{-# LANGUAGE CPP #-} {-# LANGUAGE FlexibleInstances #-} {-# LANGUAGE LambdaCase #-} {-# LANGUAGE MultiParamTypeClasses #-} {-# LANGUAGE TypeSynonymInstances #-} {-# LANGUAGE GADTs #-} {-# LANGUAGE KindSignatures #-} {-# LANGUAGE DataKinds #-} {-# LANGUAGE TupleSections #-} {-# LANGUAGE ScopedTypeVariables #-} {-# OPTIONS_GHC -fno-warn-orphans #-} -- We never want to link against terminfo while bootstrapping. #if defined(BOOTSTRAPPING) #if defined(WITH_TERMINFO) #undef WITH_TERMINFO #endif #endif -- Fine if this comes from make/Hadrian or the pre-built base. #include ----------------------------------------------------------------------------- -- -- (c) The University of Glasgow 2004-2009. -- -- Package management tool -- ----------------------------------------------------------------------------- module Main (main) where import qualified GHC.Unit.Database as GhcPkg import GHC.Unit.Database import GHC.HandleEncoding import GHC.BaseDir (getBaseDir) import GHC.Settings.Platform (getTargetPlatform) import GHC.Settings.Utils (maybeReadFuzzy) import GHC.Platform (platformMini) import GHC.Platform.Host (cHostPlatformMini) import GHC.UniqueSubdir (uniqueSubdir) import GHC.Version ( cProjectVersion ) import qualified Distribution.Simple.PackageIndex as PackageIndex import qualified Data.Graph as Graph import qualified Distribution.ModuleName as ModuleName import Distribution.ModuleName (ModuleName) import Distribution.InstalledPackageInfo as Cabal import qualified Distribution.Parsec as Cabal import Distribution.Package hiding (installedUnitId) import Distribution.Text import Distribution.Version import Distribution.Backpack import Distribution.Pretty (Pretty (..)) import Distribution.Types.UnqualComponentName import Distribution.Types.LibraryName import Distribution.Types.MungedPackageName import Distribution.Types.MungedPackageId import Distribution.Simple.Utils (toUTF8BS, writeUTF8File, readUTF8File) import qualified Data.Version as Version import System.FilePath as FilePath import System.Directory ( getAppUserDataDirectory, createDirectoryIfMissing, getModificationTime ) import Text.Printf import Prelude import System.Console.GetOpt import qualified Control.Exception as Exception import Data.Maybe import Data.Bifunctor import Data.Char ( toLower ) import Control.Monad import System.Directory ( doesDirectoryExist, getDirectoryContents, doesFileExist, removeFile, getCurrentDirectory ) import System.Exit ( exitWith, ExitCode(..) ) import System.Environment ( getArgs, getProgName, getEnv ) import System.IO import System.IO.Error import GHC.IO.Exception (IOErrorType(InappropriateType)) import Data.List import Control.Concurrent import qualified Data.Foldable as F import qualified Data.Traversable as F import qualified Data.Set as Set import qualified Data.Map as Map import qualified Data.ByteString as BS #if defined(mingw32_HOST_OS) import GHC.ConsoleHandler #else import System.Posix hiding (fdToHandle) #endif #if defined(GLOB) import qualified System.Info(os) #endif #if defined(WITH_TERMINFO) import System.Console.Terminfo as Terminfo #endif #if defined(mingw32_HOST_OS) # if defined(i386_HOST_ARCH) # define WINDOWS_CCONV stdcall # elif defined(x86_64_HOST_ARCH) # define WINDOWS_CCONV ccall # else # error Unknown mingw32 arch # endif #endif -- | Short-circuit 'any' with a \"monadic predicate\". anyM :: (Monad m) => (a -> m Bool) -> [a] -> m Bool anyM _ [] = return False anyM p (x:xs) = do b <- p x if b then return True else anyM p xs -- ----------------------------------------------------------------------------- -- Entry point main :: IO () main = do configureHandleEncoding args <- getArgs case getOpt Permute (flags ++ deprecFlags) args of (cli,_,[]) | FlagHelp `elem` cli -> do prog <- getProgramName bye (usageInfo (usageHeader prog) flags) (cli,_,[]) | FlagVersion `elem` cli -> bye ourCopyright (cli,nonopts,[]) -> case getVerbosity Normal cli of Right v -> runit v cli nonopts Left err -> die err (_,_,errors) -> do prog <- getProgramName die (concat errors ++ shortUsage prog) -- ----------------------------------------------------------------------------- -- Command-line syntax data Flag = FlagUser | FlagGlobal | FlagHelp | FlagVersion | FlagConfig FilePath | FlagGlobalConfig FilePath | FlagUserConfig FilePath | FlagForce | FlagForceFiles | FlagMultiInstance | FlagExpandEnvVars | FlagExpandPkgroot | FlagNoExpandPkgroot | FlagSimpleOutput | FlagNamesOnly | FlagIgnoreCase | FlagNoUserDb | FlagVerbosity (Maybe String) | FlagUnitId | FlagShowUnitIds deriving Eq flags :: [OptDescr Flag] flags = [ Option [] ["user"] (NoArg FlagUser) "use the current user's package database", Option [] ["global"] (NoArg FlagGlobal) "use the global package database", Option ['f'] ["package-db"] (ReqArg FlagConfig "FILE/DIR") "use the specified package database", Option [] ["package-conf"] (ReqArg FlagConfig "FILE/DIR") "use the specified package database (DEPRECATED)", Option [] ["global-package-db"] (ReqArg FlagGlobalConfig "DIR") "location of the global package database", Option [] ["no-user-package-db"] (NoArg FlagNoUserDb) "never read the user package database", Option [] ["user-package-db"] (ReqArg FlagUserConfig "DIR") "location of the user package database (use instead of default)", Option [] ["no-user-package-conf"] (NoArg FlagNoUserDb) "never read the user package database (DEPRECATED)", Option [] ["force"] (NoArg FlagForce) "ignore missing dependencies, directories, and libraries", Option [] ["force-files"] (NoArg FlagForceFiles) "ignore missing directories and libraries only", Option [] ["enable-multi-instance"] (NoArg FlagMultiInstance) "allow registering multiple instances of the same package version", Option [] ["expand-env-vars"] (NoArg FlagExpandEnvVars) "expand environment variables (${name}-style) in input package descriptions", Option [] ["expand-pkgroot"] (NoArg FlagExpandPkgroot) "expand ${pkgroot}-relative paths to absolute in output package descriptions", Option [] ["no-expand-pkgroot"] (NoArg FlagNoExpandPkgroot) "preserve ${pkgroot}-relative paths in output package descriptions", Option ['?'] ["help"] (NoArg FlagHelp) "display this help and exit", Option ['V'] ["version"] (NoArg FlagVersion) "output version information and exit", Option [] ["simple-output"] (NoArg FlagSimpleOutput) "print output in easy-to-parse format for some commands", Option [] ["show-unit-ids"] (NoArg FlagShowUnitIds) "print unit-ids instead of package identifiers", Option [] ["names-only"] (NoArg FlagNamesOnly) "only print package names, not versions; can only be used with list --simple-output", Option [] ["ignore-case"] (NoArg FlagIgnoreCase) "ignore case for substring matching", Option [] ["ipid", "unit-id"] (NoArg FlagUnitId) "interpret package arguments as unit IDs (e.g. installed package IDs)", Option ['v'] ["verbose"] (OptArg FlagVerbosity "Verbosity") "verbosity level (0-2, default 1)" ] data Verbosity = Silent | Normal | Verbose deriving (Show, Eq, Ord) getVerbosity :: Verbosity -> [Flag] -> Either String Verbosity getVerbosity v [] = Right v getVerbosity _ (FlagVerbosity Nothing : fs) = getVerbosity Verbose fs getVerbosity _ (FlagVerbosity (Just "0") : fs) = getVerbosity Silent fs getVerbosity _ (FlagVerbosity (Just "1") : fs) = getVerbosity Normal fs getVerbosity _ (FlagVerbosity (Just "2") : fs) = getVerbosity Verbose fs getVerbosity _ (FlagVerbosity v : _) = Left ("Bad verbosity: " ++ show v) getVerbosity v (_ : fs) = getVerbosity v fs deprecFlags :: [OptDescr Flag] deprecFlags = [ -- put deprecated flags here ] ourCopyright :: String ourCopyright = "GHC package manager version " ++ GHC.Version.cProjectVersion ++ "\n" shortUsage :: String -> String shortUsage prog = "For usage information see '" ++ prog ++ " --help'." usageHeader :: String -> String usageHeader prog = substProg prog $ "Usage:\n" ++ " $p init {path}\n" ++ " Create and initialise a package database at the location {path}.\n" ++ " Packages can be registered in the new database using the register\n" ++ " command with --package-db={path}. To use the new database with GHC,\n" ++ " use GHC's -package-db flag.\n" ++ "\n" ++ " $p register {filename | -}\n" ++ " Register the package using the specified installed package\n" ++ " description. The syntax for the latter is given in the $p\n" ++ " documentation. The input file should be encoded in UTF-8.\n" ++ "\n" ++ " $p update {filename | -}\n" ++ " Register the package, overwriting any other package with the\n" ++ " same name. The input file should be encoded in UTF-8.\n" ++ "\n" ++ " $p unregister [pkg-id] \n" ++ " Unregister the specified packages in the order given.\n" ++ "\n" ++ " $p expose {pkg-id}\n" ++ " Expose the specified package.\n" ++ "\n" ++ " $p hide {pkg-id}\n" ++ " Hide the specified package.\n" ++ "\n" ++ " $p trust {pkg-id}\n" ++ " Trust the specified package.\n" ++ "\n" ++ " $p distrust {pkg-id}\n" ++ " Distrust the specified package.\n" ++ "\n" ++ " $p list [pkg]\n" ++ " List registered packages in the global database, and also the\n" ++ " user database if --user is given. If a package name is given\n" ++ " all the registered versions will be listed in ascending order.\n" ++ " Accepts the --simple-output flag.\n" ++ "\n" ++ " $p dot\n" ++ " Generate a graph of the package dependencies in a form suitable\n" ++ " for input for the graphviz tools. For example, to generate a PDF\n" ++ " of the dependency graph: ghc-pkg dot | tred | dot -Tpdf >pkgs.pdf\n" ++ "\n" ++ " $p find-module {module}\n" ++ " List registered packages exposing module {module} in the global\n" ++ " database, and also the user database if --user is given.\n" ++ " All the registered versions will be listed in ascending order.\n" ++ " Accepts the --simple-output flag.\n" ++ "\n" ++ " $p latest {pkg-id}\n" ++ " Prints the highest registered version of a package.\n" ++ "\n" ++ " $p check\n" ++ " Check the consistency of package dependencies and list broken packages.\n" ++ " Accepts the --simple-output flag.\n" ++ "\n" ++ " $p describe {pkg}\n" ++ " Give the registered description for the specified package. The\n" ++ " description is returned in precisely the syntax required by $p\n" ++ " register.\n" ++ "\n" ++ " $p field {pkg} {field}\n" ++ " Extract the specified field of the package description for the\n" ++ " specified package. Accepts comma-separated multiple fields.\n" ++ "\n" ++ " $p dump\n" ++ " Dump the registered description for every package. This is like\n" ++ " \"ghc-pkg describe '*'\", except that it is intended to be used\n" ++ " by tools that parse the results, rather than humans. The output is\n" ++ " always encoded in UTF-8, regardless of the current locale.\n" ++ "\n" ++ " $p recache\n" ++ " Regenerate the package database cache. This command should only be\n" ++ " necessary if you added a package to the database by dropping a file\n" ++ " into the database directory manually. By default, the global DB\n" ++ " is recached; to recache a different DB use --user or --package-db\n" ++ " as appropriate.\n" ++ "\n" ++ " Substring matching is supported for {module} in find-module and\n" ++ " for {pkg} in list, describe, and field, where a '*' indicates\n" ++ " open substring ends (prefix*, *suffix, *infix*). Use --ipid to\n" ++ " match against the installed package ID instead.\n" ++ "\n" ++ " When asked to modify a database (register, unregister, update,\n"++ " hide, expose, and also check), ghc-pkg modifies the global database by\n"++ " default. Specifying --user causes it to act on the user database,\n"++ " or --package-db can be used to act on another database\n"++ " entirely. When multiple of these options are given, the rightmost\n"++ " one is used as the database to act upon.\n"++ "\n"++ " Commands that query the package database (list, tree, latest, describe,\n"++ " field) operate on the list of databases specified by the flags\n"++ " --user, --global, and --package-db. If none of these flags are\n"++ " given, the default is --global --user.\n"++ "\n" ++ " The following optional flags are also accepted:\n" substProg :: String -> String -> String substProg _ [] = [] substProg prog ('$':'p':xs) = prog ++ substProg prog xs substProg prog (c:xs) = c : substProg prog xs -- ----------------------------------------------------------------------------- -- Do the business data Force = NoForce | ForceFiles | ForceAll | CannotForce deriving (Eq,Ord) -- | Enum flag representing argument type data AsPackageArg = AsUnitId | AsDefault -- | Represents how a package may be specified by a user on the command line. data PackageArg -- | A package identifier foo-0.1, or a glob foo-* = Id GlobPackageIdentifier -- | An installed package ID foo-0.1-HASH. This is guaranteed to uniquely -- match a single entry in the package database. | IUId UnitId -- | A glob against the package name. The first string is the literal -- glob, the second is a function which returns @True@ if the argument -- matches. | Substring String (String->Bool) runit :: Verbosity -> [Flag] -> [String] -> IO () runit verbosity cli nonopts = do installSignalHandlers -- catch ^C and clean up when (verbosity >= Verbose) (putStr ourCopyright) prog <- getProgramName let force | FlagForce `elem` cli = ForceAll | FlagForceFiles `elem` cli = ForceFiles | otherwise = NoForce as_arg | FlagUnitId `elem` cli = AsUnitId | otherwise = AsDefault multi_instance = FlagMultiInstance `elem` cli expand_env_vars= FlagExpandEnvVars `elem` cli mexpand_pkgroot= foldl' accumExpandPkgroot Nothing cli where accumExpandPkgroot _ FlagExpandPkgroot = Just True accumExpandPkgroot _ FlagNoExpandPkgroot = Just False accumExpandPkgroot x _ = x splitFields fields = unfoldr splitComma (',':fields) where splitComma "" = Nothing splitComma fs = Just $ break (==',') (tail fs) -- | Parses a glob into a predicate which tests if a string matches -- the glob. Returns Nothing if the string in question is not a glob. -- At the moment, we only support globs at the beginning and/or end of -- strings. This function respects case sensitivity. -- -- >>> fromJust (substringCheck "*") "anything" -- True -- -- >>> fromJust (substringCheck "string") "string" -- True -- -- >>> fromJust (substringCheck "*bar") "foobar" -- True -- -- >>> fromJust (substringCheck "foo*") "foobar" -- True -- -- >>> fromJust (substringCheck "*ooba*") "foobar" -- True -- -- >>> fromJust (substringCheck "f*bar") "foobar" -- False substringCheck :: String -> Maybe (String -> Bool) substringCheck "" = Nothing substringCheck "*" = Just (const True) substringCheck [_] = Nothing substringCheck (h:t) = case (h, init t, last t) of ('*',s,'*') -> Just (isInfixOf (f s) . f) ('*',_, _ ) -> Just (isSuffixOf (f t) . f) ( _ ,s,'*') -> Just (isPrefixOf (f (h:s)) . f) _ -> Nothing where f | FlagIgnoreCase `elem` cli = map toLower | otherwise = id #if defined(GLOB) glob x | System.Info.os=="mingw32" = do -- glob echoes its argument, after win32 filename globbing (_,o,_,_) <- runInteractiveCommand ("glob "++x) txt <- hGetContents o return (read txt) glob x | otherwise = return [x] #endif -- -- first, parse the command case nonopts of #if defined(GLOB) -- dummy command to demonstrate usage and permit testing -- without messing things up; use glob to selectively enable -- windows filename globbing for file parameters -- register, update, FlagGlobalConfig, FlagConfig; others? ["glob", filename] -> do print filename glob filename >>= print #endif ["init", filename] -> initPackageDB filename verbosity cli ["register", filename] -> registerPackage filename verbosity cli multi_instance expand_env_vars False force ["update", filename] -> registerPackage filename verbosity cli multi_instance expand_env_vars True force "unregister" : pkgarg_strs@(_:_) -> do forM_ pkgarg_strs $ \pkgarg_str -> do pkgarg <- readPackageArg as_arg pkgarg_str unregisterPackage pkgarg verbosity cli force ["expose", pkgarg_str] -> do pkgarg <- readPackageArg as_arg pkgarg_str exposePackage pkgarg verbosity cli force ["hide", pkgarg_str] -> do pkgarg <- readPackageArg as_arg pkgarg_str hidePackage pkgarg verbosity cli force ["trust", pkgarg_str] -> do pkgarg <- readPackageArg as_arg pkgarg_str trustPackage pkgarg verbosity cli force ["distrust", pkgarg_str] -> do pkgarg <- readPackageArg as_arg pkgarg_str distrustPackage pkgarg verbosity cli force ["list"] -> do listPackages verbosity cli Nothing Nothing ["list", pkgarg_str] -> case substringCheck pkgarg_str of Nothing -> do pkgarg <- readPackageArg as_arg pkgarg_str listPackages verbosity cli (Just pkgarg) Nothing Just m -> listPackages verbosity cli (Just (Substring pkgarg_str m)) Nothing ["dot"] -> do showPackageDot verbosity cli ["find-module", mod_name] -> do let match = maybe (==mod_name) id (substringCheck mod_name) listPackages verbosity cli Nothing (Just match) ["latest", pkgid_str] -> do pkgid <- readGlobPkgId pkgid_str latestPackage verbosity cli pkgid ["describe", pkgid_str] -> do pkgarg <- case substringCheck pkgid_str of Nothing -> readPackageArg as_arg pkgid_str Just m -> return (Substring pkgid_str m) describePackage verbosity cli pkgarg (fromMaybe False mexpand_pkgroot) ["field", pkgid_str, fields] -> do pkgarg <- case substringCheck pkgid_str of Nothing -> readPackageArg as_arg pkgid_str Just m -> return (Substring pkgid_str m) describeField verbosity cli pkgarg (splitFields fields) (fromMaybe True mexpand_pkgroot) ["check"] -> do checkConsistency verbosity cli ["dump"] -> do dumpUnits verbosity cli (fromMaybe False mexpand_pkgroot) ["recache"] -> do recache verbosity cli [] -> do die ("missing command\n" ++ shortUsage prog) (_cmd:_) -> do die ("command-line syntax error\n" ++ shortUsage prog) parseCheck :: Cabal.Parsec a => String -> String -> IO a parseCheck str what = case Cabal.eitherParsec str of Left e -> die ("cannot parse \'" ++ str ++ "\' as a " ++ what ++ ": " ++ e) Right x -> pure x -- | Either an exact 'PackageIdentifier', or a glob for all packages -- matching 'PackageName'. data GlobPackageIdentifier = ExactPackageIdentifier MungedPackageId | GlobPackageIdentifier MungedPackageName displayGlobPkgId :: GlobPackageIdentifier -> String displayGlobPkgId (ExactPackageIdentifier pid) = display pid displayGlobPkgId (GlobPackageIdentifier pn) = display pn ++ "-*" readGlobPkgId :: String -> IO GlobPackageIdentifier readGlobPkgId str | "-*" `isSuffixOf` str = GlobPackageIdentifier <$> parseCheck (init (init str)) "package identifier (glob)" | otherwise = ExactPackageIdentifier <$> parseCheck str "package identifier (exact)" readPackageArg :: AsPackageArg -> String -> IO PackageArg readPackageArg AsUnitId str = IUId <$> parseCheck str "installed package id" readPackageArg AsDefault str = Id <$> readGlobPkgId str -- ----------------------------------------------------------------------------- -- Package databases -- Some commands operate on a single database: -- register, unregister, expose, hide, trust, distrust -- however these commands also check the union of the available databases -- in order to check consistency. For example, register will check that -- dependencies exist before registering a package. -- -- Some commands operate on multiple databases, with overlapping semantics: -- list, describe, field data PackageDB (mode :: GhcPkg.DbMode) = PackageDB { location, locationAbsolute :: !FilePath, -- We need both possibly-relative and definitely-absolute package -- db locations. This is because the relative location is used as -- an identifier for the db, so it is important we do not modify it. -- On the other hand we need the absolute path in a few places -- particularly in relation to the ${pkgroot} stuff. packageDbLock :: !(GhcPkg.DbOpenMode mode GhcPkg.PackageDbLock), -- If package db is open in read write mode, we keep its lock around for -- transactional updates. packages :: [InstalledPackageInfo] } type PackageDBStack = [PackageDB 'GhcPkg.DbReadOnly] -- A stack of package databases. Convention: head is the topmost -- in the stack. -- | Selector for picking the right package DB to modify as 'register' and -- 'recache' operate on the database on top of the stack, whereas 'modify' -- changes the first database that contains a specific package. data DbModifySelector = TopOne | ContainsPkg PackageArg allPackagesInStack :: PackageDBStack -> [InstalledPackageInfo] allPackagesInStack = concatMap packages -- | Retain only the part of the stack up to and including the given package -- DB (where the global package DB is the bottom of the stack). The resulting -- package DB stack contains exactly the packages that packages from the -- specified package DB can depend on, since dependencies can only extend -- down the stack, not up (e.g. global packages cannot depend on user -- packages). stackUpTo :: FilePath -> PackageDBStack -> PackageDBStack stackUpTo to_modify = dropWhile ((/= to_modify) . location) getPkgDatabases :: Verbosity -> GhcPkg.DbOpenMode mode DbModifySelector -> Bool -- use the user db -> Bool -- read caches, if available -> Bool -- expand vars, like ${pkgroot} and $topdir -> [Flag] -> IO (PackageDBStack, -- the real package DB stack: [global,user] ++ -- DBs specified on the command line with -f. GhcPkg.DbOpenMode mode (PackageDB mode), -- which one to modify, if any PackageDBStack) -- the package DBs specified on the command -- line, or [global,user] otherwise. This -- is used as the list of package DBs for -- commands that just read the DB, such as 'list'. getPkgDatabases verbosity mode use_user use_cache expand_vars my_flags = do -- Second we determine the location of the global package config. On Windows, -- this is found relative to the ghc-pkg.exe binary, whereas on Unix the -- location is passed to the binary using the --global-package-db flag by the -- wrapper script. let err_msg = "missing --global-package-db option, location of global package database unknown\n" global_conf <- case [ f | FlagGlobalConfig f <- my_flags ] of -- See Note [Base Dir] for more information on the base dir / top dir. [] -> do mb_dir <- getBaseDir case mb_dir of Nothing -> die err_msg Just dir -> do r <- lookForPackageDBIn dir case r of Nothing -> die ("Can't find package database in " ++ dir) Just path -> return path fs -> return (last fs) -- The value of the $topdir variable used in some package descriptions -- Note that the way we calculate this is slightly different to how it -- is done in ghc itself. We rely on the convention that the global -- package db lives in ghc's libdir. top_dir <- absolutePath (takeDirectory global_conf) let no_user_db = FlagNoUserDb `elem` my_flags -- get the location of the user package database, and create it if necessary -- getAppUserDataDirectory can fail (e.g. if $HOME isn't set) e_appdir <- tryIO $ getAppUserDataDirectory "ghc" mb_user_conf <- case [ f | FlagUserConfig f <- my_flags ] of _ | no_user_db -> return Nothing [] -> case e_appdir of Left _ -> return Nothing Right appdir -> do -- See Note [Settings File] about this file, and why we need GHC to share it with us. let settingsFile = top_dir "settings" exists_settings_file <- doesFileExist settingsFile targetPlatformMini <- case exists_settings_file of False -> do warn $ "WARNING: settings file doesn't exist " ++ show settingsFile warn "cannot know target platform so guessing target == host (native compiler)." pure cHostPlatformMini True -> do settingsStr <- readFile settingsFile mySettings <- case maybeReadFuzzy settingsStr of Just s -> pure $ Map.fromList s -- It's excusable to not have a settings file (for now at -- least) but completely inexcusable to have a malformed one. Nothing -> die $ "Can't parse settings file " ++ show settingsFile case getTargetPlatform settingsFile mySettings of Right platform -> pure $ platformMini platform Left e -> die e let subdir = uniqueSubdir targetPlatformMini dir = appdir subdir r <- lookForPackageDBIn dir case r of Nothing -> return (Just (dir "package.conf.d", False)) Just f -> return (Just (f, True)) fs -> return (Just (last fs, True)) -- If the user database exists, and for "use_user" commands (which includes -- "ghc-pkg check" and all commands that modify the db) we will attempt to -- use the user db. let sys_databases | Just (user_conf,user_exists) <- mb_user_conf, use_user || user_exists = [user_conf, global_conf] | otherwise = [global_conf] e_pkg_path <- tryIO (System.Environment.getEnv "GHC_PACKAGE_PATH") let env_stack = case e_pkg_path of Left _ -> sys_databases Right path | not (null path) && isSearchPathSeparator (last path) -> splitSearchPath (init path) ++ sys_databases | otherwise -> splitSearchPath path -- The "global" database is always the one at the bottom of the stack. -- This is the database we modify by default. virt_global_conf = last env_stack let db_flags = [ f | Just f <- map is_db_flag my_flags ] where is_db_flag FlagUser | Just (user_conf, _user_exists) <- mb_user_conf = Just user_conf is_db_flag FlagGlobal = Just virt_global_conf is_db_flag (FlagConfig f) = Just f is_db_flag _ = Nothing let flag_db_names | null db_flags = env_stack | otherwise = reverse (nub db_flags) -- For a "modify" command, treat all the databases as -- a stack, where we are modifying the top one, but it -- can refer to packages in databases further down the -- stack. -- -f flags on the command line add to the database -- stack, unless any of them are present in the stack -- already. let final_stack = filter (`notElem` env_stack) [ f | FlagConfig f <- reverse my_flags ] ++ env_stack top_db = if null db_flags then virt_global_conf else last db_flags (db_stack, db_to_operate_on) <- getDatabases top_dir mb_user_conf flag_db_names final_stack top_db let flag_db_stack = [ db | db_name <- flag_db_names, db <- db_stack, location db == db_name ] when (verbosity > Normal) $ do infoLn ("db stack: " ++ show (map location db_stack)) F.forM_ db_to_operate_on $ \db -> infoLn ("modifying: " ++ (location db)) infoLn ("flag db stack: " ++ show (map location flag_db_stack)) return (db_stack, db_to_operate_on, flag_db_stack) where getDatabases top_dir mb_user_conf flag_db_names final_stack top_db = case mode of -- When we open in read only mode, we simply read all of the databases/ GhcPkg.DbOpenReadOnly -> do db_stack <- mapM readDatabase final_stack return (db_stack, GhcPkg.DbOpenReadOnly) -- The only package db we open in read write mode is the one on the top of -- the stack. GhcPkg.DbOpenReadWrite TopOne -> do (db_stack, mto_modify) <- stateSequence Nothing [ \case to_modify@(Just _) -> (, to_modify) <$> readDatabase db_path Nothing -> if db_path /= top_db then (, Nothing) <$> readDatabase db_path else do db <- readParseDatabase verbosity mb_user_conf mode use_cache db_path `Exception.catch` couldntOpenDbForModification db_path let ro_db = db { packageDbLock = GhcPkg.DbOpenReadOnly } return (ro_db, Just db) | db_path <- final_stack ] to_modify <- case mto_modify of Just db -> return db Nothing -> die "no database selected for modification" return (db_stack, GhcPkg.DbOpenReadWrite to_modify) -- The package db we open in read write mode is the first one included in -- flag_db_names that contains specified package. Therefore we need to -- open each one in read/write mode first and decide whether it's for -- modification based on its contents. GhcPkg.DbOpenReadWrite (ContainsPkg pkgarg) -> do (db_stack, mto_modify) <- stateSequence Nothing [ \case to_modify@(Just _) -> (, to_modify) <$> readDatabase db_path Nothing -> if db_path `notElem` flag_db_names then (, Nothing) <$> readDatabase db_path else do let hasPkg :: PackageDB mode -> Bool hasPkg = not . null . findPackage pkgarg . packages openRo (e::IOError) = do db <- readDatabase db_path if hasPkg db then couldntOpenDbForModification db_path e else return (db, Nothing) -- If we fail to open the database in read/write mode, we need -- to check if it's for modification first before throwing an -- error, so we attempt to open it in read only mode. Exception.handle openRo $ do db <- readParseDatabase verbosity mb_user_conf mode use_cache db_path let ro_db = db { packageDbLock = GhcPkg.DbOpenReadOnly } if hasPkg db then return (ro_db, Just db) else do -- If the database is not for modification after all, -- drop the write lock as we are already finished with -- the database. case packageDbLock db of GhcPkg.DbOpenReadWrite lock -> GhcPkg.unlockPackageDb lock return (ro_db, Nothing) | db_path <- final_stack ] to_modify <- case mto_modify of Just db -> return db Nothing -> cannotFindPackage pkgarg Nothing return (db_stack, GhcPkg.DbOpenReadWrite to_modify) where couldntOpenDbForModification :: FilePath -> IOError -> IO a couldntOpenDbForModification db_path e = die $ "Couldn't open database " ++ db_path ++ " for modification: " ++ show e -- Parse package db in read-only mode. readDatabase :: FilePath -> IO (PackageDB 'GhcPkg.DbReadOnly) readDatabase db_path = do db <- readParseDatabase verbosity mb_user_conf GhcPkg.DbOpenReadOnly use_cache db_path if expand_vars then return $ mungePackageDBPaths top_dir db else return db stateSequence :: Monad m => s -> [s -> m (a, s)] -> m ([a], s) stateSequence s [] = return ([], s) stateSequence s (m:ms) = do (a, s') <- m s (as, s'') <- stateSequence s' ms return (a : as, s'') lookForPackageDBIn :: FilePath -> IO (Maybe FilePath) lookForPackageDBIn dir = do let path_dir = dir "package.conf.d" exists_dir <- doesDirectoryExist path_dir if exists_dir then return (Just path_dir) else do let path_file = dir "package.conf" exists_file <- doesFileExist path_file if exists_file then return (Just path_file) else return Nothing readParseDatabase :: forall mode t. Verbosity -> Maybe (FilePath,Bool) -> GhcPkg.DbOpenMode mode t -> Bool -- use cache -> FilePath -> IO (PackageDB mode) readParseDatabase verbosity mb_user_conf mode use_cache path -- the user database (only) is allowed to be non-existent | Just (user_conf,False) <- mb_user_conf, path == user_conf = do lock <- F.forM mode $ \_ -> do createDirectoryIfMissing True path GhcPkg.lockPackageDb cache mkPackageDB [] lock | otherwise = do e <- tryIO $ getDirectoryContents path case e of Left err | ioeGetErrorType err == InappropriateType -> do -- We provide a limited degree of backwards compatibility for -- old single-file style db: mdb <- tryReadParseOldFileStyleDatabase verbosity mb_user_conf mode use_cache path case mdb of Just db -> return db Nothing -> die $ "ghc no longer supports single-file style package " ++ "databases (" ++ path ++ ") use 'ghc-pkg init'" ++ "to create the database with the correct format." | otherwise -> ioError err Right fs | not use_cache -> ignore_cache (const $ return ()) | otherwise -> do e_tcache <- tryIO $ getModificationTime cache case e_tcache of Left ex -> do whenReportCacheErrors $ if isDoesNotExistError ex then -- It's fine if the cache is not there as long as the -- database is empty. when (not $ null confs) $ do warn ("WARNING: cache does not exist: " ++ cache) warn ("ghc will fail to read this package db. " ++ recacheAdvice) else do warn ("WARNING: cache cannot be read: " ++ show ex) warn "ghc will fail to read this package db." ignore_cache (const $ return ()) Right tcache -> do when (verbosity >= Verbose) $ do warn ("Timestamp " ++ show tcache ++ " for " ++ cache) -- If any of the .conf files is newer than package.cache, we -- assume that cache is out of date. cache_outdated <- (`anyM` confs) $ \conf -> (tcache <) <$> getModificationTime conf if not cache_outdated then do when (verbosity > Normal) $ infoLn ("using cache: " ++ cache) GhcPkg.readPackageDbForGhcPkg cache mode >>= uncurry mkPackageDB else do whenReportCacheErrors $ do warn ("WARNING: cache is out of date: " ++ cache) warn ("ghc will see an old view of this " ++ "package db. " ++ recacheAdvice) ignore_cache $ \file -> do when (verbosity >= Verbose) $ do tFile <- getModificationTime file let rel = case tcache `compare` tFile of LT -> " (NEWER than cache)" GT -> " (older than cache)" EQ -> " (same as cache)" warn ("Timestamp " ++ show tFile ++ " for " ++ file ++ rel) where confs = map (path ) $ filter (".conf" `isSuffixOf`) fs ignore_cache :: (FilePath -> IO ()) -> IO (PackageDB mode) ignore_cache checkTime = do -- If we're opening for modification, we need to acquire a -- lock even if we don't open the cache now, because we are -- going to modify it later. lock <- F.mapM (const $ GhcPkg.lockPackageDb cache) mode let doFile f = do checkTime f parseSingletonPackageConf verbosity f pkgs <- mapM doFile confs mkPackageDB pkgs lock -- We normally report cache errors for read-only commands, -- since modify commands will usually fix the cache. whenReportCacheErrors = when $ verbosity > Normal || verbosity >= Normal && GhcPkg.isDbOpenReadMode mode where cache = path cachefilename recacheAdvice | Just (user_conf, True) <- mb_user_conf, path == user_conf = "Use 'ghc-pkg recache --user' to fix." | otherwise = "Use 'ghc-pkg recache' to fix." mkPackageDB :: [InstalledPackageInfo] -> GhcPkg.DbOpenMode mode GhcPkg.PackageDbLock -> IO (PackageDB mode) mkPackageDB pkgs lock = do path_abs <- absolutePath path return $ PackageDB { location = path, locationAbsolute = path_abs, packageDbLock = lock, packages = pkgs } parseSingletonPackageConf :: Verbosity -> FilePath -> IO InstalledPackageInfo parseSingletonPackageConf verbosity file = do when (verbosity > Normal) $ infoLn ("reading package config: " ++ file) BS.readFile file >>= fmap fst . parsePackageInfo cachefilename :: FilePath cachefilename = "package.cache" mungePackageDBPaths :: FilePath -> PackageDB mode -> PackageDB mode mungePackageDBPaths top_dir db@PackageDB { packages = pkgs } = db { packages = map (mungePackagePaths top_dir pkgroot) pkgs } where pkgroot = takeDirectory $ dropTrailingPathSeparator (locationAbsolute db) -- It so happens that for both styles of package db ("package.conf" -- files and "package.conf.d" dirs) the pkgroot is the parent directory -- ${pkgroot}/package.conf or ${pkgroot}/package.conf.d/ -- | Perform path/URL variable substitution as per the Cabal ${pkgroot} spec -- (http://www.haskell.org/pipermail/libraries/2009-May/011772.html) -- Paths/URLs can be relative to ${pkgroot} or ${pkgrooturl}. -- The "pkgroot" is the directory containing the package database. -- -- Also perform a similar substitution for the older GHC-specific -- "$topdir" variable. The "topdir" is the location of the ghc -- installation (obtained from the -B option). mungePackagePaths :: FilePath -> FilePath -> InstalledPackageInfo -> InstalledPackageInfo mungePackagePaths top_dir pkgroot pkg = -- TODO: similar code is duplicated in GHC.Unit.Database pkg { importDirs = munge_paths (importDirs pkg), includeDirs = munge_paths (includeDirs pkg), libraryDirs = munge_paths (libraryDirs pkg), libraryDynDirs = munge_paths (libraryDynDirs pkg), frameworkDirs = munge_paths (frameworkDirs pkg), haddockInterfaces = munge_paths (haddockInterfaces pkg), -- haddock-html is allowed to be either a URL or a file haddockHTMLs = munge_paths (munge_urls (haddockHTMLs pkg)) } where munge_paths = map munge_path munge_urls = map munge_url (munge_path,munge_url) = mkMungePathUrl top_dir pkgroot -- ----------------------------------------------------------------------------- -- Workaround for old single-file style package dbs -- Single-file style package dbs have been deprecated for some time, but -- it turns out that Cabal was using them in one place. So this code is for a -- workaround to allow older Cabal versions to use this newer ghc. -- We check if the file db contains just "[]" and if so, we look for a new -- dir-style db in path.d/, ie in a dir next to the given file. -- We cannot just replace the file with a new dir style since Cabal still -- assumes it's a file and tries to overwrite with 'writeFile'. -- ghc itself also cooperates in this workaround tryReadParseOldFileStyleDatabase :: Verbosity -> Maybe (FilePath, Bool) -> GhcPkg.DbOpenMode mode t -> Bool -> FilePath -> IO (Maybe (PackageDB mode)) tryReadParseOldFileStyleDatabase verbosity mb_user_conf mode use_cache path = do -- assumes we've already established that path exists and is not a dir content <- readFile path `catchIO` \_ -> return "" if take 2 content == "[]" then do path_abs <- absolutePath path let path_dir = adjustOldDatabasePath path warn $ "Warning: ignoring old file-style db and trying " ++ path_dir direxists <- doesDirectoryExist path_dir if direxists then do db <- readParseDatabase verbosity mb_user_conf mode use_cache path_dir -- but pretend it was at the original location return $ Just db { location = path, locationAbsolute = path_abs } else do lock <- F.forM mode $ \_ -> do createDirectoryIfMissing True path_dir GhcPkg.lockPackageDb $ path_dir cachefilename return $ Just PackageDB { location = path, locationAbsolute = path_abs, packageDbLock = lock, packages = [] } -- if the path is not a file, or is not an empty db then we fail else return Nothing adjustOldFileStylePackageDB :: PackageDB mode -> IO (PackageDB mode) adjustOldFileStylePackageDB db = do -- assumes we have not yet established if it's an old style or not mcontent <- liftM Just (readFile (location db)) `catchIO` \_ -> return Nothing case fmap (take 2) mcontent of -- it is an old style and empty db, so look for a dir kind in location.d/ Just "[]" -> return db { location = adjustOldDatabasePath $ location db, locationAbsolute = adjustOldDatabasePath $ locationAbsolute db } -- it is old style but not empty, we have to bail Just _ -> die $ "ghc no longer supports single-file style package " ++ "databases (" ++ location db ++ ") use 'ghc-pkg init'" ++ "to create the database with the correct format." -- probably not old style, carry on as normal Nothing -> return db adjustOldDatabasePath :: FilePath -> FilePath adjustOldDatabasePath = (<.> "d") -- ----------------------------------------------------------------------------- -- Creating a new package DB initPackageDB :: FilePath -> Verbosity -> [Flag] -> IO () initPackageDB filename verbosity _flags = do let eexist = die ("cannot create: " ++ filename ++ " already exists") b1 <- doesFileExist filename when b1 eexist b2 <- doesDirectoryExist filename when b2 eexist createDirectoryIfMissing True filename lock <- GhcPkg.lockPackageDb $ filename cachefilename filename_abs <- absolutePath filename changeDB verbosity [] PackageDB { location = filename, locationAbsolute = filename_abs, packageDbLock = GhcPkg.DbOpenReadWrite lock, packages = [] } -- We can get away with passing an empty stack here, because the new DB is -- going to be initially empty, so no dependencies are going to be actually -- looked up. [] -- ----------------------------------------------------------------------------- -- Registering registerPackage :: FilePath -> Verbosity -> [Flag] -> Bool -- multi_instance -> Bool -- expand_env_vars -> Bool -- update -> Force -> IO () registerPackage input verbosity my_flags multi_instance expand_env_vars update force = do (db_stack, GhcPkg.DbOpenReadWrite db_to_operate_on, _flag_dbs) <- getPkgDatabases verbosity (GhcPkg.DbOpenReadWrite TopOne) True{-use user-} True{-use cache-} False{-expand vars-} my_flags let to_modify = location db_to_operate_on s <- case input of "-" -> do when (verbosity >= Normal) $ info "Reading package info from stdin ... " -- fix the encoding to UTF-8, since this is an interchange format hSetEncoding stdin utf8 getContents f -> do when (verbosity >= Normal) $ info ("Reading package info from " ++ show f ++ " ... ") readUTF8File f expanded <- if expand_env_vars then expandEnvVars s force else return s (pkg, ws) <- parsePackageInfo $ toUTF8BS expanded when (verbosity >= Normal) $ infoLn "done." -- report any warnings from the parse phase _ <- reportValidateErrors verbosity [] ws (display (mungedId pkg) ++ ": Warning: ") Nothing -- validate the expanded pkg, but register the unexpanded pkgroot <- absolutePath (takeDirectory to_modify) let top_dir = takeDirectory (location (last db_stack)) pkg_expanded = mungePackagePaths top_dir pkgroot pkg let truncated_stack = stackUpTo to_modify db_stack -- truncate the stack for validation, because we don't allow -- packages lower in the stack to refer to those higher up. validatePackageConfig pkg_expanded verbosity truncated_stack multi_instance update force let -- In the normal mode, we only allow one version of each package, so we -- remove all instances with the same source package id as the one we're -- adding. In the multi instance mode we don't do that, thus allowing -- multiple instances with the same source package id. removes = [ RemovePackage p | not multi_instance, p <- packages db_to_operate_on, mungedId p == mungedId pkg, -- Only remove things that were instantiated the same way! instantiatedWith p == instantiatedWith pkg ] -- changeDB verbosity (removes ++ [AddPackage pkg]) db_to_operate_on db_stack parsePackageInfo :: BS.ByteString -> IO (InstalledPackageInfo, [ValidateWarning]) parsePackageInfo str = case parseInstalledPackageInfo str of Right (warnings, ok) -> pure (mungePackageInfo ok, ws) where ws = [ msg | msg <- warnings , not ("Unrecognized field pkgroot" `isPrefixOf` msg) ] Left err -> die (unlines (F.toList err)) mungePackageInfo :: InstalledPackageInfo -> InstalledPackageInfo mungePackageInfo ipi = ipi -- ----------------------------------------------------------------------------- -- Making changes to a package database data DBOp = RemovePackage InstalledPackageInfo | AddPackage InstalledPackageInfo | ModifyPackage InstalledPackageInfo changeDB :: Verbosity -> [DBOp] -> PackageDB 'GhcPkg.DbReadWrite -> PackageDBStack -> IO () changeDB verbosity cmds db db_stack = do let db' = updateInternalDB db cmds db'' <- adjustOldFileStylePackageDB db' createDirectoryIfMissing True (location db'') changeDBDir verbosity cmds db'' db_stack updateInternalDB :: PackageDB 'GhcPkg.DbReadWrite -> [DBOp] -> PackageDB 'GhcPkg.DbReadWrite updateInternalDB db cmds = db{ packages = foldl do_cmd (packages db) cmds } where do_cmd pkgs (RemovePackage p) = filter ((/= installedUnitId p) . installedUnitId) pkgs do_cmd pkgs (AddPackage p) = p : pkgs do_cmd pkgs (ModifyPackage p) = do_cmd (do_cmd pkgs (RemovePackage p)) (AddPackage p) changeDBDir :: Verbosity -> [DBOp] -> PackageDB 'GhcPkg.DbReadWrite -> PackageDBStack -> IO () changeDBDir verbosity cmds db db_stack = do mapM_ do_cmd cmds updateDBCache verbosity db db_stack where do_cmd (RemovePackage p) = do let file = location db display (installedUnitId p) <.> "conf" when (verbosity > Normal) $ infoLn ("removing " ++ file) removeFileSafe file do_cmd (AddPackage p) = do let file = location db display (installedUnitId p) <.> "conf" when (verbosity > Normal) $ infoLn ("writing " ++ file) writeUTF8File file (showInstalledPackageInfo p) do_cmd (ModifyPackage p) = do_cmd (AddPackage p) updateDBCache :: Verbosity -> PackageDB 'GhcPkg.DbReadWrite -> PackageDBStack -> IO () updateDBCache verbosity db db_stack = do let filename = location db cachefilename db_stack_below = stackUpTo (location db) db_stack pkgsCabalFormat :: [InstalledPackageInfo] pkgsCabalFormat = packages db -- | All the packages we can legally depend on in this step. dependablePkgsCabalFormat :: [InstalledPackageInfo] dependablePkgsCabalFormat = allPackagesInStack db_stack_below pkgsGhcCacheFormat :: [(PackageCacheFormat, Bool)] pkgsGhcCacheFormat -- See Note [Recompute abi-depends] = map (recomputeValidAbiDeps dependablePkgsCabalFormat) $ map convertPackageInfoToCacheFormat pkgsCabalFormat hasAnyAbiDepends :: InstalledPackageInfo -> Bool hasAnyAbiDepends x = length (abiDepends x) > 0 -- warn when we find any (possibly-)bogus abi-depends fields; -- Note [Recompute abi-depends] when (verbosity >= Normal) $ do let definitelyBrokenPackages = nub . sort . map (unPackageName . GhcPkg.unitPackageName . fst) . filter snd $ pkgsGhcCacheFormat when (definitelyBrokenPackages /= []) $ do warn "the following packages have broken abi-depends fields:" forM_ definitelyBrokenPackages $ \pkg -> warn $ " " ++ pkg when (verbosity > Normal) $ do let possiblyBrokenPackages = nub . sort . filter (not . (`elem` definitelyBrokenPackages)) . map (unPackageName . pkgName . packageId) . filter hasAnyAbiDepends $ pkgsCabalFormat when (possiblyBrokenPackages /= []) $ do warn $ "the following packages have correct abi-depends, " ++ "but may break in the future:" forM_ possiblyBrokenPackages $ \pkg -> warn $ " " ++ pkg when (verbosity > Normal) $ infoLn ("writing cache " ++ filename) let d = fmap (fromPackageCacheFormat . fst) pkgsGhcCacheFormat GhcPkg.writePackageDb filename d pkgsCabalFormat `catchIO` \e -> if isPermissionError e then die $ filename ++ ": you don't have permission to modify this file" else ioError e case packageDbLock db of GhcPkg.DbOpenReadWrite lock -> GhcPkg.unlockPackageDb lock type PackageCacheFormat = GhcPkg.GenericUnitInfo ComponentId PackageIdentifier PackageName UnitId ModuleName OpenModule {- Note [Recompute abi-depends] ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ Like most fields, `ghc-pkg` relies on who-ever is performing package registration to fill in fields; this includes the `abi-depends` field present for the package. However, this was likely a mistake, and is not very robust; in certain cases, versions of Cabal may use bogus abi-depends fields for a package when doing builds. Why? Because package database information is aggressively cached; it is possible to work Cabal into a situation where it uses a cached version of `abi-depends`, rather than the one in the actual database after it has been recomputed. However, there is an easy fix: ghc-pkg /already/ knows the `abi-depends` of a package, because they are the ABIs of the packages pointed at by the `depends` field. So it can simply look up the abi from the dependencies in the original database, and ignore whatever the system registering gave it. So, instead, we do two things here: - We throw away the information for a registered package's `abi-depends` field. - We recompute it: we simply look up the unit ID of the package in the original database, and use *its* abi-depends. See #14381, and Cabal issue #4728. Additionally, because we are throwing away the original (declared) ABI deps, we return a boolean that indicates whether any abi-depends were actually overridden. -} recomputeValidAbiDeps :: [InstalledPackageInfo] -> PackageCacheFormat -> (PackageCacheFormat, Bool) recomputeValidAbiDeps db pkg = (pkg { GhcPkg.unitAbiDepends = newAbiDeps }, abiDepsUpdated) where newAbiDeps = catMaybes . flip map (GhcPkg.unitAbiDepends pkg) $ \(k, _) -> case filter (\d -> installedUnitId d == k) db of [x] -> Just (k, unAbiHash (abiHash x)) _ -> Nothing abiDepsUpdated = GhcPkg.unitAbiDepends pkg /= newAbiDeps -- | Convert from PackageCacheFormat to DbUnitInfo (the format used in -- Ghc.PackageDb to store into the database) fromPackageCacheFormat :: PackageCacheFormat -> GhcPkg.DbUnitInfo fromPackageCacheFormat = GhcPkg.mapGenericUnitInfo mkUnitId' mkComponentId' mkPackageIdentifier' mkPackageName' mkModuleName' mkModule' where displayBS :: Pretty a => a -> BS.ByteString displayBS = toUTF8BS . display mkPackageIdentifier' = displayBS mkPackageName' = displayBS mkComponentId' = displayBS mkUnitId' = displayBS mkModuleName' = displayBS mkInstUnitId' i = case i of IndefFullUnitId cid insts -> DbInstUnitId (mkComponentId' cid) (fmap (bimap mkModuleName' mkModule') (Map.toList insts)) DefiniteUnitId uid -> DbUnitId (mkUnitId' (unDefUnitId uid)) mkModule' m = case m of OpenModule uid n -> DbModule (mkInstUnitId' uid) (mkModuleName' n) OpenModuleVar n -> DbModuleVar (mkModuleName' n) convertPackageInfoToCacheFormat :: InstalledPackageInfo -> PackageCacheFormat convertPackageInfoToCacheFormat pkg = GhcPkg.GenericUnitInfo { GhcPkg.unitId = installedUnitId pkg, GhcPkg.unitInstanceOf = installedComponentId pkg, GhcPkg.unitInstantiations = instantiatedWith pkg, GhcPkg.unitPackageId = sourcePackageId pkg, GhcPkg.unitPackageName = packageName pkg, GhcPkg.unitPackageVersion = Version.Version (versionNumbers (packageVersion pkg)) [], GhcPkg.unitComponentName = fmap (mkPackageName . unUnqualComponentName) (libraryNameString $ sourceLibName pkg), GhcPkg.unitDepends = depends pkg, GhcPkg.unitAbiDepends = map (\(AbiDependency k v) -> (k,unAbiHash v)) (abiDepends pkg), GhcPkg.unitAbiHash = unAbiHash (abiHash pkg), GhcPkg.unitImportDirs = importDirs pkg, GhcPkg.unitLibraries = hsLibraries pkg, GhcPkg.unitExtDepLibsSys = extraLibraries pkg, GhcPkg.unitExtDepLibsGhc = extraGHCiLibraries pkg, GhcPkg.unitLibraryDirs = libraryDirs pkg, GhcPkg.unitLibraryDynDirs = libraryDynDirs pkg, GhcPkg.unitExtDepFrameworks = frameworks pkg, GhcPkg.unitExtDepFrameworkDirs = frameworkDirs pkg, GhcPkg.unitLinkerOptions = ldOptions pkg, GhcPkg.unitCcOptions = ccOptions pkg, GhcPkg.unitIncludes = includes pkg, GhcPkg.unitIncludeDirs = includeDirs pkg, GhcPkg.unitHaddockInterfaces = haddockInterfaces pkg, GhcPkg.unitHaddockHTMLs = haddockHTMLs pkg, GhcPkg.unitExposedModules = map convertExposed (exposedModules pkg), GhcPkg.unitHiddenModules = hiddenModules pkg, GhcPkg.unitIsIndefinite = indefinite pkg, GhcPkg.unitIsExposed = exposed pkg, GhcPkg.unitIsTrusted = trusted pkg } where convertExposed (ExposedModule n reexport) = (n, reexport) -- ----------------------------------------------------------------------------- -- Exposing, Hiding, Trusting, Distrusting, Unregistering are all similar exposePackage :: PackageArg -> Verbosity -> [Flag] -> Force -> IO () exposePackage = modifyPackage (\p -> ModifyPackage p{exposed=True}) hidePackage :: PackageArg -> Verbosity -> [Flag] -> Force -> IO () hidePackage = modifyPackage (\p -> ModifyPackage p{exposed=False}) trustPackage :: PackageArg -> Verbosity -> [Flag] -> Force -> IO () trustPackage = modifyPackage (\p -> ModifyPackage p{trusted=True}) distrustPackage :: PackageArg -> Verbosity -> [Flag] -> Force -> IO () distrustPackage = modifyPackage (\p -> ModifyPackage p{trusted=False}) unregisterPackage :: PackageArg -> Verbosity -> [Flag] -> Force -> IO () unregisterPackage = modifyPackage RemovePackage modifyPackage :: (InstalledPackageInfo -> DBOp) -> PackageArg -> Verbosity -> [Flag] -> Force -> IO () modifyPackage fn pkgarg verbosity my_flags force = do (db_stack, GhcPkg.DbOpenReadWrite db, _flag_dbs) <- getPkgDatabases verbosity (GhcPkg.DbOpenReadWrite $ ContainsPkg pkgarg) True{-use user-} True{-use cache-} False{-expand vars-} my_flags let db_name = location db pkgs = packages db -- Get package respecting flags... ps = findPackage pkgarg pkgs -- This shouldn't happen if getPkgDatabases picks the DB correctly. when (null ps) $ cannotFindPackage pkgarg $ Just db let pks = map installedUnitId ps cmds = [ fn pkg | pkg <- pkgs, installedUnitId pkg `elem` pks ] new_db = updateInternalDB db cmds new_db_ro = new_db { packageDbLock = GhcPkg.DbOpenReadOnly } -- ...but do consistency checks with regards to the full stack old_broken = brokenPackages (allPackagesInStack db_stack) rest_of_stack = filter ((/= db_name) . location) db_stack new_stack = new_db_ro : rest_of_stack new_broken = brokenPackages (allPackagesInStack new_stack) newly_broken = filter ((`notElem` map installedUnitId old_broken) . installedUnitId) new_broken -- let displayQualPkgId pkg | [_] <- filter ((== pkgid) . mungedId) (allPackagesInStack db_stack) = display pkgid | otherwise = display pkgid ++ "@" ++ display (installedUnitId pkg) where pkgid = mungedId pkg when (not (null newly_broken)) $ dieOrForceAll force ("unregistering would break the following packages: " ++ unwords (map displayQualPkgId newly_broken)) changeDB verbosity cmds db db_stack recache :: Verbosity -> [Flag] -> IO () recache verbosity my_flags = do (_db_stack, GhcPkg.DbOpenReadWrite db_to_operate_on, _flag_dbs) <- getPkgDatabases verbosity (GhcPkg.DbOpenReadWrite TopOne) True{-use user-} False{-no cache-} False{-expand vars-} my_flags changeDB verbosity [] db_to_operate_on _db_stack -- ----------------------------------------------------------------------------- -- Listing packages listPackages :: Verbosity -> [Flag] -> Maybe PackageArg -> Maybe (String->Bool) -> IO () listPackages verbosity my_flags mPackageName mModuleName = do let simple_output = FlagSimpleOutput `elem` my_flags (db_stack, GhcPkg.DbOpenReadOnly, flag_db_stack) <- getPkgDatabases verbosity GhcPkg.DbOpenReadOnly False{-use user-} True{-use cache-} False{-expand vars-} my_flags let db_stack_filtered -- if a package is given, filter out all other packages | Just this <- mPackageName = [ db{ packages = filter (this `matchesPkg`) (packages db) } | db <- flag_db_stack ] | Just match <- mModuleName = -- packages which expose mModuleName [ db{ packages = filter (match `exposedInPkg`) (packages db) } | db <- flag_db_stack ] | otherwise = flag_db_stack db_stack_sorted = [ db{ packages = sort_pkgs (packages db) } | db <- db_stack_filtered ] where sort_pkgs = sortBy cmpPkgIds cmpPkgIds pkg1 pkg2 = case mungedName p1 `compare` mungedName p2 of LT -> LT GT -> GT EQ -> case mungedVersion p1 `compare` mungedVersion p2 of LT -> LT GT -> GT EQ -> installedUnitId pkg1 `compare` installedUnitId pkg2 where (p1,p2) = (mungedId pkg1, mungedId pkg2) stack = reverse db_stack_sorted match `exposedInPkg` pkg = any match (map display $ exposedModules pkg) pkg_map = allPackagesInStack db_stack broken = map installedUnitId (brokenPackages pkg_map) show_normal PackageDB{ location = db_name, packages = pkg_confs } = do hPutStrLn stdout db_name if null pkg_confs then hPutStrLn stdout " (no packages)" else hPutStrLn stdout $ unlines (map (" " ++) (map pp_pkg pkg_confs)) where pp_pkg p | installedUnitId p `elem` broken = printf "{%s}" doc | exposed p = doc | otherwise = printf "(%s)" doc where doc | verbosity >= Verbose = printf "%s (%s)" pkg (display (installedUnitId p)) | otherwise = pkg where pkg = display (mungedId p) show_simple = simplePackageList my_flags . allPackagesInStack when (not (null broken) && not simple_output && verbosity /= Silent) $ do prog <- getProgramName warn ("WARNING: there are broken packages. Run '" ++ prog ++ " check' for more details.") if simple_output then show_simple stack else do #if !defined(WITH_TERMINFO) mapM_ show_normal stack #else let show_colour withF db@PackageDB{ packages = pkg_confs } = if null pkg_confs then termText (location db) <#> termText "\n (no packages)\n" else mconcat $ map (<#> termText "\n") $ (termText (location db) : map (termText " " <#>) (map pp_pkg pkg_confs)) where pp_pkg p | installedUnitId p `elem` broken = withF Red doc | exposed p = doc | otherwise = withF Blue doc where doc | verbosity >= Verbose = termText (printf "%s (%s)" pkg (display (installedUnitId p))) | otherwise = termText pkg where pkg = display (mungedId p) is_tty <- hIsTerminalDevice stdout if not is_tty then mapM_ show_normal stack else do tty <- Terminfo.setupTermFromEnv case Terminfo.getCapability tty withForegroundColor of Nothing -> mapM_ show_normal stack Just w -> runTermOutput tty $ mconcat $ map (show_colour w) stack #endif simplePackageList :: [Flag] -> [InstalledPackageInfo] -> IO () simplePackageList my_flags pkgs = do let showPkg :: InstalledPackageInfo -> String showPkg | FlagShowUnitIds `elem` my_flags = display . installedUnitId | FlagNamesOnly `elem` my_flags = display . mungedName . mungedId | otherwise = display . mungedId strs = map showPkg pkgs when (not (null pkgs)) $ hPutStrLn stdout $ concat $ intersperse " " strs showPackageDot :: Verbosity -> [Flag] -> IO () showPackageDot verbosity myflags = do (_, GhcPkg.DbOpenReadOnly, flag_db_stack) <- getPkgDatabases verbosity GhcPkg.DbOpenReadOnly False{-use user-} True{-use cache-} False{-expand vars-} myflags let all_pkgs = allPackagesInStack flag_db_stack ipix = PackageIndex.fromList all_pkgs putStrLn "digraph {" let quote s = '"':s ++ "\"" mapM_ putStrLn [ quote from ++ " -> " ++ quote to | p <- all_pkgs, let from = display (mungedId p), key <- depends p, Just dep <- [PackageIndex.lookupUnitId ipix key], let to = display (mungedId dep) ] putStrLn "}" -- ----------------------------------------------------------------------------- -- Prints the highest (hidden or exposed) version of a package -- ToDo: This is no longer well-defined with unit ids, because the -- dependencies may be varying versions latestPackage :: Verbosity -> [Flag] -> GlobPackageIdentifier -> IO () latestPackage verbosity my_flags pkgid = do (_, GhcPkg.DbOpenReadOnly, flag_db_stack) <- getPkgDatabases verbosity GhcPkg.DbOpenReadOnly False{-use user-} True{-use cache-} False{-expand vars-} my_flags ps <- findPackages flag_db_stack (Id pkgid) case ps of [] -> die "no matches" _ -> show_pkg . maximum . map mungedId $ ps where show_pkg pid = hPutStrLn stdout (display pid) -- ----------------------------------------------------------------------------- -- Describe describePackage :: Verbosity -> [Flag] -> PackageArg -> Bool -> IO () describePackage verbosity my_flags pkgarg expand_pkgroot = do (_, GhcPkg.DbOpenReadOnly, flag_db_stack) <- getPkgDatabases verbosity GhcPkg.DbOpenReadOnly False{-use user-} True{-use cache-} expand_pkgroot my_flags dbs <- findPackagesByDB flag_db_stack pkgarg doDump expand_pkgroot [ (pkg, locationAbsolute db) | (db, pkgs) <- dbs, pkg <- pkgs ] dumpUnits :: Verbosity -> [Flag] -> Bool -> IO () dumpUnits verbosity my_flags expand_pkgroot = do (_, GhcPkg.DbOpenReadOnly, flag_db_stack) <- getPkgDatabases verbosity GhcPkg.DbOpenReadOnly False{-use user-} True{-use cache-} expand_pkgroot my_flags doDump expand_pkgroot [ (pkg, locationAbsolute db) | db <- flag_db_stack, pkg <- packages db ] doDump :: Bool -> [(InstalledPackageInfo, FilePath)] -> IO () doDump expand_pkgroot pkgs = do -- fix the encoding to UTF-8, since this is an interchange format hSetEncoding stdout utf8 putStrLn $ intercalate "---\n" [ if expand_pkgroot then showInstalledPackageInfo pkg else showInstalledPackageInfo pkg ++ pkgrootField | (pkg, pkgloc) <- pkgs , let pkgroot = takeDirectory pkgloc pkgrootField = "pkgroot: " ++ show pkgroot ++ "\n" ] -- PackageId is can have globVersion for the version findPackages :: PackageDBStack -> PackageArg -> IO [InstalledPackageInfo] findPackages db_stack pkgarg = fmap (concatMap snd) $ findPackagesByDB db_stack pkgarg findPackage :: PackageArg -> [InstalledPackageInfo] -> [InstalledPackageInfo] findPackage pkgarg pkgs = filter (pkgarg `matchesPkg`) pkgs findPackagesByDB :: PackageDBStack -> PackageArg -> IO [(PackageDB 'GhcPkg.DbReadOnly, [InstalledPackageInfo])] findPackagesByDB db_stack pkgarg = case [ (db, matched) | db <- db_stack, let matched = findPackage pkgarg $ packages db, not (null matched) ] of [] -> cannotFindPackage pkgarg Nothing ps -> return ps cannotFindPackage :: PackageArg -> Maybe (PackageDB mode) -> IO a cannotFindPackage pkgarg mdb = die $ "cannot find package " ++ pkg_msg pkgarg ++ maybe "" (\db -> " in " ++ location db) mdb where pkg_msg (Id pkgid) = displayGlobPkgId pkgid pkg_msg (IUId ipid) = display ipid pkg_msg (Substring pkgpat _) = "matching " ++ pkgpat matches :: GlobPackageIdentifier -> MungedPackageId -> Bool GlobPackageIdentifier pn `matches` pid' = (pn == mungedName pid') ExactPackageIdentifier pid `matches` pid' = mungedName pid == mungedName pid' && (mungedVersion pid == mungedVersion pid' || mungedVersion pid == nullVersion) matchesPkg :: PackageArg -> InstalledPackageInfo -> Bool (Id pid) `matchesPkg` pkg = pid `matches` mungedId pkg (IUId ipid) `matchesPkg` pkg = ipid == installedUnitId pkg (Substring _ m) `matchesPkg` pkg = m (display (mungedId pkg)) -- ----------------------------------------------------------------------------- -- Field describeField :: Verbosity -> [Flag] -> PackageArg -> [String] -> Bool -> IO () describeField verbosity my_flags pkgarg fields expand_pkgroot = do (_, GhcPkg.DbOpenReadOnly, flag_db_stack) <- getPkgDatabases verbosity GhcPkg.DbOpenReadOnly False{-use user-} True{-use cache-} expand_pkgroot my_flags fns <- mapM toField fields ps <- findPackages flag_db_stack pkgarg mapM_ (selectFields fns) ps where showFun = if FlagSimpleOutput `elem` my_flags then showSimpleInstalledPackageInfoField else showInstalledPackageInfoField toField f = case showFun f of Nothing -> die ("unknown field: " ++ f) Just fn -> return fn selectFields fns pinfo = mapM_ (\fn->putStrLn (fn pinfo)) fns -- ----------------------------------------------------------------------------- -- Check: Check consistency of installed packages checkConsistency :: Verbosity -> [Flag] -> IO () checkConsistency verbosity my_flags = do (db_stack, GhcPkg.DbOpenReadOnly, _) <- getPkgDatabases verbosity GhcPkg.DbOpenReadOnly True{-use user-} True{-use cache-} True{-expand vars-} my_flags -- although check is not a modify command, we do need to use the user -- db, because we may need it to verify package deps. let simple_output = FlagSimpleOutput `elem` my_flags let unitid_output = FlagShowUnitIds `elem` my_flags let pkgs = allPackagesInStack db_stack checkPackage :: InstalledPackageInfo -> IO [InstalledPackageInfo] checkPackage p = do (_,es,ws) <- runValidate $ checkPackageConfig p verbosity db_stack True True if null es then do when (not simple_output) $ do _ <- reportValidateErrors verbosity [] ws "" Nothing return () return [] else do when (not simple_output) $ do reportError ("There are problems in package " ++ display (mungedId p) ++ ":") _ <- reportValidateErrors verbosity es ws " " Nothing return () return [p] broken_pkgs <- concat `fmap` mapM checkPackage pkgs let filterOut pkgs1 pkgs2 = filter not_in pkgs2 where not_in p = mungedId p `notElem` all_ps all_ps = map mungedId pkgs1 let not_broken_pkgs = filterOut broken_pkgs pkgs (_, trans_broken_pkgs) = closure [] not_broken_pkgs all_broken_pkgs :: [InstalledPackageInfo] all_broken_pkgs = broken_pkgs ++ trans_broken_pkgs when (not (null all_broken_pkgs)) $ do if simple_output then simplePackageList my_flags all_broken_pkgs else do let disp :: InstalledPackageInfo -> String disp | unitid_output = display . installedUnitId | otherwise = display . mungedId reportError ("\nThe following packages are broken, either because they have a problem\n"++ "listed above, or because they depend on a broken package.") mapM_ (hPutStrLn stderr . disp) all_broken_pkgs when (not (null all_broken_pkgs)) $ exitWith (ExitFailure 1) closure :: [InstalledPackageInfo] -> [InstalledPackageInfo] -> ([InstalledPackageInfo], [InstalledPackageInfo]) closure pkgs db_stack = go pkgs db_stack where go avail not_avail = case partition (depsAvailable avail) not_avail of ([], not_avail') -> (avail, not_avail') (new_avail, not_avail') -> go (new_avail ++ avail) not_avail' depsAvailable :: [InstalledPackageInfo] -> InstalledPackageInfo -> Bool depsAvailable pkgs_ok pkg = null dangling where dangling = filter (`notElem` pids) (depends pkg) pids = map installedUnitId pkgs_ok -- we want mutually recursive groups of package to show up -- as broken. (#1750) brokenPackages :: [InstalledPackageInfo] -> [InstalledPackageInfo] brokenPackages pkgs = snd (closure [] pkgs) ----------------------------------------------------------------------------- -- Sanity-check a new package config, and automatically build GHCi libs -- if requested. type ValidateError = (Force,String) type ValidateWarning = String newtype Validate a = V { runValidate :: IO (a, [ValidateError],[ValidateWarning]) } instance Functor Validate where fmap = liftM instance Applicative Validate where pure a = V $ pure (a, [], []) (<*>) = ap instance Monad Validate where m >>= k = V $ do (a, es, ws) <- runValidate m (b, es', ws') <- runValidate (k a) return (b,es++es',ws++ws') verror :: Force -> String -> Validate () verror f s = V (return ((),[(f,s)],[])) vwarn :: String -> Validate () vwarn s = V (return ((),[],["Warning: " ++ s])) liftIO :: IO a -> Validate a liftIO k = V (k >>= \a -> return (a,[],[])) -- returns False if we should die reportValidateErrors :: Verbosity -> [ValidateError] -> [ValidateWarning] -> String -> Maybe Force -> IO Bool reportValidateErrors verbosity es ws prefix mb_force = do when (verbosity >= Normal) $ mapM_ (warn . (prefix++)) ws oks <- mapM report es return (and oks) where report (f,s) | Just force <- mb_force = if (force >= f) then do when (verbosity >= Normal) $ reportError (prefix ++ s ++ " (ignoring)") return True else if f < CannotForce then do reportError (prefix ++ s ++ " (use --force to override)") return False else do reportError err return False | otherwise = do reportError err return False where err = prefix ++ s validatePackageConfig :: InstalledPackageInfo -> Verbosity -> PackageDBStack -> Bool -- multi_instance -> Bool -- update, or check -> Force -> IO () validatePackageConfig pkg verbosity db_stack multi_instance update force = do (_,es,ws) <- runValidate $ checkPackageConfig pkg verbosity db_stack multi_instance update ok <- reportValidateErrors verbosity es ws (display (mungedId pkg) ++ ": ") (Just force) when (not ok) $ exitWith (ExitFailure 1) checkPackageConfig :: InstalledPackageInfo -> Verbosity -> PackageDBStack -> Bool -- multi_instance -> Bool -- update, or check -> Validate () checkPackageConfig pkg verbosity db_stack multi_instance update = do checkPackageId pkg checkUnitId pkg db_stack update checkDuplicates db_stack pkg multi_instance update mapM_ (checkDep db_stack) (depends pkg) checkDuplicateDepends (depends pkg) mapM_ (checkDir False "import-dirs") (importDirs pkg) mapM_ (checkDir True "library-dirs") (libraryDirs pkg) mapM_ (checkDir True "dynamic-library-dirs") (libraryDynDirs pkg) mapM_ (checkDir True "include-dirs") (includeDirs pkg) mapM_ (checkDir True "framework-dirs") (frameworkDirs pkg) mapM_ (checkFile True "haddock-interfaces") (haddockInterfaces pkg) mapM_ (checkDirURL True "haddock-html") (haddockHTMLs pkg) checkDuplicateModules pkg checkExposedModules db_stack pkg checkOtherModules pkg let has_code = Set.null (openModuleSubstFreeHoles (Map.fromList (instantiatedWith pkg))) when has_code $ mapM_ (checkHSLib verbosity (libraryDirs pkg ++ libraryDynDirs pkg)) (hsLibraries pkg) -- ToDo: check these somehow? -- extra_libraries :: [String], -- c_includes :: [String], -- When the package name and version are put together, sometimes we can -- end up with a package id that cannot be parsed. This will lead to -- difficulties when the user wants to refer to the package later, so -- we check that the package id can be parsed properly here. checkPackageId :: InstalledPackageInfo -> Validate () checkPackageId ipi = let str = display (mungedId ipi) in case Cabal.eitherParsec str :: Either String MungedPackageId of Left e -> verror CannotForce ("invalid package identifier: '" ++ str ++ "': " ++ e) Right _ -> pure () checkUnitId :: InstalledPackageInfo -> PackageDBStack -> Bool -> Validate () checkUnitId ipi db_stack update = do let uid = installedUnitId ipi when (null (display uid)) $ verror CannotForce "missing id field" when (display uid /= compatPackageKey ipi) $ verror CannotForce $ "installed package info from too old version of Cabal " ++ "(key field does not match id field)" let dups = [ p | p <- allPackagesInStack db_stack, installedUnitId p == uid ] when (not update && not (null dups)) $ verror CannotForce $ "package(s) with this id already exist: " ++ unwords (map (display.installedUnitId) dups) checkDuplicates :: PackageDBStack -> InstalledPackageInfo -> Bool -> Bool-> Validate () checkDuplicates db_stack pkg multi_instance update = do let pkgid = mungedId pkg pkgs = packages (head db_stack) -- -- Check whether this package id already exists in this DB -- when (not update && not multi_instance && (pkgid `elem` map mungedId pkgs)) $ verror CannotForce $ "package " ++ display pkgid ++ " is already installed" let uncasep = map toLower . display dups = filter ((== uncasep pkgid) . uncasep) (map mungedId pkgs) when (not update && not multi_instance && not (null dups)) $ verror ForceAll $ "Package names may be treated case-insensitively in the future.\n"++ "Package " ++ display pkgid ++ " overlaps with: " ++ unwords (map display dups) checkDir, checkFile, checkDirURL :: Bool -> String -> FilePath -> Validate () checkDir = checkPath False True checkFile = checkPath False False checkDirURL = checkPath True True checkPath :: Bool -> Bool -> Bool -> String -> FilePath -> Validate () checkPath url_ok is_dir warn_only thisfield d | url_ok && ("http://" `isPrefixOf` d || "https://" `isPrefixOf` d) = return () | url_ok , Just d' <- stripPrefix "file://" d = checkPath False is_dir warn_only thisfield d' -- Note: we don't check for $topdir/${pkgroot} here. We rely on these -- variables having been expanded already, see mungePackagePaths. | isRelative d = verror ForceFiles $ thisfield ++ ": " ++ d ++ " is a relative path which " ++ "makes no sense (as there is nothing for it to be " ++ "relative to). You can make paths relative to the " ++ "package database itself by using ${pkgroot}." -- relative paths don't make any sense; #4134 | otherwise = do there <- liftIO $ if is_dir then doesDirectoryExist d else doesFileExist d when (not there) $ let msg = thisfield ++ ": " ++ d ++ " doesn't exist or isn't a " ++ if is_dir then "directory" else "file" in if warn_only then vwarn msg else verror ForceFiles msg checkDep :: PackageDBStack -> UnitId -> Validate () checkDep db_stack pkgid | pkgid `elem` pkgids = return () | otherwise = verror ForceAll ("dependency \"" ++ display pkgid ++ "\" doesn't exist") where all_pkgs = allPackagesInStack db_stack pkgids = map installedUnitId all_pkgs checkDuplicateDepends :: [UnitId] -> Validate () checkDuplicateDepends deps | null dups = return () | otherwise = verror ForceAll ("package has duplicate dependencies: " ++ unwords (map display dups)) where dups = [ p | (p:_:_) <- group (sort deps) ] checkHSLib :: Verbosity -> [String] -> String -> Validate () checkHSLib _verbosity dirs lib = do let filenames = ["lib" ++ lib ++ ".a", "lib" ++ lib ++ "_p.a", "lib" ++ lib ++ "-ghc" ++ GHC.Version.cProjectVersion ++ ".so", "lib" ++ lib ++ "-ghc" ++ GHC.Version.cProjectVersion ++ ".dylib", lib ++ "-ghc" ++ GHC.Version.cProjectVersion ++ ".dll"] b <- liftIO $ doesFileExistOnPath filenames dirs when (not b) $ verror ForceFiles ("cannot find any of " ++ show filenames ++ " on library path") doesFileExistOnPath :: [FilePath] -> [FilePath] -> IO Bool doesFileExistOnPath filenames paths = anyM doesFileExist fullFilenames where fullFilenames = [ path filename | filename <- filenames , path <- paths ] -- | Perform validation checks (module file existence checks) on the -- @hidden-modules@ field. checkOtherModules :: InstalledPackageInfo -> Validate () checkOtherModules pkg = mapM_ (checkModuleFile pkg) (hiddenModules pkg) -- | Perform validation checks (module file existence checks and module -- reexport checks) on the @exposed-modules@ field. checkExposedModules :: PackageDBStack -> InstalledPackageInfo -> Validate () checkExposedModules db_stack pkg = mapM_ checkExposedModule (exposedModules pkg) where checkExposedModule (ExposedModule modl reexport) = do let checkOriginal = checkModuleFile pkg modl checkReexport = checkModule "module reexport" db_stack pkg maybe checkOriginal checkReexport reexport -- | Validates the existence of an appropriate @hi@ file associated with -- a module. Used for both @hidden-modules@ and @exposed-modules@ which -- are not reexports. checkModuleFile :: InstalledPackageInfo -> ModuleName -> Validate () checkModuleFile pkg modl = -- there's no interface file for GHC.Prim unless (modl == ModuleName.fromString "GHC.Prim") $ do let files = [ ModuleName.toFilePath modl <.> extension | extension <- ["hi", "p_hi", "dyn_hi" ] ] b <- liftIO $ doesFileExistOnPath files (importDirs pkg) when (not b) $ verror ForceFiles ("cannot find any of " ++ show files) -- | Validates that @exposed-modules@ and @hidden-modules@ do not have duplicate -- entries. -- ToDo: this needs updating for signatures: signatures can validly show up -- multiple times in the @exposed-modules@ list as long as their backing -- implementations agree. checkDuplicateModules :: InstalledPackageInfo -> Validate () checkDuplicateModules pkg | null dups = return () | otherwise = verror ForceAll ("package has duplicate modules: " ++ unwords (map display dups)) where dups = [ m | (m:_:_) <- group (sort mods) ] mods = map exposedName (exposedModules pkg) ++ hiddenModules pkg -- | Validates an original module entry, either the origin of a module reexport -- or the backing implementation of a signature, by checking that it exists, -- really is an original definition, and is accessible from the dependencies of -- the package. -- ToDo: If the original module in question is a backing signature -- implementation, then we should also check that the original module in -- question is NOT a signature (however, if it is a reexport, then it's fine -- for the original module to be a signature.) checkModule :: String -> PackageDBStack -> InstalledPackageInfo -> OpenModule -> Validate () checkModule _ _ _ (OpenModuleVar _) = error "Impermissible reexport" checkModule field_name db_stack pkg (OpenModule (DefiniteUnitId def_uid) definingModule) = let definingPkgId = unDefUnitId def_uid mpkg = if definingPkgId == installedUnitId pkg then Just pkg else PackageIndex.lookupUnitId ipix definingPkgId in case mpkg of Nothing -> verror ForceAll (field_name ++ " refers to a non-existent " ++ "defining package: " ++ display definingPkgId) Just definingPkg | not (isIndirectDependency definingPkgId) -> verror ForceAll (field_name ++ " refers to a defining " ++ "package that is not a direct (or indirect) " ++ "dependency of this package: " ++ display definingPkgId) | otherwise -> case find ((==definingModule).exposedName) (exposedModules definingPkg) of Nothing -> verror ForceAll (field_name ++ " refers to a module " ++ display definingModule ++ " " ++ "that is not exposed in the " ++ "defining package " ++ display definingPkgId) Just (ExposedModule {exposedReexport = Just _} ) -> verror ForceAll (field_name ++ " refers to a module " ++ display definingModule ++ " " ++ "that is reexported but not defined in the " ++ "defining package " ++ display definingPkgId) _ -> return () where all_pkgs = allPackagesInStack db_stack ipix = PackageIndex.fromList all_pkgs isIndirectDependency pkgid = fromMaybe False $ do thispkg <- graphVertex (installedUnitId pkg) otherpkg <- graphVertex pkgid return (Graph.path depgraph thispkg otherpkg) (depgraph, _, graphVertex) = PackageIndex.dependencyGraph (PackageIndex.insert pkg ipix) checkModule _ _ _ (OpenModule (IndefFullUnitId _ _) _) = -- TODO: add some checks here return () -- --------------------------------------------------------------------------- -- expanding environment variables in the package configuration expandEnvVars :: String -> Force -> IO String expandEnvVars str0 force = go str0 "" where go "" acc = return $! reverse acc go ('$':'{':str) acc | (var, '}':rest) <- break close str = do value <- lookupEnvVar var go rest (reverse value ++ acc) where close c = c == '}' || c == '\n' -- don't span newlines go (c:str) acc = go str (c:acc) lookupEnvVar :: String -> IO String lookupEnvVar "pkgroot" = return "${pkgroot}" -- these two are special, lookupEnvVar "pkgrooturl" = return "${pkgrooturl}" -- we don't expand them lookupEnvVar nm = catchIO (System.Environment.getEnv nm) (\ _ -> do dieOrForceAll force ("Unable to expand variable " ++ show nm) return "") ----------------------------------------------------------------------------- getProgramName :: IO String getProgramName = liftM (`withoutSuffix` ".bin") getProgName where str `withoutSuffix` suff | suff `isSuffixOf` str = take (length str - length suff) str | otherwise = str bye :: String -> IO a bye s = putStr s >> exitWith ExitSuccess die :: String -> IO a die = dieWith 1 dieWith :: Int -> String -> IO a dieWith ec s = do prog <- getProgramName reportError (prog ++ ": " ++ s) exitWith (ExitFailure ec) dieOrForceAll :: Force -> String -> IO () dieOrForceAll ForceAll s = ignoreError s dieOrForceAll _other s = dieForcible s warn :: String -> IO () warn = reportError -- send info messages to stdout infoLn :: String -> IO () infoLn = putStrLn info :: String -> IO () info = putStr ignoreError :: String -> IO () ignoreError s = reportError (s ++ " (ignoring)") reportError :: String -> IO () reportError s = do hFlush stdout; hPutStrLn stderr s dieForcible :: String -> IO () dieForcible s = die (s ++ " (use --force to override)") ----------------------------------------- -- Adapted from ghc/compiler/utils/Panic installSignalHandlers :: IO () installSignalHandlers = do threadid <- myThreadId let interrupt = Exception.throwTo threadid (Exception.ErrorCall "interrupted") -- #if !defined(mingw32_HOST_OS) _ <- installHandler sigQUIT (Catch interrupt) Nothing _ <- installHandler sigINT (Catch interrupt) Nothing return () #else -- GHC 6.3+ has support for console events on Windows -- NOTE: running GHCi under a bash shell for some reason requires -- you to press Ctrl-Break rather than Ctrl-C to provoke -- an interrupt. Ctrl-C is getting blocked somewhere, I don't know -- why --SDM 17/12/2004 let sig_handler ControlC = interrupt sig_handler Break = interrupt sig_handler _ = return () _ <- installHandler (Catch sig_handler) return () #endif catchIO :: IO a -> (Exception.IOException -> IO a) -> IO a catchIO = Exception.catch tryIO :: IO a -> IO (Either Exception.IOException a) tryIO = Exception.try -- removeFileSave doesn't throw an exceptions, if the file is already deleted removeFileSafe :: FilePath -> IO () removeFileSafe fn = removeFile fn `catchIO` \ e -> when (not $ isDoesNotExistError e) $ ioError e -- | Turn a path relative to the current directory into a (normalised) -- absolute path. absolutePath :: FilePath -> IO FilePath absolutePath path = return . normalise . ( path) =<< getCurrentDirectory