ghcup-hs/app/ghcup/GHCup/OptParse/Run.hs

464 lines
16 KiB
Haskell

{-# LANGUAGE CPP #-}
{-# LANGUAGE QuasiQuotes #-}
{-# LANGUAGE TypeApplications #-}
{-# LANGUAGE DataKinds #-}
{-# LANGUAGE RankNTypes #-}
{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE TypeFamilies #-}
module GHCup.OptParse.Run where
import GHCup
import GHCup.Utils
import GHCup.Utils.Prelude
import GHCup.Utils.File
import GHCup.OptParse.Common
import GHCup.Errors
import GHCup.Types
import GHCup.Types.Optics
import GHCup.Utils.Logger
import GHCup.Utils.String.QQ
import Control.Exception.Safe ( MonadMask, MonadCatch )
#if !MIN_VERSION_base(4,13,0)
import Control.Monad.Fail ( MonadFail )
#endif
import Codec.Archive
import Control.Monad.Reader
import Control.Monad.Trans.Resource
import Data.Functor
import Data.Maybe (isNothing)
import Data.List ( intercalate )
import Haskus.Utils.Variant.Excepts
import Options.Applicative hiding ( style )
import Prelude hiding ( appendFile )
import System.Directory
import System.FilePath
import System.Environment
import System.Exit
import Text.PrettyPrint.HughesPJClass ( prettyShow )
import qualified Data.Map.Strict as Map
import qualified Data.Text as T
#ifndef IS_WINDOWS
import qualified System.Posix.Process as SPP
#endif
---------------
--[ Options ]--
---------------
data RunOptions = RunOptions
{ runAppendPATH :: Bool
, runInstTool' :: Bool
, runGHCVer :: Maybe ToolVersion
, runCabalVer :: Maybe ToolVersion
, runHLSVer :: Maybe ToolVersion
, runStackVer :: Maybe ToolVersion
, runBinDir :: Maybe FilePath
, runCOMMAND :: [String]
}
---------------
--[ Parsers ]--
---------------
runOpts :: Parser RunOptions
runOpts =
RunOptions
<$> switch
(short 'a' <> long "append" <> help "Append bin/ dir to PATH instead of prepending (this means that e.g. a system installation may take precedence)")
<*> switch
(short 'i' <> long "install" <> help "Install the tool, if missing")
<*> optional
(option
(eitherReader toolVersionEither)
(metavar "GHC_VERSION" <> long "ghc" <> help "The ghc version"
<> completer (tagCompleter GHC [])
<> (completer $ versionCompleter Nothing GHC)
)
)
<*> optional
(option
(eitherReader toolVersionEither)
(metavar "CABAL_VERSION" <> long "cabal" <> help "The cabal version"
<> completer (tagCompleter Cabal [])
<> (completer $ versionCompleter Nothing Cabal)
)
)
<*> optional
(option
(eitherReader toolVersionEither)
(metavar "HLS_VERSION" <> long "hls" <> help "The HLS version"
<> completer (tagCompleter HLS [])
<> (completer $ versionCompleter Nothing HLS)
)
)
<*> optional
(option
(eitherReader toolVersionEither)
(metavar "STACK_VERSION" <> long "stack" <> help "The stack version"
<> completer (tagCompleter Stack [])
<> (completer $ versionCompleter Nothing Stack)
)
)
<*> optional
(option
(eitherReader isolateParser)
( short 'b'
<> long "bindir"
<> metavar "DIR"
<> help "directory where to create the tool symlinks (default: newly created system temp dir)"
<> completer (bashCompleter "directory")
)
)
<*> many (argument str (metavar "COMMAND" <> help "The command to run, with arguments (use longopts --). If omitted, just prints the created bin/ dir to stdout and exits."))
--------------
--[ Footer ]--
--------------
runFooter :: String
runFooter = [s|Discussion:
Adds the given tools to a dedicated bin/ directory and adds them to PATH, exposing
the relevant binaries, then executes a command.
Examples:
# run VSCode with all latest toolchain exposed, installing missing versions if necessary
ghcup run --ghc latest --cabal latest --hls latest --stack latest --install -- code Setup.hs
# create a custom toolchain bin/ dir with GHC and cabal that can be manually added to PATH
ghcup run --ghc 8.10.7 --cabal 3.2.0.0 --bindir $HOME/toolchain/bin
# run a specific ghc version
ghcup run --ghc 8.10.7 -- ghc --version|]
---------------------------
--[ Effect interpreters ]--
---------------------------
type RunEffects = '[ AlreadyInstalled
, UnknownArchive
, ArchiveResult
, FileDoesNotExistError
, CopyError
, NotInstalled
, DirNotEmpty
, NoDownload
, NotInstalled
, BuildFailed
, TagNotFound
, DigestError
, GPGError
, DownloadFailed
, TarDirDoesNotExist
, NextVerNotFound
, NoToolVersionSet
, FileAlreadyExistsError
, ProcessError
]
runLeanRUN :: (MonadUnliftIO m, MonadIO m)
=> LeanAppState
-> Excepts RunEffects (ReaderT LeanAppState m) a
-> m (VEither RunEffects a)
runLeanRUN leanAppstate =
-- Don't use runLeanAppState here, which is disabled on windows.
-- This is the only command on all platforms that doesn't need full appstate.
flip runReaderT leanAppstate
. runE
@RunEffects
runRUN :: MonadUnliftIO m
=> IO AppState
-> Excepts RunEffects (ResourceT (ReaderT AppState m)) a
-> m (VEither RunEffects a)
runRUN appState action' = do
s' <- liftIO appState
flip runReaderT s'
. runResourceT
. runE
@RunEffects
$ action'
------------------
--[ Entrypoint ]--
------------------
run :: forall m.
( MonadFail m
, MonadMask m
, MonadCatch m
, MonadIO m
, MonadUnliftIO m
)
=> RunOptions
-> IO AppState
-> LeanAppState
-> (ReaderT LeanAppState m () -> m ())
-> m ExitCode
run RunOptions{..} runAppState leanAppstate runLogger = do
r <- if or (fmap (maybe False isToolTag) [runGHCVer, runCabalVer, runHLSVer, runStackVer]) || runInstTool'
then runRUN runAppState $ do
toolchain <- liftE resolveToolchainFull
tmp <- case runBinDir of
Just bindir -> do
liftIO $ createDirRecursive' bindir
liftIO $ canonicalizePath bindir
Nothing -> do
d <- liftIO $ predictableTmpDir toolchain
liftIO $ createDirRecursive' d
liftIO $ canonicalizePath d
liftE $ installToolChainFull toolchain tmp
pure tmp
else runLeanRUN leanAppstate $ do
toolchain <- resolveToolchain
tmp <- case runBinDir of
Just bindir -> do
liftIO $ createDirRecursive' bindir
liftIO $ canonicalizePath bindir
Nothing -> do
d <- liftIO $ predictableTmpDir toolchain
liftIO $ createDirRecursive' d
liftIO $ canonicalizePath d
liftE $ installToolChain toolchain tmp
pure tmp
case r of
VRight tmp -> do
case runCOMMAND of
[] -> do
liftIO $ putStr tmp
pure ExitSuccess
(cmd:args) -> do
newEnv <- liftIO $ addToPath tmp
#ifndef IS_WINDOWS
void $ liftIO $ SPP.executeFile cmd True args (Just newEnv)
pure ExitSuccess
#else
r' <- runLeanRUN leanAppstate $ liftE $ lEM @_ @'[ProcessError] $ exec cmd args Nothing (Just newEnv)
case r' of
VRight _ -> pure ExitSuccess
VLeft e -> do
runLogger $ logError $ T.pack $ prettyShow e
pure $ ExitFailure 28
#endif
VLeft e -> do
runLogger $ logError $ T.pack $ prettyShow e
pure $ ExitFailure 27
where
isToolTag :: ToolVersion -> Bool
isToolTag (ToolTag _) = True
isToolTag _ = False
-- TODO: doesn't work for cross
resolveToolchainFull :: ( MonadFail m
, MonadThrow m
, MonadIO m
, MonadCatch m
)
=> Excepts
'[ TagNotFound
, NextVerNotFound
, NoToolVersionSet
] (ResourceT (ReaderT AppState m)) Toolchain
resolveToolchainFull = do
ghcVer <- forM runGHCVer $ \ver -> do
(v, _) <- liftE $ fromVersion (Just ver) GHC
pure v
cabalVer <- forM runCabalVer $ \ver -> do
(v, _) <- liftE $ fromVersion (Just ver) Cabal
pure v
hlsVer <- forM runHLSVer $ \ver -> do
(v, _) <- liftE $ fromVersion (Just ver) HLS
pure v
stackVer <- forM runStackVer $ \ver -> do
(v, _) <- liftE $ fromVersion (Just ver) Stack
pure v
pure Toolchain{..}
resolveToolchain = do
ghcVer <- case runGHCVer of
Just (ToolVersion v) -> pure $ Just v
Nothing -> pure Nothing
_ -> fail "Internal error"
cabalVer <- case runCabalVer of
Just (ToolVersion v) -> pure $ Just v
Nothing -> pure Nothing
_ -> fail "Internal error"
hlsVer <- case runHLSVer of
Just (ToolVersion v) -> pure $ Just v
Nothing -> pure Nothing
_ -> fail "Internal error"
stackVer <- case runStackVer of
Just (ToolVersion v) -> pure $ Just v
Nothing -> pure Nothing
_ -> fail "Internal error"
pure Toolchain{..}
installToolChainFull :: ( MonadFail m
, MonadThrow m
, MonadIO m
, MonadCatch m
)
=> Toolchain
-> FilePath
-> Excepts
'[ TagNotFound
, NextVerNotFound
, NoToolVersionSet
, UnknownArchive
, TarDirDoesNotExist
, ProcessError
, NotInstalled
, NoDownload
, GPGError
, DownloadFailed
, DirNotEmpty
, DigestError
, BuildFailed
, ArchiveResult
, AlreadyInstalled
, FileAlreadyExistsError
, CopyError
] (ResourceT (ReaderT AppState m)) ()
installToolChainFull Toolchain{..} tmp = do
forM_ [(GHC,) <$> ghcVer, (Cabal,) <$> cabalVer, (HLS,) <$> hlsVer, (Stack,) <$> stackVer] $ \mt -> do
isInstalled <- maybe (pure False) (\(tool, v) -> lift $ checkIfToolInstalled' tool v) mt
case mt of
Just (GHC, v) -> do
unless isInstalled $ when (runInstTool' && isNothing (_tvTarget v)) $ void $ liftE $ installGHCBin
(_tvVersion v)
Nothing
False
setTool GHC v tmp
Just (Cabal, v) -> do
unless isInstalled $ when runInstTool' $ void $ liftE $ installCabalBin
(_tvVersion v)
Nothing
False
setTool Cabal v tmp
Just (Stack, v) -> do
unless isInstalled $ when runInstTool' $ void $ liftE $ installStackBin
(_tvVersion v)
Nothing
False
setTool Stack v tmp
Just (HLS, v) -> do
unless isInstalled $ when runInstTool' $ void $ liftE $ installHLSBin
(_tvVersion v)
Nothing
False
setTool HLS v tmp
_ -> pure ()
installToolChain :: ( MonadFail m
, MonadThrow m
, MonadIO m
, MonadCatch m
)
=> Toolchain
-> FilePath
-> Excepts '[NotInstalled] (ReaderT LeanAppState m) ()
installToolChain Toolchain{..} tmp = do
forM_ [(GHC,) <$> ghcVer, (Cabal,) <$> cabalVer, (HLS,) <$> hlsVer, (Stack,) <$> stackVer] $ \mt -> do
case mt of
Just (GHC, v) -> setTool GHC v tmp
Just (Cabal, v) -> setTool Cabal v tmp
Just (Stack, v) -> setTool Stack v tmp
Just (HLS, v) -> setTool HLS v tmp
_ -> pure ()
setTool tool v tmp =
case tool of
GHC -> do
void $ liftE $ setGHC v SetGHC_XYZ (Just tmp)
void $ liftE $ setGHC v SetGHCOnly (Just tmp)
Cabal -> do
bin <- liftE $ whereIsTool Cabal v
cbin <- liftIO $ canonicalizePath bin
lift $ createLink (relativeSymlink tmp cbin) (tmp </> ("cabal" <.> exeExt))
Stack -> do
bin <- liftE $ whereIsTool Stack v
cbin <- liftIO $ canonicalizePath bin
lift $ createLink (relativeSymlink tmp cbin) (tmp </> ("stack" <.> exeExt))
HLS -> do
Dirs {..} <- getDirs
let v' = _tvVersion v
legacy <- isLegacyHLS v'
if legacy
then do
-- TODO: factor this out
hlsWrapper <- liftE @_ @'[NotInstalled] $ hlsWrapperBinary v' !? (NotInstalled HLS (mkTVer v'))
cw <- liftIO $ canonicalizePath (binDir </> hlsWrapper)
lift $ createLink (relativeSymlink tmp cw) (tmp </> takeFileName cw)
hlsBins <- hlsServerBinaries v' Nothing >>= liftIO . traverse (canonicalizePath . (binDir </>))
forM_ hlsBins $ \bin ->
lift $ createLink (relativeSymlink tmp bin) (tmp </> takeFileName bin)
liftE $ setHLS (_tvVersion v) SetHLSOnly (Just tmp)
else do
liftE $ setHLS (_tvVersion v) SetHLS_XYZ (Just tmp)
liftE $ setHLS (_tvVersion v) SetHLSOnly (Just tmp)
GHCup -> pure ()
addToPath path = do
cEnv <- Map.fromList <$> getEnvironment
let paths = ["PATH", "Path"]
curPaths = (\x -> maybe [] splitSearchPath (Map.lookup x cEnv)) =<< paths
newPath = intercalate [searchPathSeparator] (if runAppendPATH then (curPaths ++ [path]) else (path : curPaths))
envWithoutPath = foldr (\x y -> Map.delete x y) cEnv paths
pathVar = if isWindows then "Path" else "PATH"
envWithNewPath = Map.toList $ Map.insert pathVar newPath envWithoutPath
liftIO $ setEnv pathVar newPath
return envWithNewPath
predictableTmpDir (Toolchain Nothing Nothing Nothing Nothing) =
liftIO (getTemporaryDirectory >>= \tmp -> pure (tmp </> "ghcup-none"))
predictableTmpDir Toolchain{..} = do
tmp <- getTemporaryDirectory
pure $ tmp
</> ("ghcup-" <> intercalate "_"
( maybe [] ( (:[]) . ("ghc-" <>) . T.unpack . tVerToText) ghcVer
<> maybe [] ( (:[]) . ("cabal-" <>) . T.unpack . tVerToText) cabalVer
<> maybe [] ( (:[]) . ("hls-" <>) . T.unpack . tVerToText) hlsVer
<> maybe [] ( (:[]) . ("stack-" <>) . T.unpack . tVerToText) stackVer
)
)
-------------------------
--[ Other local types ]--
-------------------------
data Toolchain = Toolchain
{ ghcVer :: Maybe GHCTargetVersion
, cabalVer :: Maybe GHCTargetVersion
, hlsVer :: Maybe GHCTargetVersion
, stackVer :: Maybe GHCTargetVersion
}