-- ghc-mod: Making Haskell development *more* fun -- Copyright (C) 2015 Daniel Gröber -- -- This program is free software: you can redistribute it and/or modify -- it under the terms of the GNU Affero General Public License as published by -- the Free Software Foundation, either version 3 of the License, or -- (at your option) any later version. -- -- This program is distributed in the hope that it will be useful, -- but WITHOUT ANY WARRANTY; without even the implied warranty of -- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the -- GNU Affero General Public License for more details. -- -- You should have received a copy of the GNU Affero General Public License -- along with this program. If not, see . {-# LANGUAGE CPP, FlexibleContexts, ConstraintKinds #-} {-# LANGUAGE GeneralizedNewtypeDeriving, DeriveDataTypeable, DeriveGeneric #-} module Distribution.Helper ( Programs(..) -- * Running Queries , Query , runQuery , runQuery' , runQuery'' -- * Queries against Cabal\'s on disk state , packageDbStack , entrypoints , sourceDirs , ghcOptions , ghcSrcOptions , ghcPkgOptions , ghcMergedPkgOptions , ghcLangOptions -- * Result types , ChModuleName(..) , ChComponentName(..) , ChPkgDb(..) , ChEntrypoint(..) -- * General information , buildPlatform -- * Stuff that cabal-install really should export , Distribution.Helper.getSandboxPkgDb -- * Managing @dist/@ , prepare , reconfigure , writeAutogenFiles -- * $libexec related error handling , LibexecNotFoundError(..) , libexecNotFoundError ) where import Control.Applicative import Control.Monad import Control.Monad.IO.Class import Control.Monad.State.Strict import Control.Monad.Reader import Control.Exception as E import Data.Char import Data.List import Data.Default import Data.Version import Data.Typeable import Distribution.Simple.BuildPaths (exeExtension) import System.Environment import System.FilePath import System.Directory import System.Process import System.IO.Unsafe import Text.Printf import GHC.Generics import Prelude import Paths_cabal_helper (getLibexecDir) import CabalHelper.Types import CabalHelper.Sandbox -- | Paths or names of various programs we need. data Programs = Programs { cabalProgram :: FilePath, ghcProgram :: FilePath, ghcPkgProgram :: FilePath } deriving (Eq, Ord, Show, Read, Generic, Typeable) instance Default Programs where def = Programs "cabal" "ghc" "ghc-pkg" data SomeLocalBuildInfo = SomeLocalBuildInfo { slbiPackageDbStack :: [ChPkgDb], slbiEntrypoints :: [(ChComponentName, ChEntrypoint)], slbiSourceDirs :: [(ChComponentName, [String])], slbiGhcOptions :: [(ChComponentName, [String])], slbiGhcSrcOptions :: [(ChComponentName, [String])], slbiGhcPkgOptions :: [(ChComponentName, [String])], slbiGhcMergedPkgOptions :: [String], slbiGhcLangOptions :: [(ChComponentName, [String])] } deriving (Eq, Ord, Read, Show) -- | Caches helper executable result so it doesn't have to be run more than once -- as reading in Cabal's @LocalBuildInfo@ datatype from disk is very slow but -- running all possible queries against it at once is cheap. newtype Query m a = Query { unQuery :: StateT (Maybe SomeLocalBuildInfo) (ReaderT QueryEnv m) a } deriving (Functor, Applicative, Monad, MonadIO) data QueryEnv = QueryEnv { _qeReadProcess :: FilePath -> [String] -> String -> IO String, _qeProgs :: Programs, _qeProjectDir :: FilePath, _qeDistDir :: FilePath } type MonadQuery m = ( MonadIO m , MonadState (Maybe SomeLocalBuildInfo) m , MonadReader QueryEnv m) run :: Monad m => QueryEnv -> Maybe SomeLocalBuildInfo -> Query m a -> m a run e s action = flip runReaderT e (flip evalStateT s (unQuery action)) -- | @runQuery query distdir@. Run a 'Query'. @distdir@ is where Cabal's -- @setup-config@ file is located. runQuery :: Monad m => FilePath -- ^ Path to project directory, i.e. the one containing the -- @project.cabal@ file -> FilePath -- ^ Path to @dist/@ -> Query m a -> m a runQuery pd dd action = run (QueryEnv readProcess def pd dd) Nothing action runQuery' :: Monad m => Programs -> FilePath -- ^ Path to project directory, i.e. the one containing the -- @project.cabal@ file -> FilePath -- ^ Path to @dist/@ -> Query m a -> m a runQuery' progs pd dd action = run (QueryEnv readProcess progs pd dd) Nothing action runQuery'' :: Monad m => (FilePath -> [String] -> String -> IO String) -- ^ How to start the cabal-helper process. Useful if you need to -- capture stderr output from the helper. -> Programs -> FilePath -- ^ Path to project directory, i.e. the one containing the -- @project.cabal@ file -> FilePath -- ^ Path to @dist/@ -> Query m a -> m a runQuery'' readProc progs pd dd action = run (QueryEnv readProc progs pd dd) Nothing action getSlbi :: MonadQuery m => m SomeLocalBuildInfo getSlbi = do s <- get case s of Nothing -> do slbi <- getSomeConfigState put (Just slbi) return slbi Just slbi -> return slbi -- | List of package databases to use. packageDbStack :: MonadIO m => Query m [ChPkgDb] -- | Modules or files Cabal would have the compiler build directly. Can be used -- to compute the home module closure for a component. entrypoints :: MonadIO m => Query m [(ChComponentName, ChEntrypoint)] -- | A component's @source-dirs@ field, beware as if this is empty implicit -- behaviour in GHC kicks in. sourceDirs :: MonadIO m => Query m [(ChComponentName, [FilePath])] -- | All options cabal would pass to GHC. ghcOptions :: MonadIO m => Query m [(ChComponentName, [String])] -- | Only search path related GHC options. ghcSrcOptions :: MonadIO m => Query m [(ChComponentName, [String])] -- | Only package related GHC options, sufficient for things don't need to -- access any home modules. ghcPkgOptions :: MonadIO m => Query m [(ChComponentName, [String])] -- | Like @ghcPkgOptions@ but for the whole package not just one component ghcMergedPkgOptions :: MonadIO m => Query m [String] -- | Only language related options, i.e. @-XSomeExtension@ ghcLangOptions :: MonadIO m => Query m [(ChComponentName, [String])] packageDbStack = Query $ slbiPackageDbStack `liftM` getSlbi entrypoints = Query $ slbiEntrypoints `liftM` getSlbi sourceDirs = Query $ slbiSourceDirs `liftM` getSlbi ghcOptions = Query $ slbiGhcOptions `liftM` getSlbi ghcSrcOptions = Query $ slbiGhcSrcOptions `liftM` getSlbi ghcPkgOptions = Query $ slbiGhcPkgOptions `liftM` getSlbi ghcMergedPkgOptions = Query $ slbiGhcMergedPkgOptions `liftM` getSlbi ghcLangOptions = Query $ slbiGhcLangOptions `liftM` getSlbi -- | Run @cabal configure@ reconfigure :: MonadIO m => (FilePath -> [String] -> String -> IO String) -> Programs -- ^ Program paths -> [String] -- ^ Command line arguments to be passed to @cabal@ -> m () reconfigure readProc progs cabalOpts = do let progOpts = [ "--with-ghc=" ++ ghcProgram progs ] -- Only pass ghc-pkg if it was actually set otherwise we -- might break cabal's guessing logic ++ if ghcPkgProgram progs /= ghcPkgProgram def then [ "--with-ghc-pkg=" ++ ghcPkgProgram progs ] else [] ++ cabalOpts _ <- liftIO $ readProc (cabalProgram progs) ("configure":progOpts) "" return () getSomeConfigState :: MonadQuery m => m SomeLocalBuildInfo getSomeConfigState = ask >>= \(QueryEnv readProc progs projdir distdir) -> do let progArgs = [ "--with-ghc=" ++ ghcProgram progs , "--with-ghc-pkg=" ++ ghcPkgProgram progs , "--with-cabal=" ++ cabalProgram progs ] let args = [ "package-db-stack" , "entrypoints" , "source-dirs" , "ghc-options" , "ghc-src-options" , "ghc-pkg-options" , "ghc-merged-pkg-options" , "ghc-lang-options" ] ++ progArgs res <- liftIO $ do exe <- findLibexecExe "cabal-helper-wrapper" out <- readProc exe (projdir:distdir:args) "" evaluate (read out) `E.catch` \(SomeException _) -> error $ concat ["getSomeConfigState", ": ", exe, " " , intercalate " " (map show $ distdir:args) , " (read failed)"] let [ Just (ChResponsePkgDbs pkgDbs), Just (ChResponseEntrypoints eps), Just (ChResponseCompList srcDirs), Just (ChResponseCompList ghcOpts), Just (ChResponseCompList ghcSrcOpts), Just (ChResponseCompList ghcPkgOpts), Just (ChResponseList ghcMergedPkgOpts), Just (ChResponseCompList ghcLangOpts) ] = res return $ SomeLocalBuildInfo pkgDbs eps srcDirs ghcOpts ghcSrcOpts ghcPkgOpts ghcMergedPkgOpts ghcLangOpts -- | Make sure the appropriate helper executable for the given project is -- installed and ready to run queries. prepare :: MonadIO m => (FilePath -> [String] -> String -> IO String) -> FilePath -- ^ Path to project directory, i.e. the one containing the -- @project.cabal@ file -> FilePath -- ^ Path to the @dist/@ directory -> m () prepare readProc projdir distdir = liftIO $ do exe <- findLibexecExe "cabal-helper-wrapper" void $ readProc exe [projdir, distdir] "" -- | Create @cabal_macros.h@ and @Paths_\@ possibly other generated files -- in the usual place. writeAutogenFiles :: MonadIO m => (FilePath -> [String] -> String -> IO String) -> FilePath -- ^ Path to project directory, i.e. the one containing the -- @project.cabal@ file -> FilePath -- ^ Path to the @dist/@ directory -> m () writeAutogenFiles readProc projdir distdir = liftIO $ do exe <- findLibexecExe "cabal-helper-wrapper" void $ readProc exe [projdir, distdir, "write-autogen-files"] "" -- | Get the path to the sandbox package-db in a project getSandboxPkgDb :: (FilePath -> [String] -> String -> IO String) -> FilePath -- ^ Cabal build platform, i.e. @buildPlatform@ -> Version -- ^ GHC version (@cProjectVersion@ is your friend) -> IO (Maybe FilePath) getSandboxPkgDb readProc = CabalHelper.Sandbox.getSandboxPkgDb $ unsafePerformIO $ buildPlatform readProc buildPlatform :: (FilePath -> [String] -> String -> IO String) -> IO String buildPlatform readProc = do exe <- findLibexecExe "cabal-helper-wrapper" CabalHelper.Sandbox.dropWhileEnd isSpace <$> readProc exe ["print-build-platform"] "" -- | This exception is thrown by all 'runQuery' functions if the internal -- wrapper executable cannot be found. You may catch this and present the user -- an appropriate error message however the default is to print -- 'libexecNotFoundError'. data LibexecNotFoundError = LibexecNotFoundError String FilePath deriving (Typeable) instance Exception LibexecNotFoundError instance Show LibexecNotFoundError where show (LibexecNotFoundError exe dir) = libexecNotFoundError exe dir "https://github.com/DanielG/cabal-helper/issues" findLibexecExe :: String -> IO FilePath findLibexecExe "cabal-helper-wrapper" = do libexecdir <- getLibexecDir let exeName = "cabal-helper-wrapper" exe = libexecdir exeName <.> exeExtension exists <- doesFileExist exe if exists then return exe else do mdir <- tryFindCabalHelperTreeLibexecDir case mdir of Nothing -> error $ throw $ LibexecNotFoundError exeName libexecdir Just dir -> return $ dir "dist" "build" exeName exeName findLibexecExe exe = error $ "findLibexecExe: Unknown executable: " ++ exe tryFindCabalHelperTreeLibexecDir :: IO (Maybe FilePath) tryFindCabalHelperTreeLibexecDir = do exe <- getExecutablePath' dir <- case takeFileName exe of "ghc" -> do -- we're probably in ghci; try CWD getCurrentDirectory _ -> return $ (!!4) $ iterate takeDirectory exe exists <- doesFileExist $ dir "cabal-helper.cabal" return $ if exists then Just dir else Nothing libexecNotFoundError :: String -- ^ Name of the executable we were trying to -- find -> FilePath -- ^ Path to @$libexecdir@ -> String -- ^ URL the user will be directed towards to -- report a bug. -> String libexecNotFoundError exe dir reportBug = printf ( "Could not find $libexecdir/%s\n" ++"\n" ++"If you are a developer set the environment variable\n" ++"`cabal_helper_libexecdir' to override $libexecdir[1]. The following will\n" ++"work in the cabal-helper source tree:\n" ++"\n" ++" $ export cabal_helper_libexecdir=$PWD/dist/build/%s\n" ++"\n" ++"[1]: %s\n" ++"\n" ++"If you don't know what I'm talking about something went wrong with your\n" ++"installation. Please report this problem here:\n" ++"\n" ++" %s") exe exe dir reportBug getExecutablePath' :: IO FilePath getExecutablePath' = #if MIN_VERSION_base(4,6,0) getExecutablePath #else getProgName #endif