1072 lines
36 KiB
Haskell
1072 lines
36 KiB
Haskell
{-# LANGUAGE CPP #-}
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{-# LANGUAGE DataKinds #-}
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{-# LANGUAGE FlexibleContexts #-}
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{-# LANGUAGE OverloadedStrings #-}
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{-# LANGUAGE QuasiQuotes #-}
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{-# LANGUAGE TemplateHaskell #-}
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{-# LANGUAGE TypeApplications #-}
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{-# LANGUAGE ViewPatterns #-}
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{-|
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Module : GHCup.Utils
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Description : GHCup domain specific utilities
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Copyright : (c) Julian Ospald, 2020
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License : LGPL-3.0
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Maintainer : hasufell@hasufell.de
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Stability : experimental
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Portability : portable
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This module contains GHCup helpers specific to
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installation and introspection of files/versions etc.
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-}
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module GHCup.Utils
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( module GHCup.Utils.Dirs
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, module GHCup.Utils
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)
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where
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#if defined(IS_WINDOWS)
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import GHCup.Download
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#endif
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import GHCup.Errors
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import GHCup.Types
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import GHCup.Types.Optics
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import GHCup.Types.JSON ( )
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import GHCup.Utils.Dirs
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import GHCup.Utils.File
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import GHCup.Utils.MegaParsec
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import GHCup.Utils.Prelude
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import GHCup.Utils.String.QQ
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import Codec.Archive hiding ( Directory )
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import Control.Applicative
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import Control.Exception.Safe
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import Control.Monad
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#if !MIN_VERSION_base(4,13,0)
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import Control.Monad.Fail ( MonadFail )
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#endif
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import Control.Monad.Logger
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import Control.Monad.Reader
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import Control.Monad.Trans.Resource
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hiding ( throwM )
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import Control.Monad.IO.Unlift ( MonadUnliftIO( withRunInIO ) )
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#if defined(IS_WINDOWS)
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import Data.Bits
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#endif
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import Data.ByteString ( ByteString )
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import Data.Either
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import Data.Foldable
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import Data.List
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import Data.List.NonEmpty ( NonEmpty( (:|) ))
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import Data.Maybe
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import Data.Text ( Text )
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import Data.Versions
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import GHC.IO.Exception
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import Haskus.Utils.Variant.Excepts
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import Optics
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import Safe
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import System.Directory hiding ( findFiles )
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import System.FilePath
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import System.IO.Error
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#if defined(IS_WINDOWS)
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import System.Win32.Console
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import System.Win32.File hiding ( copyFile )
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import System.Win32.Types
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#endif
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import Text.PrettyPrint.HughesPJClass hiding ( (<>) )
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import Text.Regex.Posix
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import URI.ByteString
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import qualified Codec.Compression.BZip as BZip
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import qualified Codec.Compression.GZip as GZip
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import qualified Codec.Compression.Lzma as Lzma
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import qualified Data.ByteString.Lazy as BL
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import qualified Data.Map.Strict as Map
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import qualified Data.Text as T
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import qualified Data.Text.Encoding as E
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import qualified Text.Megaparsec as MP
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------------------------
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--[ Symlink handling ]--
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------------------------
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-- | The symlink destination of a ghc tool.
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ghcLinkDestination :: ( MonadReader env m
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, HasDirs env
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, MonadThrow m, MonadIO m)
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=> FilePath -- ^ the tool, such as 'ghc', 'haddock' etc.
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-> GHCTargetVersion
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-> m FilePath
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ghcLinkDestination tool ver = do
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Dirs {..} <- getDirs
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ghcd <- ghcupGHCDir ver
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pure (relativeSymlink binDir (ghcd </> "bin" </> tool))
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-- | Removes the minor GHC symlinks, e.g. ghc-8.6.5.
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rmMinorSymlinks :: ( MonadReader env m
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, HasDirs env
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, MonadIO m
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, MonadLogger m
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, MonadThrow m
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, MonadFail m
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, MonadMask m
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)
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=> GHCTargetVersion
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-> Excepts '[NotInstalled] m ()
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rmMinorSymlinks tv@GHCTargetVersion{..} = do
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Dirs {..} <- lift getDirs
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files <- liftE $ ghcToolFiles tv
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forM_ files $ \f -> do
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let f_xyz = f <> "-" <> T.unpack (prettyVer _tvVersion) <> exeExt
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let fullF = binDir </> f_xyz
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lift $ $(logDebug) ("rm -f " <> T.pack fullF)
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lift $ hideError doesNotExistErrorType $ rmLink fullF
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-- | Removes the set ghc version for the given target, if any.
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rmPlain :: ( MonadReader env m
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, HasDirs env
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, MonadLogger m
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, MonadThrow m
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, MonadFail m
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, MonadIO m
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, MonadMask m
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)
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=> Maybe Text -- ^ target
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-> Excepts '[NotInstalled] m ()
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rmPlain target = do
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Dirs {..} <- lift getDirs
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mtv <- lift $ ghcSet target
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forM_ mtv $ \tv -> do
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files <- liftE $ ghcToolFiles tv
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forM_ files $ \f -> do
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let fullF = binDir </> f <> exeExt
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lift $ $(logDebug) ("rm -f " <> T.pack fullF)
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lift $ hideError doesNotExistErrorType $ rmLink fullF
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-- old ghcup
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let hdc_file = binDir </> "haddock-ghc" <> exeExt
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lift $ $(logDebug) ("rm -f " <> T.pack hdc_file)
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lift $ hideError doesNotExistErrorType $ rmLink hdc_file
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-- | Remove the major GHC symlink, e.g. ghc-8.6.
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rmMajorSymlinks :: ( MonadReader env m
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, HasDirs env
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, MonadIO m
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, MonadLogger m
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, MonadThrow m
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, MonadFail m
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, MonadMask m
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)
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=> GHCTargetVersion
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-> Excepts '[NotInstalled] m ()
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rmMajorSymlinks tv@GHCTargetVersion{..} = do
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Dirs {..} <- lift getDirs
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(mj, mi) <- getMajorMinorV _tvVersion
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let v' = intToText mj <> "." <> intToText mi
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files <- liftE $ ghcToolFiles tv
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forM_ files $ \f -> do
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let f_xy = f <> "-" <> T.unpack v' <> exeExt
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let fullF = binDir </> f_xy
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lift $ $(logDebug) "rm -f #{fullF}"
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lift $ hideError doesNotExistErrorType $ rmLink fullF
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-----------------------------------
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--[ Set/Installed introspection ]--
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-----------------------------------
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-- | Whether the given GHC versin is installed.
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ghcInstalled :: (MonadIO m, MonadReader env m, HasDirs env, MonadThrow m) => GHCTargetVersion -> m Bool
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ghcInstalled ver = do
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ghcdir <- ghcupGHCDir ver
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liftIO $ doesDirectoryExist ghcdir
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-- | Whether the given GHC version is installed from source.
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ghcSrcInstalled :: (MonadIO m, MonadReader env m, HasDirs env, MonadThrow m) => GHCTargetVersion -> m Bool
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ghcSrcInstalled ver = do
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ghcdir <- ghcupGHCDir ver
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liftIO $ doesFileExist (ghcdir </> ghcUpSrcBuiltFile)
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-- | Whether the given GHC version is set as the current.
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ghcSet :: (MonadReader env m, HasDirs env, MonadThrow m, MonadIO m)
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=> Maybe Text -- ^ the target of the GHC version, if any
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-- (e.g. armv7-unknown-linux-gnueabihf)
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-> m (Maybe GHCTargetVersion)
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ghcSet mtarget = do
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Dirs {..} <- getDirs
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let ghc = maybe "ghc" (\t -> T.unpack t <> "-ghc") mtarget
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let ghcBin = binDir </> ghc <> exeExt
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-- link destination is of the form ../ghc/<ver>/bin/ghc
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-- for old ghcup, it is ../ghc/<ver>/bin/ghc-<ver>
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liftIO $ handleIO' NoSuchThing (\_ -> pure Nothing) $ do
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link <- liftIO $ getLinkTarget ghcBin
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Just <$> ghcLinkVersion link
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where
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ghcLinkVersion :: MonadThrow m => FilePath -> m GHCTargetVersion
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ghcLinkVersion (T.pack . dropSuffix exeExt -> t) = throwEither $ MP.parse parser "ghcLinkVersion" t
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where
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parser =
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(do
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_ <- parseUntil1 ghcSubPath
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_ <- ghcSubPath
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r <- parseUntil1 pathSep
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rest <- MP.getInput
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MP.setInput r
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x <- ghcTargetVerP
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MP.setInput rest
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pure x
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)
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<* pathSep
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<* MP.takeRest
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<* MP.eof
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ghcSubPath = pathSep <* MP.chunk "ghc" *> pathSep
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-- | Get all installed GHCs by reading ~/.ghcup/ghc/<dir>.
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-- If a dir cannot be parsed, returns left.
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getInstalledGHCs :: (MonadReader env m, HasDirs env, MonadIO m) => m [Either FilePath GHCTargetVersion]
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getInstalledGHCs = do
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ghcdir <- ghcupGHCBaseDir
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fs <- liftIO $ hideErrorDef [NoSuchThing] [] $ listDirectory ghcdir
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forM fs $ \f -> case parseGHCupGHCDir f of
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Right r -> pure $ Right r
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Left _ -> pure $ Left f
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-- | Get all installed cabals, by matching on @~\/.ghcup\/bin/cabal-*@.
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getInstalledCabals :: ( MonadLogger m
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, MonadReader env m
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, HasDirs env
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, MonadIO m
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, MonadCatch m
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)
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=> m [Either FilePath Version]
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getInstalledCabals = do
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Dirs {..} <- getDirs
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bins <- liftIO $ handleIO (\_ -> pure []) $ findFiles
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binDir
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(makeRegexOpts compExtended execBlank ([s|^cabal-.*$|] :: ByteString))
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vs <- forM bins $ \f -> case version . T.pack <$> (stripSuffix exeExt =<< stripPrefix "cabal-" f) of
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Just (Right r) -> pure $ Right r
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Just (Left _) -> pure $ Left f
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Nothing -> pure $ Left f
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pure $ nub vs
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-- | Whether the given cabal version is installed.
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cabalInstalled :: (MonadLogger m, MonadIO m, MonadReader env m, HasDirs env, MonadCatch m) => Version -> m Bool
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cabalInstalled ver = do
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vers <- fmap rights getInstalledCabals
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pure $ elem ver vers
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-- Return the currently set cabal version, if any.
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cabalSet :: (MonadLogger m, MonadReader env m, HasDirs env, MonadIO m, MonadThrow m, MonadCatch m) => m (Maybe Version)
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cabalSet = do
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Dirs {..} <- getDirs
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let cabalbin = binDir </> "cabal" <> exeExt
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handleIO' NoSuchThing (\_ -> pure Nothing) $ do
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broken <- liftIO $ isBrokenSymlink cabalbin
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if broken
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then pure Nothing
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else do
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link <- liftIO
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$ handleIO' InvalidArgument
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(\e -> pure $ Left (toException e))
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$ fmap Right $ getLinkTarget cabalbin
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case linkVersion =<< link of
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Right v -> pure $ Just v
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Left err -> do
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$(logWarn) $ "Failed to parse cabal symlink target with: "
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<> T.pack (displayException err)
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<> ". The symlink "
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<> T.pack cabalbin
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<> " needs to point to valid cabal binary, such as 'cabal-3.4.0.0'."
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pure Nothing
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where
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-- We try to be extra permissive with link destination parsing,
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-- because of:
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-- https://gitlab.haskell.org/haskell/ghcup-hs/-/issues/119
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linkVersion :: MonadThrow m => FilePath -> m Version
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linkVersion = throwEither . MP.parse parser "linkVersion" . T.pack . dropSuffix exeExt
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parser
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= MP.try (stripAbsolutePath *> cabalParse)
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<|> MP.try (stripRelativePath *> cabalParse)
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<|> cabalParse
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-- parses the version of "cabal-3.2.0.0" -> "3.2.0.0"
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cabalParse = MP.chunk "cabal-" *> version'
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-- parses any path component ending with path separator,
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-- e.g. "foo/"
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stripPathComponet = parseUntil1 pathSep *> pathSep
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-- parses an absolute path up until the last path separator,
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-- e.g. "/bar/baz/foo" -> "/bar/baz/", leaving "foo"
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stripAbsolutePath = pathSep *> MP.many (MP.try stripPathComponet)
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-- parses a relative path up until the last path separator,
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-- e.g. "bar/baz/foo" -> "bar/baz/", leaving "foo"
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stripRelativePath = MP.many (MP.try stripPathComponet)
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-- | Get all installed hls, by matching on
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-- @~\/.ghcup\/bin/haskell-language-server-wrapper-<\hlsver\>@.
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getInstalledHLSs :: (MonadReader env m, HasDirs env, MonadIO m, MonadCatch m)
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=> m [Either FilePath Version]
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getInstalledHLSs = do
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Dirs {..} <- getDirs
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bins <- liftIO $ handleIO (\_ -> pure []) $ findFiles
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binDir
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(makeRegexOpts compExtended
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execBlank
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([s|^haskell-language-server-wrapper-.*$|] :: ByteString)
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)
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forM bins $ \f ->
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case
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version . T.pack <$> (stripSuffix exeExt =<< stripPrefix "haskell-language-server-wrapper-" f)
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of
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Just (Right r) -> pure $ Right r
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Just (Left _) -> pure $ Left f
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Nothing -> pure $ Left f
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-- | Get all installed stacks, by matching on
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-- @~\/.ghcup\/bin/stack-<\stackver\>@.
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getInstalledStacks :: (MonadReader env m, HasDirs env, MonadIO m, MonadCatch m)
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=> m [Either FilePath Version]
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getInstalledStacks = do
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Dirs {..} <- getDirs
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bins <- liftIO $ handleIO (\_ -> pure []) $ findFiles
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binDir
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(makeRegexOpts compExtended
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execBlank
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([s|^stack-.*$|] :: ByteString)
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)
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forM bins $ \f ->
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case version . T.pack <$> (stripSuffix exeExt =<< stripPrefix "stack-" f) of
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Just (Right r) -> pure $ Right r
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Just (Left _) -> pure $ Left f
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Nothing -> pure $ Left f
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-- Return the currently set stack version, if any.
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-- TODO: there's a lot of code duplication here :>
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stackSet :: (MonadReader env m, HasDirs env, MonadIO m, MonadThrow m, MonadCatch m, MonadLogger m) => m (Maybe Version)
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stackSet = do
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Dirs {..} <- getDirs
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let stackBin = binDir </> "stack" <> exeExt
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handleIO' NoSuchThing (\_ -> pure Nothing) $ do
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broken <- liftIO $ isBrokenSymlink stackBin
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if broken
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then pure Nothing
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else do
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link <- liftIO
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$ handleIO' InvalidArgument
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(\e -> pure $ Left (toException e))
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$ fmap Right $ getLinkTarget stackBin
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case linkVersion =<< link of
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Right v -> pure $ Just v
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Left err -> do
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$(logWarn) $ "Failed to parse stack symlink target with: "
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<> T.pack (displayException err)
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<> ". The symlink "
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<> T.pack stackBin
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<> " needs to point to valid stack binary, such as 'stack-2.7.1'."
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pure Nothing
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where
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linkVersion :: MonadThrow m => FilePath -> m Version
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linkVersion = throwEither . MP.parse parser "" . T.pack . dropSuffix exeExt
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where
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parser
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= MP.try (stripAbsolutePath *> cabalParse)
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<|> MP.try (stripRelativePath *> cabalParse)
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<|> cabalParse
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-- parses the version of "stack-2.7.1" -> "2.7.1"
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cabalParse = MP.chunk "stack-" *> version'
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-- parses any path component ending with path separator,
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-- e.g. "foo/"
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stripPathComponet = parseUntil1 pathSep *> pathSep
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-- parses an absolute path up until the last path separator,
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-- e.g. "/bar/baz/foo" -> "/bar/baz/", leaving "foo"
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stripAbsolutePath = pathSep *> MP.many (MP.try stripPathComponet)
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-- parses a relative path up until the last path separator,
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-- e.g. "bar/baz/foo" -> "bar/baz/", leaving "foo"
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stripRelativePath = MP.many (MP.try stripPathComponet)
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-- | Whether the given Stack version is installed.
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stackInstalled :: (MonadIO m, MonadReader env m, HasDirs env, MonadCatch m) => Version -> m Bool
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stackInstalled ver = do
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vers <- fmap rights getInstalledStacks
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pure $ elem ver vers
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-- | Whether the given HLS version is installed.
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hlsInstalled :: (MonadIO m, MonadReader env m, HasDirs env, MonadCatch m) => Version -> m Bool
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hlsInstalled ver = do
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vers <- fmap rights getInstalledHLSs
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pure $ elem ver vers
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|
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-- Return the currently set hls version, if any.
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hlsSet :: (MonadReader env m, HasDirs env, MonadIO m, MonadThrow m, MonadCatch m) => m (Maybe Version)
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hlsSet = do
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Dirs {..} <- getDirs
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let hlsBin = binDir </> "haskell-language-server-wrapper" <> exeExt
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liftIO $ handleIO' NoSuchThing (\_ -> pure Nothing) $ do
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broken <- isBrokenSymlink hlsBin
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if broken
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then pure Nothing
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else do
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link <- liftIO $ getLinkTarget hlsBin
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Just <$> linkVersion link
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where
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linkVersion :: MonadThrow m => FilePath -> m Version
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linkVersion = throwEither . MP.parse parser "" . T.pack . dropSuffix exeExt
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where
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parser
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= MP.try (stripAbsolutePath *> cabalParse)
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<|> MP.try (stripRelativePath *> cabalParse)
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<|> cabalParse
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-- parses the version of "haskell-language-server-wrapper-1.1.0" -> "1.1.0"
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cabalParse = MP.chunk "haskell-language-server-wrapper-" *> version'
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-- parses any path component ending with path separator,
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-- e.g. "foo/"
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stripPathComponet = parseUntil1 pathSep *> pathSep
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-- parses an absolute path up until the last path separator,
|
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-- e.g. "/bar/baz/foo" -> "/bar/baz/", leaving "foo"
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stripAbsolutePath = pathSep *> MP.many (MP.try stripPathComponet)
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-- parses a relative path up until the last path separator,
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-- e.g. "bar/baz/foo" -> "bar/baz/", leaving "foo"
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stripRelativePath = MP.many (MP.try stripPathComponet)
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|
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-- | Return the GHC versions the currently selected HLS supports.
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hlsGHCVersions :: ( MonadReader env m
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, HasDirs env
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, MonadIO m
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, MonadThrow m
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, MonadCatch m
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)
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=> m [Version]
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hlsGHCVersions = do
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h <- hlsSet
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vers <- forM h $ \h' -> do
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bins <- hlsServerBinaries h'
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pure $ fmap
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(version
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. T.pack
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. fromJust
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. stripPrefix "haskell-language-server-"
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. head
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. splitOn "~"
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)
|
|
bins
|
|
pure . rights . concat . maybeToList $ vers
|
|
|
|
|
|
-- | Get all server binaries for an hls version, if any.
|
|
hlsServerBinaries :: (MonadReader env m, HasDirs env, MonadIO m)
|
|
=> Version
|
|
-> m [FilePath]
|
|
hlsServerBinaries ver = do
|
|
Dirs {..} <- getDirs
|
|
liftIO $ handleIO (\_ -> pure []) $ findFiles
|
|
binDir
|
|
(makeRegexOpts
|
|
compExtended
|
|
execBlank
|
|
([s|^haskell-language-server-.*~|] <> escapeVerRex ver <> E.encodeUtf8 (T.pack exeExt) <> [s|$|] :: ByteString
|
|
)
|
|
)
|
|
|
|
|
|
-- | Get the wrapper binary for an hls version, if any.
|
|
hlsWrapperBinary :: (MonadReader env m, HasDirs env, MonadThrow m, MonadIO m)
|
|
=> Version
|
|
-> m (Maybe FilePath)
|
|
hlsWrapperBinary ver = do
|
|
Dirs {..} <- getDirs
|
|
wrapper <- liftIO $ handleIO (\_ -> pure []) $ findFiles
|
|
binDir
|
|
(makeRegexOpts
|
|
compExtended
|
|
execBlank
|
|
([s|^haskell-language-server-wrapper-|] <> escapeVerRex ver <> E.encodeUtf8 (T.pack exeExt) <> [s|$|] :: ByteString
|
|
)
|
|
)
|
|
case wrapper of
|
|
[] -> pure Nothing
|
|
[x] -> pure $ Just x
|
|
_ -> throwM $ UnexpectedListLength
|
|
"There were multiple hls wrapper binaries for a single version"
|
|
|
|
|
|
-- | Get all binaries for an hls version, if any.
|
|
hlsAllBinaries :: (MonadReader env m, HasDirs env, MonadIO m, MonadThrow m) => Version -> m [FilePath]
|
|
hlsAllBinaries ver = do
|
|
hls <- hlsServerBinaries ver
|
|
wrapper <- hlsWrapperBinary ver
|
|
pure (maybeToList wrapper ++ hls)
|
|
|
|
|
|
-- | Get the active symlinks for hls.
|
|
hlsSymlinks :: (MonadReader env m, HasDirs env, MonadIO m, MonadCatch m) => m [FilePath]
|
|
hlsSymlinks = do
|
|
Dirs {..} <- getDirs
|
|
oldSyms <- liftIO $ handleIO (\_ -> pure []) $ findFiles
|
|
binDir
|
|
(makeRegexOpts compExtended
|
|
execBlank
|
|
([s|^haskell-language-server-.*$|] :: ByteString)
|
|
)
|
|
filterM
|
|
( liftIO
|
|
. pathIsLink
|
|
. (binDir </>)
|
|
)
|
|
oldSyms
|
|
|
|
|
|
|
|
-----------------------------------------
|
|
--[ Major version introspection (X.Y) ]--
|
|
-----------------------------------------
|
|
|
|
|
|
-- | Extract (major, minor) from any version.
|
|
getMajorMinorV :: MonadThrow m => Version -> m (Int, Int)
|
|
getMajorMinorV Version {..} = case _vChunks of
|
|
((Digits x :| []) :| ((Digits y :| []):_)) -> pure (fromIntegral x, fromIntegral y)
|
|
_ -> throwM $ ParseError "Could not parse X.Y from version"
|
|
|
|
|
|
matchMajor :: Version -> Int -> Int -> Bool
|
|
matchMajor v' major' minor' = case getMajorMinorV v' of
|
|
Just (x, y) -> x == major' && y == minor'
|
|
Nothing -> False
|
|
|
|
|
|
-- | Get the latest installed full GHC version that satisfies X.Y.
|
|
-- This reads `ghcupGHCBaseDir`.
|
|
getGHCForMajor :: (MonadReader env m, HasDirs env, MonadIO m, MonadThrow m)
|
|
=> Int -- ^ major version component
|
|
-> Int -- ^ minor version component
|
|
-> Maybe Text -- ^ the target triple
|
|
-> m (Maybe GHCTargetVersion)
|
|
getGHCForMajor major' minor' mt = do
|
|
ghcs <- rights <$> getInstalledGHCs
|
|
|
|
pure
|
|
. lastMay
|
|
. sortBy (\x y -> compare (_tvVersion x) (_tvVersion y))
|
|
. filter
|
|
(\GHCTargetVersion {..} ->
|
|
_tvTarget == mt && matchMajor _tvVersion major' minor'
|
|
)
|
|
$ ghcs
|
|
|
|
|
|
-- | Get the latest available ghc for X.Y major version.
|
|
getLatestGHCFor :: Int -- ^ major version component
|
|
-> Int -- ^ minor version component
|
|
-> GHCupDownloads
|
|
-> Maybe (Version, VersionInfo)
|
|
getLatestGHCFor major' minor' dls =
|
|
preview (ix GHC % to Map.toDescList) dls >>= lastMay . filter (\(v, _) -> matchMajor v major' minor')
|
|
|
|
|
|
|
|
|
|
-----------------
|
|
--[ Unpacking ]--
|
|
-----------------
|
|
|
|
|
|
|
|
-- | Unpack an archive to a temporary directory and return that path.
|
|
unpackToDir :: (MonadLogger m, MonadIO m, MonadThrow m)
|
|
=> FilePath -- ^ destination dir
|
|
-> FilePath -- ^ archive path
|
|
-> Excepts '[UnknownArchive
|
|
, ArchiveResult
|
|
] m ()
|
|
unpackToDir dfp av = do
|
|
let fn = takeFileName av
|
|
lift $ $(logInfo) $ "Unpacking: " <> T.pack fn <> " to " <> T.pack dfp
|
|
|
|
let untar :: MonadIO m => BL.ByteString -> Excepts '[ArchiveResult] m ()
|
|
untar = lEM . liftIO . runArchiveM . unpackToDirLazy dfp
|
|
|
|
rf :: MonadIO m => FilePath -> Excepts '[ArchiveResult] m BL.ByteString
|
|
rf = liftIO . BL.readFile
|
|
|
|
-- extract, depending on file extension
|
|
if
|
|
| ".tar.gz" `isSuffixOf` fn -> liftE
|
|
(untar . GZip.decompress =<< rf av)
|
|
| ".tar.xz" `isSuffixOf` fn -> do
|
|
filecontents <- liftE $ rf av
|
|
let decompressed = Lzma.decompress filecontents
|
|
liftE $ untar decompressed
|
|
| ".tar.bz2" `isSuffixOf` fn ->
|
|
liftE (untar . BZip.decompress =<< rf av)
|
|
| ".tar" `isSuffixOf` fn -> liftE (untar =<< rf av)
|
|
| ".zip" `isSuffixOf` fn -> liftE (untar =<< rf av)
|
|
| otherwise -> throwE $ UnknownArchive fn
|
|
|
|
|
|
getArchiveFiles :: (MonadLogger m, MonadIO m, MonadThrow m)
|
|
=> FilePath -- ^ archive path
|
|
-> Excepts '[UnknownArchive
|
|
, ArchiveResult
|
|
] m [FilePath]
|
|
getArchiveFiles av = do
|
|
let fn = takeFileName av
|
|
|
|
let entries :: Monad m => BL.ByteString -> Excepts '[ArchiveResult] m [FilePath]
|
|
entries = (fmap . fmap) filepath . lE . readArchiveBSL
|
|
|
|
rf :: MonadIO m => FilePath -> Excepts '[ArchiveResult] m BL.ByteString
|
|
rf = liftIO . BL.readFile
|
|
|
|
-- extract, depending on file extension
|
|
if
|
|
| ".tar.gz" `isSuffixOf` fn -> liftE
|
|
(entries . GZip.decompress =<< rf av)
|
|
| ".tar.xz" `isSuffixOf` fn -> do
|
|
filecontents <- liftE $ rf av
|
|
let decompressed = Lzma.decompress filecontents
|
|
liftE $ entries decompressed
|
|
| ".tar.bz2" `isSuffixOf` fn ->
|
|
liftE (entries . BZip.decompress =<< rf av)
|
|
| ".tar" `isSuffixOf` fn -> liftE (entries =<< rf av)
|
|
| ".zip" `isSuffixOf` fn -> liftE (entries =<< rf av)
|
|
| otherwise -> throwE $ UnknownArchive fn
|
|
|
|
|
|
intoSubdir :: (MonadLogger m, MonadIO m, MonadThrow m, MonadCatch m)
|
|
=> FilePath -- ^ unpacked tar dir
|
|
-> TarDir -- ^ how to descend
|
|
-> Excepts '[TarDirDoesNotExist] m FilePath
|
|
intoSubdir bdir tardir = case tardir of
|
|
RealDir pr -> do
|
|
whenM (fmap not . liftIO . doesDirectoryExist $ (bdir </> pr))
|
|
(throwE $ TarDirDoesNotExist tardir)
|
|
pure (bdir </> pr)
|
|
RegexDir r -> do
|
|
let rs = split (`elem` pathSeparators) r
|
|
foldlM
|
|
(\y x ->
|
|
(handleIO (\_ -> pure []) . liftIO . findFiles y . regex $ x) >>= (\case
|
|
[] -> throwE $ TarDirDoesNotExist tardir
|
|
(p : _) -> pure (y </> p)) . sort
|
|
)
|
|
bdir
|
|
rs
|
|
where regex = makeRegexOpts compIgnoreCase execBlank
|
|
|
|
|
|
|
|
|
|
------------
|
|
--[ Tags ]--
|
|
------------
|
|
|
|
|
|
-- | Get the tool version that has this tag. If multiple have it,
|
|
-- picks the greatest version.
|
|
getTagged :: Tag
|
|
-> AffineFold (Map.Map Version VersionInfo) (Version, VersionInfo)
|
|
getTagged tag =
|
|
to (Map.filter (\VersionInfo {..} -> tag `elem` _viTags))
|
|
% to Map.toDescList
|
|
% _head
|
|
|
|
getLatest :: GHCupDownloads -> Tool -> Maybe (Version, VersionInfo)
|
|
getLatest av tool = headOf (ix tool % getTagged Latest) av
|
|
|
|
getRecommended :: GHCupDownloads -> Tool -> Maybe (Version, VersionInfo)
|
|
getRecommended av tool = headOf (ix tool % getTagged Recommended) av
|
|
|
|
|
|
-- | Gets the latest GHC with a given base version.
|
|
getLatestBaseVersion :: GHCupDownloads -> PVP -> Maybe (Version, VersionInfo)
|
|
getLatestBaseVersion av pvpVer =
|
|
headOf (ix GHC % getTagged (Base pvpVer)) av
|
|
|
|
|
|
|
|
|
|
-------------
|
|
--[ Other ]--
|
|
-------------
|
|
|
|
|
|
-- | Get tool files from @~\/.ghcup\/bin\/ghc\/\<ver\>\/bin\/\*@
|
|
-- while ignoring @*-\<ver\>@ symlinks and accounting for cross triple prefix.
|
|
--
|
|
-- Returns unversioned relative files without extension, e.g.:
|
|
--
|
|
-- - @["hsc2hs","haddock","hpc","runhaskell","ghc","ghc-pkg","ghci","runghc","hp2ps"]@
|
|
ghcToolFiles :: (MonadReader env m, HasDirs env, MonadThrow m, MonadFail m, MonadIO m)
|
|
=> GHCTargetVersion
|
|
-> Excepts '[NotInstalled] m [FilePath]
|
|
ghcToolFiles ver = do
|
|
ghcdir <- lift $ ghcupGHCDir ver
|
|
let bindir = ghcdir </> "bin"
|
|
|
|
-- fail if ghc is not installed
|
|
whenM (fmap not $ liftIO $ doesDirectoryExist ghcdir)
|
|
(throwE (NotInstalled GHC ver))
|
|
|
|
files <- liftIO (listDirectory bindir >>= filterM (doesFileExist . (bindir </>)))
|
|
pure (getUniqueTools . groupToolFiles . fmap (dropSuffix exeExt) $ files)
|
|
|
|
where
|
|
|
|
groupToolFiles :: [FilePath] -> [[(FilePath, String)]]
|
|
groupToolFiles = groupBy (\(a, _) (b, _) -> a == b) . fmap (splitOnPVP "-")
|
|
|
|
getUniqueTools :: [[(FilePath, String)]] -> [String]
|
|
getUniqueTools = filter (isNotAnyInfix blackListedTools) . nub . fmap fst . filter ((== "") . snd) . concat
|
|
|
|
blackListedTools :: [String]
|
|
blackListedTools = ["haddock-ghc"]
|
|
|
|
isNotAnyInfix :: [String] -> String -> Bool
|
|
isNotAnyInfix xs t = foldr (\a b -> not (a `isInfixOf` t) && b) True xs
|
|
|
|
|
|
-- | This file, when residing in @~\/.ghcup\/ghc\/\<ver\>\/@ signals that
|
|
-- this GHC was built from source. It contains the build config.
|
|
ghcUpSrcBuiltFile :: FilePath
|
|
ghcUpSrcBuiltFile = ".ghcup_src_built"
|
|
|
|
|
|
-- | Calls gmake if it exists in PATH, otherwise make.
|
|
make :: ( MonadThrow m
|
|
, MonadIO m
|
|
, MonadReader env m
|
|
, HasDirs env
|
|
, HasSettings env
|
|
)
|
|
=> [String]
|
|
-> Maybe FilePath
|
|
-> m (Either ProcessError ())
|
|
make args workdir = do
|
|
spaths <- liftIO getSearchPath
|
|
has_gmake <- isJust <$> liftIO (searchPath spaths "gmake")
|
|
let mymake = if has_gmake then "gmake" else "make"
|
|
execLogged mymake args workdir "ghc-make" Nothing
|
|
|
|
makeOut :: (MonadReader env m, HasDirs env, MonadIO m)
|
|
=> [String]
|
|
-> Maybe FilePath
|
|
-> m CapturedProcess
|
|
makeOut args workdir = do
|
|
spaths <- liftIO getSearchPath
|
|
has_gmake <- isJust <$> liftIO (searchPath spaths "gmake")
|
|
let mymake = if has_gmake then "gmake" else "make"
|
|
executeOut mymake args workdir
|
|
|
|
|
|
-- | Try to apply patches in order. Fails with 'PatchFailed'
|
|
-- on first failure.
|
|
applyPatches :: (MonadReader env m, HasDirs env, MonadLogger m, MonadIO m)
|
|
=> FilePath -- ^ dir containing patches
|
|
-> FilePath -- ^ dir to apply patches in
|
|
-> Excepts '[PatchFailed] m ()
|
|
applyPatches pdir ddir = do
|
|
patches <- (fmap . fmap) (pdir </>) $ liftIO $ listDirectory pdir
|
|
forM_ (sort patches) $ \patch' -> do
|
|
lift $ $(logInfo) $ "Applying patch " <> T.pack patch'
|
|
fmap (either (const Nothing) Just)
|
|
(exec
|
|
"patch"
|
|
["-p1", "-i", patch']
|
|
(Just ddir)
|
|
Nothing)
|
|
!? PatchFailed
|
|
|
|
|
|
-- | https://gitlab.haskell.org/ghc/ghc/-/issues/17353
|
|
darwinNotarization :: (MonadReader env m, HasDirs env, MonadIO m)
|
|
=> Platform
|
|
-> FilePath
|
|
-> m (Either ProcessError ())
|
|
darwinNotarization Darwin path = exec
|
|
"xattr"
|
|
["-r", "-d", "com.apple.quarantine", path]
|
|
Nothing
|
|
Nothing
|
|
darwinNotarization _ _ = pure $ Right ()
|
|
|
|
|
|
getChangeLog :: GHCupDownloads -> Tool -> Either Version Tag -> Maybe URI
|
|
getChangeLog dls tool (Left v') =
|
|
preview (ix tool % ix v' % viChangeLog % _Just) dls
|
|
getChangeLog dls tool (Right tag) =
|
|
preview (ix tool % getTagged tag % to snd % viChangeLog % _Just) dls
|
|
|
|
|
|
-- | Execute a build action while potentially cleaning up:
|
|
--
|
|
-- 1. the build directory, depending on the KeepDirs setting
|
|
-- 2. the install destination, depending on whether the build failed
|
|
runBuildAction :: ( Pretty (V e)
|
|
, Show (V e)
|
|
, MonadReader env m
|
|
, HasDirs env
|
|
, HasSettings env
|
|
, MonadIO m
|
|
, MonadMask m
|
|
, MonadLogger m
|
|
, MonadUnliftIO m
|
|
)
|
|
=> FilePath -- ^ build directory (cleaned up depending on Settings)
|
|
-> Maybe FilePath -- ^ dir to *always* clean up on exception
|
|
-> Excepts e m a
|
|
-> Excepts '[BuildFailed] m a
|
|
runBuildAction bdir instdir action = do
|
|
Settings {..} <- lift getSettings
|
|
let exAction = do
|
|
forM_ instdir $ \dir ->
|
|
lift $ hideError doesNotExistErrorType $ recyclePathForcibly dir
|
|
when (keepDirs == Never)
|
|
$ lift $ rmBDir bdir
|
|
v <-
|
|
flip onException exAction
|
|
$ catchAllE
|
|
(\es -> do
|
|
exAction
|
|
throwE (BuildFailed bdir es)
|
|
) action
|
|
|
|
when (keepDirs == Never || keepDirs == Errors) $ lift $ rmBDir bdir
|
|
pure v
|
|
|
|
|
|
-- | Remove a build directory, ignoring if it doesn't exist and gracefully
|
|
-- printing other errors without crashing.
|
|
rmBDir :: (MonadLogger m, MonadUnliftIO m, MonadIO m) => FilePath -> m ()
|
|
rmBDir dir = withRunInIO (\run -> run $
|
|
liftIO $ handleIO (\e -> run $ $(logWarn) $
|
|
"Couldn't remove build dir " <> T.pack dir <> ", error was: " <> T.pack (displayException e))
|
|
$ hideError doesNotExistErrorType
|
|
$ rmPathForcibly dir)
|
|
|
|
|
|
getVersionInfo :: Version
|
|
-> Tool
|
|
-> GHCupDownloads
|
|
-> Maybe VersionInfo
|
|
getVersionInfo v' tool =
|
|
headOf
|
|
( ix tool
|
|
% to (Map.filterWithKey (\k _ -> k == v'))
|
|
% to Map.elems
|
|
% _head
|
|
)
|
|
|
|
|
|
-- | The file extension for executables.
|
|
exeExt :: String
|
|
#if defined(IS_WINDOWS)
|
|
exeExt = ".exe"
|
|
#else
|
|
exeExt = ""
|
|
#endif
|
|
|
|
-- | The file extension for executables.
|
|
exeExt' :: ByteString
|
|
#if defined(IS_WINDOWS)
|
|
exeExt' = ".exe"
|
|
#else
|
|
exeExt' = ""
|
|
#endif
|
|
|
|
|
|
-- | Enables ANSI support on windows, does nothing on unix.
|
|
--
|
|
-- Returns 'Left str' on errors and 'Right bool' on success, where
|
|
-- 'bool' markes whether ansi support was already enabled.
|
|
--
|
|
-- This function never crashes.
|
|
--
|
|
-- Rip-off of https://docs.rs/ansi_term/0.12.1/x86_64-pc-windows-msvc/src/ansi_term/windows.rs.html#10-61
|
|
enableAnsiSupport :: IO (Either String Bool)
|
|
#if defined(IS_WINDOWS)
|
|
enableAnsiSupport = handleIO (pure . Left . displayException) $ do
|
|
-- ref: https://docs.microsoft.com/en-us/windows/win32/api/fileapi/nf-fileapi-createfilew
|
|
-- Using `CreateFileW("CONOUT$", ...)` to retrieve the console handle works correctly even if STDOUT and/or STDERR are redirected
|
|
h <- createFile "CONOUT$" (gENERIC_WRITE .|. gENERIC_READ)
|
|
fILE_SHARE_WRITE Nothing oPEN_EXISTING 0 Nothing
|
|
when (h == iNVALID_HANDLE_VALUE ) $ fail "invalid handle value"
|
|
|
|
-- ref: https://docs.microsoft.com/en-us/windows/console/getconsolemode
|
|
m <- getConsoleMode h
|
|
|
|
-- VT processing not already enabled?
|
|
if ((m .&. eNABLE_VIRTUAL_TERMINAL_PROCESSING) == 0)
|
|
-- https://docs.microsoft.com/en-us/windows/console/setconsolemode
|
|
then setConsoleMode h (m .|. eNABLE_VIRTUAL_TERMINAL_PROCESSING)
|
|
>> pure (Right False)
|
|
else pure (Right True)
|
|
#else
|
|
enableAnsiSupport = pure (Right True)
|
|
#endif
|
|
|
|
|
|
-- | On unix, we can use symlinks, so we just get the
|
|
-- symbolic link target.
|
|
--
|
|
-- On windows, we have to emulate symlinks via shims,
|
|
-- see 'createLink'.
|
|
getLinkTarget :: FilePath -> IO FilePath
|
|
getLinkTarget fp = do
|
|
#if defined(IS_WINDOWS)
|
|
content <- readFile (dropExtension fp <.> "shim")
|
|
[p] <- pure . filter ("path = " `isPrefixOf`) . lines $ content
|
|
pure $ stripNewline $ dropPrefix "path = " p
|
|
#else
|
|
getSymbolicLinkTarget fp
|
|
#endif
|
|
|
|
|
|
-- | Checks whether the path is a link.
|
|
pathIsLink :: FilePath -> IO Bool
|
|
#if defined(IS_WINDOWS)
|
|
pathIsLink fp = doesPathExist (dropExtension fp <.> "shim")
|
|
#else
|
|
pathIsLink = pathIsSymbolicLink
|
|
#endif
|
|
|
|
|
|
rmLink :: (MonadReader env m, HasDirs env, MonadIO m, MonadMask m) => FilePath -> m ()
|
|
#if defined(IS_WINDOWS)
|
|
rmLink fp = do
|
|
hideError doesNotExistErrorType . recycleFile $ fp
|
|
hideError doesNotExistErrorType . recycleFile $ (dropExtension fp <.> "shim")
|
|
#else
|
|
rmLink = hideError doesNotExistErrorType . recycleFile
|
|
#endif
|
|
|
|
|
|
-- | Creates a symbolic link on unix and a fake symlink on windows for
|
|
-- executables, which:
|
|
-- 1. is a shim exe
|
|
-- 2. has a corresponding .shim file in the same directory that
|
|
-- contains the target
|
|
--
|
|
-- This overwrites previously existing files.
|
|
--
|
|
-- On windows, this requires that 'ensureGlobalTools' was run beforehand.
|
|
createLink :: ( MonadMask m
|
|
, MonadThrow m
|
|
, MonadLogger m
|
|
, MonadIO m
|
|
, MonadReader env m
|
|
, HasDirs env
|
|
, MonadUnliftIO m
|
|
, MonadFail m
|
|
)
|
|
=> FilePath -- ^ path to the target executable
|
|
-> FilePath -- ^ path to be created
|
|
-> m ()
|
|
createLink link exe = do
|
|
#if defined(IS_WINDOWS)
|
|
dirs <- getDirs
|
|
let shimGen = cacheDir dirs </> "gs.exe"
|
|
|
|
let shim = dropExtension exe <.> "shim"
|
|
-- For hardlinks, link needs to be absolute.
|
|
-- If link is relative, it's relative to the target exe.
|
|
-- Note that (</>) drops lhs when rhs is absolute.
|
|
fullLink = takeDirectory exe </> link
|
|
shimContents = "path = " <> fullLink
|
|
|
|
$(logDebug) $ "rm -f " <> T.pack exe
|
|
rmLink exe
|
|
|
|
$(logDebug) $ "ln -s " <> T.pack fullLink <> " " <> T.pack exe
|
|
liftIO $ copyFile shimGen exe
|
|
liftIO $ writeFile shim shimContents
|
|
#else
|
|
$(logDebug) $ "rm -f " <> T.pack exe
|
|
hideError doesNotExistErrorType $ recycleFile exe
|
|
|
|
$(logDebug) $ "ln -s " <> T.pack link <> " " <> T.pack exe
|
|
liftIO $ createFileLink link exe
|
|
#endif
|
|
|
|
|
|
ensureGlobalTools :: ( MonadMask m
|
|
, MonadThrow m
|
|
, MonadLogger m
|
|
, MonadIO m
|
|
, MonadReader env m
|
|
, HasDirs env
|
|
, HasSettings env
|
|
, HasGHCupInfo env
|
|
, MonadUnliftIO m
|
|
, MonadFail m
|
|
)
|
|
=> Excepts '[DigestError , DownloadFailed, NoDownload] m ()
|
|
ensureGlobalTools = do
|
|
#if defined(IS_WINDOWS)
|
|
(GHCupInfo _ _ gTools) <- lift getGHCupInfo
|
|
dirs <- lift getDirs
|
|
shimDownload <- liftE $ lE @_ @'[NoDownload]
|
|
$ maybe (Left NoDownload) Right $ Map.lookup ShimGen gTools
|
|
let dl = downloadCached' shimDownload (Just "gs.exe") Nothing
|
|
void $ (\(DigestError _ _) -> do
|
|
lift $ $(logWarn) "Digest doesn't match, redownloading gs.exe..."
|
|
lift $ $(logDebug) "rm -f #{shimDownload}"
|
|
lift $ hideError doesNotExistErrorType $ recycleFile (cacheDir dirs </> "gs.exe")
|
|
liftE @'[DigestError , DownloadFailed] $ dl
|
|
) `catchE` (liftE @'[DigestError , DownloadFailed] dl)
|
|
pure ()
|
|
#else
|
|
pure ()
|
|
#endif
|
|
|
|
|
|
-- | Ensure ghcup directory structure exists.
|
|
ensureDirectories :: Dirs -> IO ()
|
|
ensureDirectories (Dirs baseDir binDir cacheDir logsDir confDir trashDir) = do
|
|
createDirRecursive' baseDir
|
|
createDirRecursive' (baseDir </> "ghc")
|
|
createDirRecursive' binDir
|
|
createDirRecursive' cacheDir
|
|
createDirRecursive' logsDir
|
|
createDirRecursive' confDir
|
|
createDirRecursive' trashDir
|
|
pure ()
|
|
|
|
|
|
-- | For ghc without arch triple, this is:
|
|
--
|
|
-- - ghc-<ver> (e.g. ghc-8.10.4)
|
|
--
|
|
-- For ghc with arch triple:
|
|
--
|
|
-- - <triple>-ghc-<ver> (e.g. arm-linux-gnueabihf-ghc-8.10.4)
|
|
ghcBinaryName :: GHCTargetVersion -> String
|
|
ghcBinaryName (GHCTargetVersion (Just t) v') = T.unpack (t <> "-ghc-" <> prettyVer v' <> T.pack exeExt)
|
|
ghcBinaryName (GHCTargetVersion Nothing v') = T.unpack ("ghc-" <> prettyVer v' <> T.pack exeExt)
|