ghcup-hs/lib/GHCup/Utils.hs

1078 lines
36 KiB
Haskell

{-# LANGUAGE CPP #-}
{-# LANGUAGE DataKinds #-}
{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE QuasiQuotes #-}
{-# LANGUAGE TemplateHaskell #-}
{-# LANGUAGE TypeApplications #-}
{-# LANGUAGE ViewPatterns #-}
{-|
Module : GHCup.Utils
Description : GHCup domain specific utilities
Copyright : (c) Julian Ospald, 2020
License : LGPL-3.0
Maintainer : hasufell@hasufell.de
Stability : experimental
Portability : portable
This module contains GHCup helpers specific to
installation and introspection of files/versions etc.
-}
module GHCup.Utils
( module GHCup.Utils.Dirs
, module GHCup.Utils
)
where
#if defined(IS_WINDOWS)
import GHCup.Download
#endif
import GHCup.Errors
import GHCup.Types
import GHCup.Types.Optics
import GHCup.Types.JSON ( )
import GHCup.Utils.Dirs
import GHCup.Utils.File
import GHCup.Utils.MegaParsec
import GHCup.Utils.Prelude
import GHCup.Utils.String.QQ
import Codec.Archive hiding ( Directory )
import Control.Applicative
import Control.Exception.Safe
import Control.Monad
#if !MIN_VERSION_base(4,13,0)
import Control.Monad.Fail ( MonadFail )
#endif
import Control.Monad.Reader
import Control.Monad.Trans.Resource
hiding ( throwM )
import Control.Monad.IO.Unlift ( MonadUnliftIO( withRunInIO ) )
#if defined(IS_WINDOWS)
import Data.Bits
#endif
import Data.ByteString ( ByteString )
import Data.Either
import Data.Foldable
import Data.List
import Data.List.NonEmpty ( NonEmpty( (:|) ))
import Data.Maybe
import Data.Text ( Text )
import Data.Versions
import GHC.IO.Exception
import Haskus.Utils.Variant.Excepts
import Optics
import Safe
import System.Directory hiding ( findFiles )
import System.FilePath
import System.IO.Error
#if defined(IS_WINDOWS)
import System.Win32.Console
import System.Win32.File hiding ( copyFile )
import System.Win32.Types
#endif
import Text.PrettyPrint.HughesPJClass hiding ( (<>) )
import Text.Regex.Posix
import URI.ByteString
import qualified Codec.Compression.BZip as BZip
import qualified Codec.Compression.GZip as GZip
import qualified Codec.Compression.Lzma as Lzma
import qualified Data.ByteString.Lazy as BL
import qualified Data.Map.Strict as Map
import qualified Data.Text as T
import qualified Data.Text.Encoding as E
import qualified Text.Megaparsec as MP
------------------------
--[ Symlink handling ]--
------------------------
-- | The symlink destination of a ghc tool.
ghcLinkDestination :: ( MonadReader env m
, HasDirs env
, MonadThrow m, MonadIO m)
=> FilePath -- ^ the tool, such as 'ghc', 'haddock' etc.
-> GHCTargetVersion
-> m FilePath
ghcLinkDestination tool ver = do
Dirs {..} <- getDirs
ghcd <- ghcupGHCDir ver
pure (relativeSymlink binDir (ghcd </> "bin" </> tool))
-- | Removes the minor GHC symlinks, e.g. ghc-8.6.5.
rmMinorSymlinks :: ( MonadReader env m
, HasDirs env
, MonadIO m
, HasLog env
, MonadThrow m
, MonadFail m
, MonadMask m
)
=> GHCTargetVersion
-> Excepts '[NotInstalled] m ()
rmMinorSymlinks tv@GHCTargetVersion{..} = do
Dirs {..} <- lift getDirs
files <- liftE $ ghcToolFiles tv
forM_ files $ \f -> do
let f_xyz = f <> "-" <> T.unpack (prettyVer _tvVersion) <> exeExt
let fullF = binDir </> f_xyz
lift $ logDebug ("rm -f " <> T.pack fullF)
lift $ hideError doesNotExistErrorType $ rmLink fullF
-- | Removes the set ghc version for the given target, if any.
rmPlain :: ( MonadReader env m
, HasDirs env
, HasLog env
, MonadThrow m
, MonadFail m
, MonadIO m
, MonadMask m
)
=> Maybe Text -- ^ target
-> Excepts '[NotInstalled] m ()
rmPlain target = do
Dirs {..} <- lift getDirs
mtv <- lift $ ghcSet target
forM_ mtv $ \tv -> do
files <- liftE $ ghcToolFiles tv
forM_ files $ \f -> do
let fullF = binDir </> f <> exeExt
lift $ logDebug ("rm -f " <> T.pack fullF)
lift $ hideError doesNotExistErrorType $ rmLink fullF
-- old ghcup
let hdc_file = binDir </> "haddock-ghc" <> exeExt
lift $ logDebug ("rm -f " <> T.pack hdc_file)
lift $ hideError doesNotExistErrorType $ rmLink hdc_file
-- | Remove the major GHC symlink, e.g. ghc-8.6.
rmMajorSymlinks :: ( MonadReader env m
, HasDirs env
, MonadIO m
, HasLog env
, MonadThrow m
, MonadFail m
, MonadMask m
)
=> GHCTargetVersion
-> Excepts '[NotInstalled] m ()
rmMajorSymlinks tv@GHCTargetVersion{..} = do
Dirs {..} <- lift getDirs
(mj, mi) <- getMajorMinorV _tvVersion
let v' = intToText mj <> "." <> intToText mi
files <- liftE $ ghcToolFiles tv
forM_ files $ \f -> do
let f_xy = f <> "-" <> T.unpack v' <> exeExt
let fullF = binDir </> f_xy
lift $ logDebug ("rm -f " <> T.pack fullF)
lift $ hideError doesNotExistErrorType $ rmLink fullF
-----------------------------------
--[ Set/Installed introspection ]--
-----------------------------------
-- | Whether the given GHC versin is installed.
ghcInstalled :: (MonadIO m, MonadReader env m, HasDirs env, MonadThrow m) => GHCTargetVersion -> m Bool
ghcInstalled ver = do
ghcdir <- ghcupGHCDir ver
liftIO $ doesDirectoryExist ghcdir
-- | Whether the given GHC version is installed from source.
ghcSrcInstalled :: (MonadIO m, MonadReader env m, HasDirs env, MonadThrow m) => GHCTargetVersion -> m Bool
ghcSrcInstalled ver = do
ghcdir <- ghcupGHCDir ver
liftIO $ doesFileExist (ghcdir </> ghcUpSrcBuiltFile)
-- | Whether the given GHC version is set as the current.
ghcSet :: (MonadReader env m, HasDirs env, MonadThrow m, MonadIO m)
=> Maybe Text -- ^ the target of the GHC version, if any
-- (e.g. armv7-unknown-linux-gnueabihf)
-> m (Maybe GHCTargetVersion)
ghcSet mtarget = do
Dirs {..} <- getDirs
let ghc = maybe "ghc" (\t -> T.unpack t <> "-ghc") mtarget
let ghcBin = binDir </> ghc <> exeExt
-- link destination is of the form ../ghc/<ver>/bin/ghc
-- for old ghcup, it is ../ghc/<ver>/bin/ghc-<ver>
liftIO $ handleIO' NoSuchThing (\_ -> pure Nothing) $ do
link <- liftIO $ getLinkTarget ghcBin
Just <$> ghcLinkVersion link
where
ghcLinkVersion :: MonadThrow m => FilePath -> m GHCTargetVersion
ghcLinkVersion (T.pack . dropSuffix exeExt -> t) = throwEither $ MP.parse parser "ghcLinkVersion" t
where
parser =
(do
_ <- parseUntil1 ghcSubPath
_ <- ghcSubPath
r <- parseUntil1 pathSep
rest <- MP.getInput
MP.setInput r
x <- ghcTargetVerP
MP.setInput rest
pure x
)
<* pathSep
<* MP.takeRest
<* MP.eof
ghcSubPath = pathSep <* MP.chunk "ghc" *> pathSep
-- | Get all installed GHCs by reading ~/.ghcup/ghc/<dir>.
-- If a dir cannot be parsed, returns left.
getInstalledGHCs :: (MonadReader env m, HasDirs env, MonadIO m) => m [Either FilePath GHCTargetVersion]
getInstalledGHCs = do
ghcdir <- ghcupGHCBaseDir
fs <- liftIO $ hideErrorDef [NoSuchThing] [] $ listDirectory ghcdir
forM fs $ \f -> case parseGHCupGHCDir f of
Right r -> pure $ Right r
Left _ -> pure $ Left f
-- | Get all installed cabals, by matching on @~\/.ghcup\/bin/cabal-*@.
getInstalledCabals :: ( MonadReader env m
, HasDirs env
, HasLog env
, MonadIO m
, MonadCatch m
)
=> m [Either FilePath Version]
getInstalledCabals = do
Dirs {..} <- getDirs
bins <- liftIO $ handleIO (\_ -> pure []) $ findFiles
binDir
(makeRegexOpts compExtended execBlank ([s|^cabal-.*$|] :: ByteString))
vs <- forM bins $ \f -> case version . T.pack <$> (stripSuffix exeExt =<< stripPrefix "cabal-" f) of
Just (Right r) -> pure $ Right r
Just (Left _) -> pure $ Left f
Nothing -> pure $ Left f
pure $ nub vs
-- | Whether the given cabal version is installed.
cabalInstalled :: (HasLog env, MonadIO m, MonadReader env m, HasDirs env, MonadCatch m) => Version -> m Bool
cabalInstalled ver = do
vers <- fmap rights getInstalledCabals
pure $ elem ver vers
-- Return the currently set cabal version, if any.
cabalSet :: (HasLog env, MonadReader env m, HasDirs env, MonadIO m, MonadThrow m, MonadCatch m) => m (Maybe Version)
cabalSet = do
Dirs {..} <- getDirs
let cabalbin = binDir </> "cabal" <> exeExt
handleIO' NoSuchThing (\_ -> pure Nothing) $ do
broken <- liftIO $ isBrokenSymlink cabalbin
if broken
then pure Nothing
else do
link <- liftIO
$ handleIO' InvalidArgument
(\e -> pure $ Left (toException e))
$ fmap Right $ getLinkTarget cabalbin
case linkVersion =<< link of
Right v -> pure $ Just v
Left err -> do
logWarn $ "Failed to parse cabal symlink target with: "
<> T.pack (displayException err)
<> ". The symlink "
<> T.pack cabalbin
<> " needs to point to valid cabal binary, such as 'cabal-3.4.0.0'."
pure Nothing
where
-- We try to be extra permissive with link destination parsing,
-- because of:
-- https://gitlab.haskell.org/haskell/ghcup-hs/-/issues/119
linkVersion :: MonadThrow m => FilePath -> m Version
linkVersion = throwEither . MP.parse parser "linkVersion" . T.pack . dropSuffix exeExt
parser
= MP.try (stripAbsolutePath *> cabalParse)
<|> MP.try (stripRelativePath *> cabalParse)
<|> cabalParse
-- parses the version of "cabal-3.2.0.0" -> "3.2.0.0"
cabalParse = MP.chunk "cabal-" *> version'
-- parses any path component ending with path separator,
-- e.g. "foo/"
stripPathComponet = parseUntil1 pathSep *> pathSep
-- parses an absolute path up until the last path separator,
-- e.g. "/bar/baz/foo" -> "/bar/baz/", leaving "foo"
stripAbsolutePath = pathSep *> MP.many (MP.try stripPathComponet)
-- parses a relative path up until the last path separator,
-- e.g. "bar/baz/foo" -> "bar/baz/", leaving "foo"
stripRelativePath = MP.many (MP.try stripPathComponet)
-- | Get all installed hls, by matching on
-- @~\/.ghcup\/bin/haskell-language-server-wrapper-<\hlsver\>@.
getInstalledHLSs :: (MonadReader env m, HasDirs env, MonadIO m, MonadCatch m)
=> m [Either FilePath Version]
getInstalledHLSs = do
Dirs {..} <- getDirs
bins <- liftIO $ handleIO (\_ -> pure []) $ findFiles
binDir
(makeRegexOpts compExtended
execBlank
([s|^haskell-language-server-wrapper-.*$|] :: ByteString)
)
forM bins $ \f ->
case
version . T.pack <$> (stripSuffix exeExt =<< stripPrefix "haskell-language-server-wrapper-" f)
of
Just (Right r) -> pure $ Right r
Just (Left _) -> pure $ Left f
Nothing -> pure $ Left f
-- | Get all installed stacks, by matching on
-- @~\/.ghcup\/bin/stack-<\stackver\>@.
getInstalledStacks :: (MonadReader env m, HasDirs env, MonadIO m, MonadCatch m)
=> m [Either FilePath Version]
getInstalledStacks = do
Dirs {..} <- getDirs
bins <- liftIO $ handleIO (\_ -> pure []) $ findFiles
binDir
(makeRegexOpts compExtended
execBlank
([s|^stack-.*$|] :: ByteString)
)
forM bins $ \f ->
case version . T.pack <$> (stripSuffix exeExt =<< stripPrefix "stack-" f) of
Just (Right r) -> pure $ Right r
Just (Left _) -> pure $ Left f
Nothing -> pure $ Left f
-- Return the currently set stack version, if any.
-- TODO: there's a lot of code duplication here :>
stackSet :: (MonadReader env m, HasDirs env, MonadIO m, MonadThrow m, MonadCatch m, HasLog env) => m (Maybe Version)
stackSet = do
Dirs {..} <- getDirs
let stackBin = binDir </> "stack" <> exeExt
handleIO' NoSuchThing (\_ -> pure Nothing) $ do
broken <- liftIO $ isBrokenSymlink stackBin
if broken
then pure Nothing
else do
link <- liftIO
$ handleIO' InvalidArgument
(\e -> pure $ Left (toException e))
$ fmap Right $ getLinkTarget stackBin
case linkVersion =<< link of
Right v -> pure $ Just v
Left err -> do
logWarn $ "Failed to parse stack symlink target with: "
<> T.pack (displayException err)
<> ". The symlink "
<> T.pack stackBin
<> " needs to point to valid stack binary, such as 'stack-2.7.1'."
pure Nothing
where
linkVersion :: MonadThrow m => FilePath -> m Version
linkVersion = throwEither . MP.parse parser "" . T.pack . dropSuffix exeExt
where
parser
= MP.try (stripAbsolutePath *> cabalParse)
<|> MP.try (stripRelativePath *> cabalParse)
<|> cabalParse
-- parses the version of "stack-2.7.1" -> "2.7.1"
cabalParse = MP.chunk "stack-" *> version'
-- parses any path component ending with path separator,
-- e.g. "foo/"
stripPathComponet = parseUntil1 pathSep *> pathSep
-- parses an absolute path up until the last path separator,
-- e.g. "/bar/baz/foo" -> "/bar/baz/", leaving "foo"
stripAbsolutePath = pathSep *> MP.many (MP.try stripPathComponet)
-- parses a relative path up until the last path separator,
-- e.g. "bar/baz/foo" -> "bar/baz/", leaving "foo"
stripRelativePath = MP.many (MP.try stripPathComponet)
-- | Whether the given Stack version is installed.
stackInstalled :: (MonadIO m, MonadReader env m, HasDirs env, MonadCatch m) => Version -> m Bool
stackInstalled ver = do
vers <- fmap rights getInstalledStacks
pure $ elem ver vers
-- | Whether the given HLS version is installed.
hlsInstalled :: (MonadIO m, MonadReader env m, HasDirs env, MonadCatch m) => Version -> m Bool
hlsInstalled ver = do
vers <- fmap rights getInstalledHLSs
pure $ elem ver vers
-- Return the currently set hls version, if any.
hlsSet :: (MonadReader env m, HasDirs env, MonadIO m, MonadThrow m, MonadCatch m) => m (Maybe Version)
hlsSet = do
Dirs {..} <- getDirs
let hlsBin = binDir </> "haskell-language-server-wrapper" <> exeExt
liftIO $ handleIO' NoSuchThing (\_ -> pure Nothing) $ do
broken <- isBrokenSymlink hlsBin
if broken
then pure Nothing
else do
link <- liftIO $ getLinkTarget hlsBin
Just <$> linkVersion link
where
linkVersion :: MonadThrow m => FilePath -> m Version
linkVersion = throwEither . MP.parse parser "" . T.pack . dropSuffix exeExt
where
parser
= MP.try (stripAbsolutePath *> cabalParse)
<|> MP.try (stripRelativePath *> cabalParse)
<|> cabalParse
-- parses the version of "haskell-language-server-wrapper-1.1.0" -> "1.1.0"
cabalParse = MP.chunk "haskell-language-server-wrapper-" *> version'
-- parses any path component ending with path separator,
-- e.g. "foo/"
stripPathComponet = parseUntil1 pathSep *> pathSep
-- parses an absolute path up until the last path separator,
-- e.g. "/bar/baz/foo" -> "/bar/baz/", leaving "foo"
stripAbsolutePath = pathSep *> MP.many (MP.try stripPathComponet)
-- parses a relative path up until the last path separator,
-- e.g. "bar/baz/foo" -> "bar/baz/", leaving "foo"
stripRelativePath = MP.many (MP.try stripPathComponet)
-- | Return the GHC versions the currently selected HLS supports.
hlsGHCVersions :: ( MonadReader env m
, HasDirs env
, MonadIO m
, MonadThrow m
, MonadCatch m
)
=> m [Version]
hlsGHCVersions = do
h <- hlsSet
vers <- forM h $ \h' -> do
bins <- hlsServerBinaries h'
pure $ fmap
(version
. T.pack
. fromJust
. stripPrefix "haskell-language-server-"
. head
. splitOn "~"
)
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 :: (MonadReader env m, HasLog env, 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 :: (MonadReader env m, HasLog env, 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 :: (MonadReader env m, HasLog env, 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, HasLog env, MonadIO m)
=> FilePath -- ^ dir containing patches
-> FilePath -- ^ dir to apply patches in
-> Excepts '[PatchFailed] m ()
applyPatches pdir ddir = do
patches <- (fmap . fmap) (pdir </>) $ liftIO $ findFiles
pdir
(makeRegexOpts compExtended
execBlank
([s|.+\.(patch|diff)$|] :: ByteString)
)
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)
, PopVariant BuildFailed e
, ToVariantMaybe BuildFailed e
, MonadReader env m
, HasDirs env
, HasSettings env
, MonadIO m
, MonadMask m
, HasLog env
, 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 :: (MonadReader env m, HasLog env, 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
, HasLog env
, 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
, HasLog env
, 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 " <> T.pack (cacheDir dirs </> "gs.exe"))
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)