitId instunitid compid unitid modulename mod
= DbUnitId compid [(modulename, mod)]
| DbInstalledUnitId instunitid
deriving (Eq, Show)
class BinaryStringRep a where
fromStringRep :: BS.ByteString -> a
toStringRep :: a -> BS.ByteString
emptyInstalledPackageInfo :: RepInstalledPackageInfo a b c d e f g
=> InstalledPackageInfo a b c d e f g
emptyInstalledPackageInfo =
InstalledPackageInfo {
unitId = fromStringRep BS.empty,
componentId = fromStringRep BS.empty,
instantiatedWith = [],
sourcePackageId = fromStringRep BS.empty,
packageName = fromStringRep BS.empty,
packageVersion = Version [] [],
sourceLibName = Nothing,
abiHash = "",
depends = [],
abiDepends = [],
importDirs = [],
hsLibraries = [],
extraLibraries = [],
extraGHCiLibraries = [],
libraryDirs = [],
libraryDynDirs = [],
frameworks = [],
frameworkDirs = [],
ldOptions = [],
ccOptions = [],
includes = [],
includeDirs = [],
haddockInterfaces = [],
haddockHTMLs = [],
exposedModules = [],
hiddenModules = [],
indefinite = False,
exposed = False,
trusted = False
}
newtype PackageDbLock = PackageDbLock Handle
lockPackageDb :: FilePath -> IO PackageDbLock
unlockPackageDb :: PackageDbLock -> IO ()
lockPackageDbWith :: LockMode -> FilePath -> IO PackageDbLock
lockPackageDbWith mode file = do
catchJust
(\e -> if isPermissionError e then Just () else Nothing)
(lockFileOpenIn ReadWriteMode)
(const $ lockFileOpenIn ReadMode)
where
lock = file <.> "lock"
lockFileOpenIn io_mode = bracketOnError
(openBinaryFile lock io_mode)
hClose
$ \hnd -> do hLock hnd mode `catch` \FileLockingNotSupported -> return ()
return $ PackageDbLock hnd
lockPackageDb = lockPackageDbWith ExclusiveLock
unlockPackageDb (PackageDbLock hnd) = do
#if MIN_VERSION_base(4,11,0)
hUnlock hnd
#endif
hClose hnd
data DbMode = DbReadOnly | DbReadWrite
data DbOpenMode (mode :: DbMode) t where
DbOpenReadOnly :: DbOpenMode 'DbReadOnly t
DbOpenReadWrite :: t -> DbOpenMode 'DbReadWrite t
deriving instance Functor (DbOpenMode mode)
deriving instance F.Foldable (DbOpenMode mode)
deriving instance F.Traversable (DbOpenMode mode)
isDbOpenReadMode :: DbOpenMode mode t -> Bool
isDbOpenReadMode = \case
DbOpenReadOnly -> True
DbOpenReadWrite{} -> False
readPackageDbForGhc :: RepInstalledPackageInfo a b c d e f g =>
FilePath -> IO [InstalledPackageInfo a b c d e f g]
readPackageDbForGhc file =
decodeFromFile file DbOpenReadOnly getDbForGhc >>= \case
(pkgs, DbOpenReadOnly) -> return pkgs
where
getDbForGhc = do
_version <- getHeader
_ghcPartLen <- get :: Get Word32
ghcPart <- get
return ghcPart
readPackageDbForGhcPkg :: Binary pkgs => FilePath -> DbOpenMode mode t ->
IO (pkgs, DbOpenMode mode PackageDbLock)
readPackageDbForGhcPkg file mode =
decodeFromFile file mode getDbForGhcPkg
where
getDbForGhcPkg = do
_version <- getHeader
ghcPartLen <- get :: Get Word32
_ghcPart <- skip (fromIntegral ghcPartLen)
ghcPkgPart <- get
return ghcPkgPart
writePackageDb :: (Binary pkgs, RepInstalledPackageInfo a b c d e f g) =>
FilePath -> [InstalledPackageInfo a b c d e f g] ->
pkgs -> IO ()
writePackageDb file ghcPkgs ghcPkgPart =
writeFileAtomic file (runPut putDbForGhcPkg)
where
putDbForGhcPkg = do
putHeader
put ghcPartLen
putLazyByteString ghcPart
put ghcPkgPart
where
ghcPartLen :: Word32
ghcPartLen = fromIntegral (BS.Lazy.length ghcPart)
ghcPart = encode ghcPkgs
getHeader :: Get (Word32, Word32)
getHeader = do
magic <- getByteString (BS.length headerMagic)
when (magic /= headerMagic) $
fail "not a ghc-pkg db file, wrong file magic number"
majorVersion <- get :: Get Word32
minorVersion <- get :: Get Word32
when (majorVersion /= 1) $
fail "unsupported ghc-pkg db format version"
headerExtraLen <- get :: Get Word32
skip (fromIntegral headerExtraLen)
return (majorVersion, minorVersion)
putHeader :: Put
putHeader = do
putByteString headerMagic
put majorVersion
put minorVersion
put headerExtraLen
where
majorVersion = 1 :: Word32
minorVersion = 0 :: Word32
headerExtraLen = 0 :: Word32
headerMagic :: BS.ByteString
headerMagic = BS.Char8.pack "\0ghcpkg\0"
decodeFromFile :: FilePath -> DbOpenMode mode t -> Get pkgs ->
IO (pkgs, DbOpenMode mode PackageDbLock)
decodeFromFile file mode decoder = case mode of
DbOpenReadOnly -> do
#if defined(mingw32_HOST_OS)
bracket (lockPackageDbWith SharedLock file) unlockPackageDb $ \_ -> do
#endif
(, DbOpenReadOnly) <$> decodeFileContents
DbOpenReadWrite{} -> do
bracketOnError (lockPackageDb file) unlockPackageDb $ \lock -> do
(, DbOpenReadWrite lock) <$> decodeFileContents
where
decodeFileContents = withBinaryFile file ReadMode $ \hnd ->
feed hnd (runGetIncremental decoder)
feed hnd (Partial k) = do chunk <- BS.hGet hnd BS.Lazy.defaultChunkSize
if BS.null chunk
then feed hnd (k Nothing)
else feed hnd (k (Just chunk))
feed _ (Done _ _ res) = return res
feed _ (Fail _ _ msg) = ioError err
where
err = mkIOError InappropriateType loc Nothing (Just file)
`ioeSetErrorString` msg
loc = "GHC.PackageDb.readPackageDb"
writeFileAtomic :: FilePath -> BS.Lazy.ByteString -> IO ()
writeFileAtomic targetPath content = do
let (targetDir, targetFile) = splitFileName targetPath
Exception.bracketOnError
(openBinaryTempFileWithDefaultPermissions targetDir $ targetFile <.> "tmp")
(\(tmpPath, handle) -> hClose handle >> removeFile tmpPath)
(\(tmpPath, handle) -> do
BS.Lazy.hPut handle content
hClose handle
renameFile tmpPath targetPath)
instance (RepInstalledPackageInfo a b c d e f g) =>
Binary (InstalledPackageInfo a b c d e f g) where
put (InstalledPackageInfo
unitId componentId instantiatedWith sourcePackageId
packageName packageVersion
sourceLibName
abiHash depends abiDepends importDirs
hsLibraries extraLibraries extraGHCiLibraries
libraryDirs libraryDynDirs
frameworks frameworkDirs
ldOptions ccOptions
includes includeDirs
haddockInterfaces haddockHTMLs
exposedModules hiddenModules
indefinite exposed trusted) = do
put (toStringRep sourcePackageId)
put (toStringRep packageName)
put packageVersion
put (fmap toStringRep sourceLibName)
put (toStringRep unitId)
put (toStringRep componentId)
put (map (\(mod_name, mod) -> (toStringRep mod_name, toDbModule mod))
instantiatedWith)
put abiHash
put (map toStringRep depends)
put (map (\(k,v) -> (toStringRep k, v)) abiDepends)
put importDirs
put hsLibraries
put extraLibraries
put extraGHCiLibraries
put libraryDirs
put libraryDynDirs
put frameworks
put frameworkDirs
put ldOptions
put ccOptions
put includes
put includeDirs
put haddockInterfaces
put haddockHTMLs
put (map (\(mod_name, mb_mod) -> (toStringRep mod_name, fmap toDbModule mb_mod))
exposedModules)
put (map toStringRep hiddenModules)
put indefinite
put exposed
put trusted
get = do
sourcePackageId <- get
packageName <- get
packageVersion <- get
sourceLibName <- get
unitId <- get
componentId <- get
instantiatedWith <- get
abiHash <- get
depends <- get
abiDepends <- get
importDirs <- get
hsLibraries <- get
extraLibraries <- get
extraGHCiLibraries <- get
libraryDirs <- get
libraryDynDirs <- get
frameworks <- get
frameworkDirs <- get
ldOptions <- get
ccOptions <- get
includes <- get
includeDirs <- get
haddockInterfaces <- get
haddockHTMLs <- get
exposedModules <- get
hiddenModules <- get
indefinite <- get
exposed <- get
trusted <- get
return (InstalledPackageInfo
(fromStringRep unitId)
(fromStringRep componentId)
(map (\(mod_name, mod) -> (fromStringRep mod_name, fromDbModule mod))
instantiatedWith)
(fromStringRep sourcePackageId)
(fromStringRep packageName) packageVersion
(fmap fromStringRep sourceLibName)
abiHash
(map fromStringRep depends)
(map (\(k,v) -> (fromStringRep k, v)) abiDepends)
importDirs
hsLibraries extraLibraries extraGHCiLibraries
libraryDirs libraryDynDirs
frameworks frameworkDirs
ldOptions ccOptions
includes includeDirs
haddockInterfaces haddockHTMLs
(map (\(mod_name, mb_mod) ->
(fromStringRep mod_name, fmap fromDbModule mb_mod))
exposedModules)
(map fromStringRep hiddenModules)
indefinite exposed trusted)
instance (BinaryStringRep modulename, BinaryStringRep compid,
BinaryStringRep instunitid,
DbUnitIdModuleRep instunitid compid unitid modulename mod) =>
Binary (DbModule instunitid compid unitid modulename mod) where
put (DbModule dbModuleUnitId dbModuleName) = do
putWord8 0
put (toDbUnitId dbModuleUnitId)
put (toStringRep dbModuleName)
put (DbModuleVar dbModuleVarName) = do
putWord8 1
put (toStringRep dbModuleVarName)
get = do
b <- getWord8
case b of
0 -> do dbModuleUnitId <- get
dbModuleName <- get
return (DbModule (fromDbUnitId dbModuleUnitId)
(fromStringRep dbModuleName))
_ -> do dbModuleVarName <- get
return (DbModuleVar (fromStringRep dbModuleVarName))
instance (BinaryStringRep modulename, BinaryStringRep compid,
BinaryStringRep instunitid,
DbUnitIdModuleRep instunitid compid unitid modulename mod) =>
Binary (DbUnitId instunitid compid unitid modulename mod) where
put (DbInstalledUnitId instunitid) = do
putWord8 0
put (toStringRep instunitid)
put (DbUnitId dbUnitIdComponentId dbUnitIdInsts) = do
putWord8 1
put (toStringRep dbUnitIdComponentId)
put (map (\(mod_name, mod) -> (toStringRep mod_name, toDbModule mod)) dbUnitIdInsts)
get = do
b <- getWord8
case b of
0 -> do
instunitid <- get
return (DbInstalledUnitId (fromStringRep instunitid))
_ -> do
dbUnitIdComponentId <- get
dbUnitIdInsts <- get
return (DbUnitId
(fromStringRep dbUnitIdComponentId)
(map (\(mod_name, mod) -> ( fromStringRep mod_name
, fromDbModule mod))
dbUnitIdInsts))