stack-1.6.1: src/Stack/Config.hs
{-# LANGUAGE NoImplicitPrelude #-}
{-# LANGUAGE ConstraintKinds #-}
{-# LANGUAGE CPP #-}
{-# LANGUAGE DataKinds #-}
{-# LANGUAGE DeriveFoldable #-}
{-# LANGUAGE DeriveFunctor #-}
{-# LANGUAGE DeriveTraversable #-}
{-# LANGUAGE ScopedTypeVariables #-}
{-# LANGUAGE GeneralizedNewtypeDeriving #-}
{-# LANGUAGE TemplateHaskell #-}
{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE RecordWildCards #-}
{-# LANGUAGE DeriveDataTypeable #-}
{-# LANGUAGE TypeFamilies #-}
{-# LANGUAGE LambdaCase #-}
{-# LANGUAGE ViewPatterns #-}
{-# LANGUAGE TupleSections #-}
-- | The general Stack configuration that starts everything off. This should
-- be smart to falback if there is no stack.yaml, instead relying on
-- whatever files are available.
--
-- If there is no stack.yaml, and there is a cabal.config, we
-- read in those constraints, and if there's a cabal.sandbox.config,
-- we read any constraints from there and also find the package
-- database from there, etc. And if there's nothing, we should
-- probably default to behaving like cabal, possibly with spitting out
-- a warning that "you should run `stk init` to make things better".
module Stack.Config
(MiniConfig
,loadConfig
,loadConfigMaybeProject
,loadMiniConfig
,loadConfigYaml
,packagesParser
,getLocalPackages
,getImplicitGlobalProjectDir
,getStackYaml
,getSnapshots
,makeConcreteResolver
,checkOwnership
,getInContainer
,getInNixShell
,defaultConfigYaml
,getProjectConfig
,LocalConfigStatus(..)
) where
import Control.Monad.Extra (firstJustM)
import Stack.Prelude
import Data.Aeson.Extended
import qualified Data.ByteString as S
import qualified Data.IntMap as IntMap
import qualified Data.Map as Map
import qualified Data.Text as T
import Data.Text.Encoding (encodeUtf8)
import qualified Data.Yaml as Yaml
import qualified Distribution.PackageDescription as C
import Distribution.System (OS (..), Platform (..), buildPlatform, Arch(OtherArch))
import qualified Distribution.Text
import Distribution.Version (simplifyVersionRange, mkVersion')
import GHC.Conc (getNumProcessors)
import Lens.Micro (lens)
import Network.HTTP.Client (parseUrlThrow)
import Network.HTTP.Simple (httpJSON, getResponseBody)
import Options.Applicative (Parser, strOption, long, help)
import Path
import Path.Extra (toFilePathNoTrailingSep)
import Path.Find (findInParents)
import Path.IO
import qualified Paths_stack as Meta
import Stack.Config.Build
import Stack.Config.Docker
import Stack.Config.Nix
import Stack.Config.Urls
import Stack.Constants
import Stack.Fetch
import qualified Stack.Image as Image
import Stack.PackageLocation
import Stack.Snapshot
import Stack.Types.BuildPlan
import Stack.Types.Compiler
import Stack.Types.Config
import Stack.Types.Docker
import Stack.Types.Nix
import Stack.Types.PackageName (PackageName)
import Stack.Types.PackageIdentifier
import Stack.Types.PackageIndex (IndexType (ITHackageSecurity), HackageSecurity (..))
import Stack.Types.Resolver
import Stack.Types.Runner
import Stack.Types.Urls
import Stack.Types.Version
import System.Environment
import System.PosixCompat.Files (fileOwner, getFileStatus)
import System.PosixCompat.User (getEffectiveUserID)
import System.Process.Read
-- | If deprecated path exists, use it and print a warning.
-- Otherwise, return the new path.
tryDeprecatedPath
:: (MonadIO m, MonadLogger m)
=> Maybe T.Text -- ^ Description of file for warning (if Nothing, no deprecation warning is displayed)
-> (Path Abs a -> m Bool) -- ^ Test for existence
-> Path Abs a -- ^ New path
-> Path Abs a -- ^ Deprecated path
-> m (Path Abs a, Bool) -- ^ (Path to use, whether it already exists)
tryDeprecatedPath mWarningDesc exists new old = do
newExists <- exists new
if newExists
then return (new, True)
else do
oldExists <- exists old
if oldExists
then do
case mWarningDesc of
Nothing -> return ()
Just desc ->
logWarn $ T.concat
[ "Warning: Location of ", desc, " at '"
, T.pack (toFilePath old)
, "' is deprecated; rename it to '"
, T.pack (toFilePath new)
, "' instead" ]
return (old, True)
else return (new, False)
-- | Get the location of the implicit global project directory.
-- If the directory already exists at the deprecated location, its location is returned.
-- Otherwise, the new location is returned.
getImplicitGlobalProjectDir
:: (MonadIO m, MonadLogger m)
=> Config -> m (Path Abs Dir)
getImplicitGlobalProjectDir config =
--TEST no warning printed
liftM fst $ tryDeprecatedPath
Nothing
doesDirExist
(implicitGlobalProjectDir stackRoot)
(implicitGlobalProjectDirDeprecated stackRoot)
where
stackRoot = configStackRoot config
-- | This is slightly more expensive than @'asks' ('bcStackYaml' '.' 'getBuildConfig')@
-- and should only be used when no 'BuildConfig' is at hand.
getStackYaml :: HasConfig env => RIO env (Path Abs File)
getStackYaml = do
config <- view configL
case configMaybeProject config of
Just (_project, stackYaml) -> return stackYaml
Nothing -> liftM (</> stackDotYaml) (getImplicitGlobalProjectDir config)
-- | Download the 'Snapshots' value from stackage.org.
getSnapshots :: HasConfig env => RIO env Snapshots
getSnapshots = do
latestUrlText <- askLatestSnapshotUrl
latestUrl <- parseUrlThrow (T.unpack latestUrlText)
logDebug $ "Downloading snapshot versions file from " <> latestUrlText
result <- httpJSON latestUrl
logDebug "Done downloading and parsing snapshot versions file"
return $ getResponseBody result
-- | Turn an 'AbstractResolver' into a 'Resolver'.
makeConcreteResolver
:: HasConfig env
=> Maybe (Path Abs Dir) -- ^ root of project for resolving custom relative paths
-> AbstractResolver
-> RIO env Resolver
makeConcreteResolver root (ARResolver r) = parseCustomLocation root r
makeConcreteResolver root ar = do
snapshots <- getSnapshots
r <-
case ar of
ARResolver r -> assert False $ makeConcreteResolver root $ ARResolver r
ARGlobal -> do
config <- view configL
implicitGlobalDir <- getImplicitGlobalProjectDir config
let fp = implicitGlobalDir </> stackDotYaml
ProjectAndConfigMonoid project _ <-
loadConfigYaml (parseProjectAndConfigMonoid (parent fp)) fp
return $ projectResolver project
ARLatestNightly -> return $ ResolverSnapshot $ Nightly $ snapshotsNightly snapshots
ARLatestLTSMajor x ->
case IntMap.lookup x $ snapshotsLts snapshots of
Nothing -> throwString $ "No LTS release found with major version " ++ show x
Just y -> return $ ResolverSnapshot $ LTS x y
ARLatestLTS
| IntMap.null $ snapshotsLts snapshots -> throwString "No LTS releases found"
| otherwise ->
let (x, y) = IntMap.findMax $ snapshotsLts snapshots
in return $ ResolverSnapshot $ LTS x y
logInfo $ "Selected resolver: " <> resolverRawName r
return r
-- | Get the latest snapshot resolver available.
getLatestResolver :: HasConfig env => RIO env (ResolverWith a)
getLatestResolver = do
snapshots <- getSnapshots
let mlts = do
(x,y) <- listToMaybe (reverse (IntMap.toList (snapshotsLts snapshots)))
return (LTS x y)
snap = fromMaybe (Nightly (snapshotsNightly snapshots)) mlts
return (ResolverSnapshot snap)
-- | Create a 'Config' value when we're not using any local
-- configuration files (e.g., the script command)
configNoLocalConfig
:: (MonadLogger m, MonadUnliftIO m, MonadThrow m, MonadReader env m, HasRunner env)
=> Path Abs Dir -- ^ stack root
-> Maybe AbstractResolver
-> ConfigMonoid
-> m Config
configNoLocalConfig _ Nothing _ = throwIO NoResolverWhenUsingNoLocalConfig
configNoLocalConfig stackRoot (Just resolver) configMonoid = do
userConfigPath <- liftIO $ getFakeConfigPath stackRoot resolver
configFromConfigMonoid
stackRoot
userConfigPath
False
(Just resolver)
Nothing -- project
configMonoid
-- Interprets ConfigMonoid options.
configFromConfigMonoid
:: (MonadLogger m, MonadUnliftIO m, MonadThrow m, MonadReader env m, HasRunner env)
=> Path Abs Dir -- ^ stack root, e.g. ~/.stack
-> Path Abs File -- ^ user config file path, e.g. ~/.stack/config.yaml
-> Bool -- ^ allow locals?
-> Maybe AbstractResolver
-> Maybe (Project, Path Abs File)
-> ConfigMonoid
-> m Config
configFromConfigMonoid
configStackRoot configUserConfigPath configAllowLocals mresolver
mproject ConfigMonoid{..} = do
-- If --stack-work is passed, prefer it. Otherwise, if STACK_WORK
-- is set, use that. If neither, use the default ".stack-work"
mstackWorkEnv <- liftIO $ lookupEnv stackWorkEnvVar
configWorkDir0 <- maybe (return $(mkRelDir ".stack-work")) (liftIO . parseRelDir) mstackWorkEnv
let configWorkDir = fromFirst configWorkDir0 configMonoidWorkDir
-- This code is to handle the deprecation of latest-snapshot-url
configUrls <- case (getFirst configMonoidLatestSnapshotUrl, getFirst (urlsMonoidLatestSnapshot configMonoidUrls)) of
(Just url, Nothing) -> do
logWarn "The latest-snapshot-url field is deprecated in favor of 'urls' configuration"
return (urlsFromMonoid configMonoidUrls) { urlsLatestSnapshot = url }
_ -> return (urlsFromMonoid configMonoidUrls)
let configConnectionCount = fromFirst 8 configMonoidConnectionCount
configHideTHLoading = fromFirst True configMonoidHideTHLoading
configPackageIndices = fromFirst
[PackageIndex
{ indexName = IndexName "Hackage"
, indexLocation = "https://s3.amazonaws.com/hackage.fpcomplete.com/"
, indexType = ITHackageSecurity HackageSecurity
{ hsKeyIds =
[ "0a5c7ea47cd1b15f01f5f51a33adda7e655bc0f0b0615baa8e271f4c3351e21d"
, "1ea9ba32c526d1cc91ab5e5bd364ec5e9e8cb67179a471872f6e26f0ae773d42"
, "280b10153a522681163658cb49f632cde3f38d768b736ddbc901d99a1a772833"
, "2a96b1889dc221c17296fcc2bb34b908ca9734376f0f361660200935916ef201"
, "2c6c3627bd6c982990239487f1abd02e08a02e6cf16edb105a8012d444d870c3"
, "51f0161b906011b52c6613376b1ae937670da69322113a246a09f807c62f6921"
, "772e9f4c7db33d251d5c6e357199c819e569d130857dc225549b40845ff0890d"
, "aa315286e6ad281ad61182235533c41e806e5a787e0b6d1e7eef3f09d137d2e9"
, "fe331502606802feac15e514d9b9ea83fee8b6ffef71335479a2e68d84adc6b0"
]
, hsKeyThreshold = 3
}
, indexDownloadPrefix = "https://s3.amazonaws.com/hackage.fpcomplete.com/package/"
, indexRequireHashes = False
}]
configMonoidPackageIndices
configGHCVariant0 = getFirst configMonoidGHCVariant
configGHCBuild = getFirst configMonoidGHCBuild
configInstallGHC = fromFirst True configMonoidInstallGHC
configSkipGHCCheck = fromFirst False configMonoidSkipGHCCheck
configSkipMsys = fromFirst False configMonoidSkipMsys
configExtraIncludeDirs = configMonoidExtraIncludeDirs
configExtraLibDirs = configMonoidExtraLibDirs
configOverrideGccPath = getFirst configMonoidOverrideGccPath
configOverrideHpack = maybe HpackBundled HpackCommand $ getFirst configMonoidOverrideHpack
-- Only place in the codebase where platform is hard-coded. In theory
-- in the future, allow it to be configured.
(Platform defArch defOS) = buildPlatform
arch = fromMaybe defArch
$ getFirst configMonoidArch >>= Distribution.Text.simpleParse
os = defOS
configPlatform = Platform arch os
configRequireStackVersion = simplifyVersionRange (getIntersectingVersionRange configMonoidRequireStackVersion)
configImage = Image.imgOptsFromMonoid configMonoidImageOpts
configCompilerCheck = fromFirst MatchMinor configMonoidCompilerCheck
case arch of
OtherArch unk -> logWarn $ "Warning: Unknown value for architecture setting: " <> T.pack (show unk)
_ -> return ()
configPlatformVariant <- liftIO $
maybe PlatformVariantNone PlatformVariant <$> lookupEnv platformVariantEnvVar
let configBuild = buildOptsFromMonoid configMonoidBuildOpts
configDocker <-
dockerOptsFromMonoid (fmap fst mproject) configStackRoot mresolver configMonoidDockerOpts
configNix <- nixOptsFromMonoid configMonoidNixOpts os
configSystemGHC <-
case (getFirst configMonoidSystemGHC, nixEnable configNix) of
(Just False, True) ->
throwM NixRequiresSystemGhc
_ ->
return
(fromFirst
(dockerEnable configDocker || nixEnable configNix)
configMonoidSystemGHC)
when (isJust configGHCVariant0 && configSystemGHC) $
throwM ManualGHCVariantSettingsAreIncompatibleWithSystemGHC
rawEnv <- liftIO getEnvironment
pathsEnv <- augmentPathMap configMonoidExtraPath
(Map.fromList (map (T.pack *** T.pack) rawEnv))
origEnv <- mkEnvOverride configPlatform pathsEnv
let configEnvOverride _ = return origEnv
configLocalProgramsBase <- case getFirst configMonoidLocalProgramsBase of
Nothing -> getDefaultLocalProgramsBase configStackRoot configPlatform origEnv
Just path -> return path
platformOnlyDir <- runReaderT platformOnlyRelDir (configPlatform, configPlatformVariant)
let configLocalPrograms = configLocalProgramsBase </> platformOnlyDir
configLocalBin <-
case getFirst configMonoidLocalBinPath of
Nothing -> do
localDir <- getAppUserDataDir "local"
return $ localDir </> $(mkRelDir "bin")
Just userPath ->
(case mproject of
-- Not in a project
Nothing -> resolveDir' userPath
-- Resolves to the project dir and appends the user path if it is relative
Just (_, configYaml) -> resolveDir (parent configYaml) userPath)
-- TODO: Either catch specific exceptions or add a
-- parseRelAsAbsDirMaybe utility and use it along with
-- resolveDirMaybe.
`catchAny`
const (throwIO (NoSuchDirectory userPath))
configJobs <-
case getFirst configMonoidJobs of
Nothing -> liftIO getNumProcessors
Just i -> return i
let configConcurrentTests = fromFirst True configMonoidConcurrentTests
let configTemplateParams = configMonoidTemplateParameters
configScmInit = getFirst configMonoidScmInit
configGhcOptionsByName = configMonoidGhcOptionsByName
configGhcOptionsByCat = configMonoidGhcOptionsByCat
configSetupInfoLocations = configMonoidSetupInfoLocations
configPvpBounds = fromFirst (PvpBounds PvpBoundsNone False) configMonoidPvpBounds
configModifyCodePage = fromFirst True configMonoidModifyCodePage
configExplicitSetupDeps = configMonoidExplicitSetupDeps
configRebuildGhcOptions = fromFirst False configMonoidRebuildGhcOptions
configApplyGhcOptions = fromFirst AGOLocals configMonoidApplyGhcOptions
configAllowNewer = fromFirst False configMonoidAllowNewer
configDefaultTemplate = getFirst configMonoidDefaultTemplate
configDumpLogs = fromFirst DumpWarningLogs configMonoidDumpLogs
configSaveHackageCreds = fromFirst True configMonoidSaveHackageCreds
configIgnoreRevisionMismatch = fromFirst False configMonoidIgnoreRevisionMismatch
configAllowDifferentUser <-
case getFirst configMonoidAllowDifferentUser of
Just True -> return True
_ -> getInContainer
configPackageCache <- liftIO $ newIORef Nothing
let configMaybeProject = mproject
configRunner <- view runnerL
return Config {..}
-- | Get the default location of the local programs directory.
getDefaultLocalProgramsBase :: MonadThrow m
=> Path Abs Dir
-> Platform
-> EnvOverride
-> m (Path Abs Dir)
getDefaultLocalProgramsBase configStackRoot configPlatform override =
let
defaultBase = configStackRoot </> $(mkRelDir "programs")
in
case configPlatform of
-- For historical reasons, on Windows a subdirectory of LOCALAPPDATA is
-- used instead of a subdirectory of STACK_ROOT. Unifying the defaults would
-- mean that Windows users would manually have to move data from the old
-- location to the new one, which is undesirable.
Platform _ Windows ->
case Map.lookup "LOCALAPPDATA" $ unEnvOverride override of
Just t ->
case parseAbsDir $ T.unpack t of
Nothing -> throwM $ stringException ("Failed to parse LOCALAPPDATA environment variable (expected absolute directory): " ++ show t)
Just lad -> return $ lad </> $(mkRelDir "Programs") </> $(mkRelDir stackProgName)
Nothing -> return defaultBase
_ -> return defaultBase
-- | An environment with a subset of BuildConfig used for setup.
data MiniConfig = MiniConfig -- TODO do we really need a whole extra data type?
{ mcGHCVariant :: !GHCVariant
, mcConfig :: !Config
}
instance HasConfig MiniConfig where
configL = lens mcConfig (\x y -> x { mcConfig = y })
instance HasPlatform MiniConfig
instance HasGHCVariant MiniConfig where
ghcVariantL = lens mcGHCVariant (\x y -> x { mcGHCVariant = y })
instance HasRunner MiniConfig where
runnerL = configL.runnerL
instance HasLogFunc MiniConfig where
logFuncL = configL.logFuncL
-- | Load the 'MiniConfig'.
loadMiniConfig :: Config -> MiniConfig
loadMiniConfig config = MiniConfig
{ mcGHCVariant = configGHCVariantDefault config
, mcConfig = config
}
configGHCVariantDefault :: Config -> GHCVariant -- FIXME why not just use this as the HasGHCVariant instance for Config?
configGHCVariantDefault = fromMaybe GHCStandard . configGHCVariant0
-- Load the configuration, using environment variables, and defaults as
-- necessary.
loadConfigMaybeProject
:: HasRunner env
=> ConfigMonoid
-- ^ Config monoid from parsed command-line arguments
-> Maybe AbstractResolver
-- ^ Override resolver
-> LocalConfigStatus (Project, Path Abs File, ConfigMonoid)
-- ^ Project config to use, if any
-> RIO env LoadConfig
loadConfigMaybeProject configArgs mresolver mproject = do
(stackRoot, userOwnsStackRoot) <- determineStackRootAndOwnership configArgs
let loadHelper mproject' = do
userConfigPath <- getDefaultUserConfigPath stackRoot
extraConfigs0 <- getExtraConfigs userConfigPath >>=
mapM (\file -> loadConfigYaml (parseConfigMonoid (parent file)) file)
let extraConfigs =
-- non-project config files' existence of a docker section should never default docker
-- to enabled, so make it look like they didn't exist
map (\c -> c {configMonoidDockerOpts =
(configMonoidDockerOpts c) {dockerMonoidDefaultEnable = Any False}})
extraConfigs0
configFromConfigMonoid
stackRoot
userConfigPath
True -- allow locals
mresolver
(fmap (\(x, y, _) -> (x, y)) mproject')
$ mconcat $ configArgs
: maybe id (\(_, _, projectConfig) -> (projectConfig:)) mproject' extraConfigs
config <-
case mproject of
LCSNoConfig _ -> configNoLocalConfig stackRoot mresolver configArgs
LCSProject project -> loadHelper $ Just project
LCSNoProject -> loadHelper Nothing
unless (fromCabalVersion (mkVersion' Meta.version) `withinRange` configRequireStackVersion config)
(throwM (BadStackVersionException (configRequireStackVersion config)))
let mprojectRoot = fmap (\(_, fp, _) -> parent fp) mproject
unless (configAllowDifferentUser config) $ do
unless userOwnsStackRoot $
throwM (UserDoesn'tOwnDirectory stackRoot)
forM_ mprojectRoot $ \dir ->
checkOwnership (dir </> configWorkDir config)
return LoadConfig
{ lcConfig = config
, lcLoadBuildConfig = runRIO config . loadBuildConfig mproject mresolver
, lcProjectRoot =
case mprojectRoot of
LCSProject fp -> Just fp
LCSNoProject -> Nothing
LCSNoConfig _ -> Nothing
}
-- | Load the configuration, using current directory, environment variables,
-- and defaults as necessary. The passed @Maybe (Path Abs File)@ is an
-- override for the location of the project's stack.yaml.
loadConfig :: HasRunner env
=> ConfigMonoid
-- ^ Config monoid from parsed command-line arguments
-> Maybe AbstractResolver
-- ^ Override resolver
-> StackYamlLoc (Path Abs File)
-- ^ Override stack.yaml
-> RIO env LoadConfig
loadConfig configArgs mresolver mstackYaml =
loadProjectConfig mstackYaml >>= loadConfigMaybeProject configArgs mresolver
-- | Load the build configuration, adds build-specific values to config loaded by @loadConfig@.
-- values.
loadBuildConfig :: LocalConfigStatus (Project, Path Abs File, ConfigMonoid)
-> Maybe AbstractResolver -- override resolver
-> Maybe (CompilerVersion 'CVWanted) -- override compiler
-> RIO Config BuildConfig
loadBuildConfig mproject maresolver mcompiler = do
config <- ask
-- If provided, turn the AbstractResolver from the command line
-- into a Resolver that can be used below.
-- The maresolver and mcompiler are provided on the command
-- line. In order to properly deal with an AbstractResolver, we
-- need a base directory (to deal with custom snapshot relative
-- paths). We consider the current working directory to be the
-- correct base. Let's calculate the mresolver first.
mresolver <- forM maresolver $ \aresolver -> do
-- For display purposes only
let name =
case aresolver of
ARResolver resolver -> resolverRawName resolver
ARLatestNightly -> "nightly"
ARLatestLTS -> "lts"
ARLatestLTSMajor x -> T.pack $ "lts-" ++ show x
ARGlobal -> "global"
logDebug ("Using resolver: " <> name <> " specified on command line")
-- In order to resolve custom snapshots, we need a base
-- directory to deal with relative paths. For the case of
-- LCSNoConfig, we use the parent directory provided. This is
-- because, when running the script interpreter, we assume the
-- resolver is in fact coming from the file contents itself and
-- not the command line. For the project and non project cases,
-- however, we use the current directory.
base <-
case mproject of
LCSNoConfig parentDir -> return parentDir
LCSProject _ -> resolveDir' "."
LCSNoProject -> resolveDir' "."
makeConcreteResolver (Just base) aresolver
(project', stackYamlFP) <- case mproject of
LCSProject (project, fp, _) -> do
forM_ (projectUserMsg project) (logWarn . T.pack)
return (project, fp)
LCSNoConfig _ -> do
p <- assert (isJust mresolver) (getEmptyProject mresolver)
return (p, configUserConfigPath config)
LCSNoProject -> do
logDebug "Run from outside a project, using implicit global project config"
destDir <- getImplicitGlobalProjectDir config
let dest :: Path Abs File
dest = destDir </> stackDotYaml
dest' :: FilePath
dest' = toFilePath dest
ensureDir destDir
exists <- doesFileExist dest
if exists
then do
ProjectAndConfigMonoid project _ <- loadConfigYaml (parseProjectAndConfigMonoid destDir) dest
when (view terminalL config) $
case maresolver of
Nothing ->
logDebug ("Using resolver: " <> resolverRawName (projectResolver project) <>
" from implicit global project's config file: " <> T.pack dest')
Just _ -> return ()
return (project, dest)
else do
logInfo ("Writing implicit global project config file to: " <> T.pack dest')
logInfo "Note: You can change the snapshot via the resolver field there."
p <- getEmptyProject mresolver
liftIO $ do
S.writeFile dest' $ S.concat
[ "# This is the implicit global project's config file, which is only used when\n"
, "# 'stack' is run outside of a real project. Settings here do _not_ act as\n"
, "# defaults for all projects. To change stack's default settings, edit\n"
, "# '", encodeUtf8 (T.pack $ toFilePath $ configUserConfigPath config), "' instead.\n"
, "#\n"
, "# For more information about stack's configuration, see\n"
, "# http://docs.haskellstack.org/en/stable/yaml_configuration/\n"
, "#\n"
, Yaml.encode p]
S.writeFile (toFilePath $ parent dest </> $(mkRelFile "README.txt")) $ S.concat
[ "This is the implicit global project, which is used only when 'stack' is run\n"
, "outside of a real project.\n" ]
return (p, dest)
let project = project'
{ projectCompiler = mcompiler <|> projectCompiler project'
, projectResolver = fromMaybe (projectResolver project') mresolver
}
sd0 <- runRIO config $ loadResolver $ projectResolver project
let sd = maybe id setCompilerVersion (projectCompiler project) sd0
extraPackageDBs <- mapM resolveDir' (projectExtraPackageDBs project)
return BuildConfig
{ bcConfig = config
, bcSnapshotDef = sd
, bcGHCVariant = configGHCVariantDefault config
, bcPackages = projectPackages project
, bcDependencies = projectDependencies project
, bcExtraPackageDBs = extraPackageDBs
, bcStackYaml = stackYamlFP
, bcFlags = projectFlags project
, bcImplicitGlobal =
case mproject of
LCSNoProject -> True
LCSProject _ -> False
LCSNoConfig _ -> False
}
where
getEmptyProject :: Maybe Resolver -> RIO Config Project
getEmptyProject mresolver = do
r <- case mresolver of
Just resolver -> do
logInfo ("Using resolver: " <> resolverRawName resolver <> " specified on command line")
return resolver
Nothing -> do
r'' <- getLatestResolver
logInfo ("Using latest snapshot resolver: " <> resolverRawName r'')
return r''
return Project
{ projectUserMsg = Nothing
, projectPackages = []
, projectDependencies = []
, projectFlags = mempty
, projectResolver = r
, projectCompiler = Nothing
, projectExtraPackageDBs = []
}
-- | Get packages from EnvConfig, downloading and cloning as necessary.
-- If the packages have already been downloaded, this uses a cached value (
getLocalPackages :: forall env. HasEnvConfig env => RIO env LocalPackages
getLocalPackages = do
cacheRef <- view $ envConfigL.to envConfigPackagesRef
mcached <- liftIO $ readIORef cacheRef
case mcached of
Just cached -> return cached
Nothing -> withCabalLoader $ \loadFromIndex -> do
root <- view projectRootL
bc <- view buildConfigL
packages <- do
let withName lpv = (lpvName lpv, lpv)
map withName . concat <$> mapM (parseMultiCabalFiles root True) (bcPackages bc)
let wrapGPD (gpd, loc) =
let PackageIdentifier name _version =
fromCabalPackageIdentifier
$ C.package
$ C.packageDescription gpd
in (name, (gpd, loc))
deps <- (map wrapGPD . concat)
<$> mapM (parseMultiCabalFilesIndex loadFromIndex root) (bcDependencies bc)
checkDuplicateNames $
map (second (PLOther . lpvLoc)) packages ++
map (second snd) deps
return LocalPackages
{ lpProject = Map.fromList packages
, lpDependencies = Map.fromList deps
}
-- | Check if there are any duplicate package names and, if so, throw an
-- exception.
checkDuplicateNames :: MonadThrow m => [(PackageName, PackageLocationIndex FilePath)] -> m ()
checkDuplicateNames locals =
case filter hasMultiples $ Map.toList $ Map.fromListWith (++) $ map (second return) locals of
[] -> return ()
x -> throwM $ DuplicateLocalPackageNames x
where
hasMultiples (_, _:_:_) = True
hasMultiples _ = False
-- | Get the stack root, e.g. @~/.stack@, and determine whether the user owns it.
--
-- On Windows, the second value is always 'True'.
determineStackRootAndOwnership
:: (MonadIO m)
=> ConfigMonoid
-- ^ Parsed command-line arguments
-> m (Path Abs Dir, Bool)
determineStackRootAndOwnership clArgs = liftIO $ do
stackRoot <- do
case getFirst (configMonoidStackRoot clArgs) of
Just x -> return x
Nothing -> do
mstackRoot <- lookupEnv stackRootEnvVar
case mstackRoot of
Nothing -> getAppUserDataDir stackProgName
Just x -> case parseAbsDir x of
Nothing -> throwString ("Failed to parse STACK_ROOT environment variable (expected absolute directory): " ++ show x)
Just parsed -> return parsed
(existingStackRootOrParentDir, userOwnsIt) <- do
mdirAndOwnership <- findInParents getDirAndOwnership stackRoot
case mdirAndOwnership of
Just x -> return x
Nothing -> throwIO (BadStackRoot stackRoot)
when (existingStackRootOrParentDir /= stackRoot) $
if userOwnsIt
then ensureDir stackRoot
else throwIO $
Won'tCreateStackRootInDirectoryOwnedByDifferentUser
stackRoot
existingStackRootOrParentDir
stackRoot' <- canonicalizePath stackRoot
return (stackRoot', userOwnsIt)
-- | @'checkOwnership' dir@ throws 'UserDoesn'tOwnDirectory' if @dir@
-- isn't owned by the current user.
--
-- If @dir@ doesn't exist, its parent directory is checked instead.
-- If the parent directory doesn't exist either, @'NoSuchDirectory' ('parent' dir)@
-- is thrown.
checkOwnership :: (MonadIO m) => Path Abs Dir -> m ()
checkOwnership dir = do
mdirAndOwnership <- firstJustM getDirAndOwnership [dir, parent dir]
case mdirAndOwnership of
Just (_, True) -> return ()
Just (dir', False) -> throwIO (UserDoesn'tOwnDirectory dir')
Nothing ->
(throwIO . NoSuchDirectory) $ (toFilePathNoTrailingSep . parent) dir
-- | @'getDirAndOwnership' dir@ returns @'Just' (dir, 'True')@ when @dir@
-- exists and the current user owns it in the sense of 'isOwnedByUser'.
getDirAndOwnership
:: (MonadIO m)
=> Path Abs Dir
-> m (Maybe (Path Abs Dir, Bool))
getDirAndOwnership dir = liftIO $ forgivingAbsence $ do
ownership <- isOwnedByUser dir
return (dir, ownership)
-- | Check whether the current user (determined with 'getEffectiveUserId') is
-- the owner for the given path.
--
-- Will always return 'True' on Windows.
isOwnedByUser :: MonadIO m => Path Abs t -> m Bool
isOwnedByUser path = liftIO $ do
if osIsWindows
then return True
else do
fileStatus <- getFileStatus (toFilePath path)
user <- getEffectiveUserID
return (user == fileOwner fileStatus)
where
#ifdef WINDOWS
osIsWindows = True
#else
osIsWindows = False
#endif
-- | 'True' if we are currently running inside a Docker container.
getInContainer :: (MonadIO m) => m Bool
getInContainer = liftIO (isJust <$> lookupEnv inContainerEnvVar)
-- | 'True' if we are currently running inside a Nix.
getInNixShell :: (MonadIO m) => m Bool
getInNixShell = liftIO (isJust <$> lookupEnv inNixShellEnvVar)
-- | Determine the extra config file locations which exist.
--
-- Returns most local first
getExtraConfigs :: (MonadIO m, MonadLogger m)
=> Path Abs File -- ^ use config path
-> m [Path Abs File]
getExtraConfigs userConfigPath = do
defaultStackGlobalConfigPath <- getDefaultGlobalConfigPath
liftIO $ do
env <- getEnvironment
mstackConfig <-
maybe (return Nothing) (fmap Just . parseAbsFile)
$ lookup "STACK_CONFIG" env
mstackGlobalConfig <-
maybe (return Nothing) (fmap Just . parseAbsFile)
$ lookup "STACK_GLOBAL_CONFIG" env
filterM doesFileExist
$ fromMaybe userConfigPath mstackConfig
: maybe [] return (mstackGlobalConfig <|> defaultStackGlobalConfigPath)
-- | Load and parse YAML from the given config file. Throws
-- 'ParseConfigFileException' when there's a decoding error.
loadConfigYaml
:: (MonadIO m, MonadLogger m)
=> (Value -> Yaml.Parser (WithJSONWarnings a)) -> Path Abs File -> m a
loadConfigYaml parser path = do
eres <- loadYaml parser path
case eres of
Left err -> liftIO $ throwM (ParseConfigFileException path err)
Right res -> return res
-- | Load and parse YAML from the given file.
loadYaml
:: (MonadIO m, MonadLogger m)
=> (Value -> Yaml.Parser (WithJSONWarnings a)) -> Path Abs File -> m (Either Yaml.ParseException a)
loadYaml parser path = do
eres <- liftIO $ Yaml.decodeFileEither (toFilePath path)
case eres of
Left err -> return (Left err)
Right val ->
case Yaml.parseEither parser val of
Left err -> return (Left (Yaml.AesonException err))
Right (WithJSONWarnings res warnings) -> do
logJSONWarnings (toFilePath path) warnings
return (Right res)
-- | Get the location of the project config file, if it exists.
getProjectConfig :: (MonadIO m, MonadThrow m, MonadLogger m)
=> StackYamlLoc (Path Abs File)
-- ^ Override stack.yaml
-> m (LocalConfigStatus (Path Abs File))
getProjectConfig (SYLOverride stackYaml) = return $ LCSProject stackYaml
getProjectConfig SYLDefault = do
env <- liftIO getEnvironment
case lookup "STACK_YAML" env of
Just fp -> do
logInfo "Getting project config file from STACK_YAML environment"
liftM LCSProject $ resolveFile' fp
Nothing -> do
currDir <- getCurrentDir
maybe LCSNoProject LCSProject <$> findInParents getStackDotYaml currDir
where
getStackDotYaml dir = do
let fp = dir </> stackDotYaml
fp' = toFilePath fp
logDebug $ "Checking for project config at: " <> T.pack fp'
exists <- doesFileExist fp
if exists
then return $ Just fp
else return Nothing
getProjectConfig (SYLNoConfig parentDir) = return (LCSNoConfig parentDir)
data LocalConfigStatus a
= LCSNoProject
| LCSProject a
| LCSNoConfig !(Path Abs Dir)
-- ^ parent directory for making a concrete resolving
deriving (Show,Functor,Foldable,Traversable)
-- | Find the project config file location, respecting environment variables
-- and otherwise traversing parents. If no config is found, we supply a default
-- based on current directory.
loadProjectConfig :: (MonadIO m, MonadThrow m, MonadLogger m)
=> StackYamlLoc (Path Abs File)
-- ^ Override stack.yaml
-> m (LocalConfigStatus (Project, Path Abs File, ConfigMonoid))
loadProjectConfig mstackYaml = do
mfp <- getProjectConfig mstackYaml
case mfp of
LCSProject fp -> do
currDir <- getCurrentDir
logDebug $ "Loading project config file " <>
T.pack (maybe (toFilePath fp) toFilePath (stripProperPrefix currDir fp))
LCSProject <$> load fp
LCSNoProject -> do
logDebug "No project config file found, using defaults."
return LCSNoProject
LCSNoConfig mparentDir -> do
logDebug "Ignoring config files"
return (LCSNoConfig mparentDir)
where
load fp = do
ProjectAndConfigMonoid project config <- loadConfigYaml (parseProjectAndConfigMonoid (parent fp)) fp
return (project, fp, config)
-- | Get the location of the default stack configuration file.
-- If a file already exists at the deprecated location, its location is returned.
-- Otherwise, the new location is returned.
getDefaultGlobalConfigPath
:: (MonadIO m, MonadLogger m)
=> m (Maybe (Path Abs File))
getDefaultGlobalConfigPath =
case (defaultGlobalConfigPath, defaultGlobalConfigPathDeprecated) of
(Just new,Just old) ->
liftM (Just . fst ) $
tryDeprecatedPath
(Just "non-project global configuration file")
doesFileExist
new
old
(Just new,Nothing) -> return (Just new)
_ -> return Nothing
-- | Get the location of the default user configuration file.
-- If a file already exists at the deprecated location, its location is returned.
-- Otherwise, the new location is returned.
getDefaultUserConfigPath
:: (MonadIO m, MonadLogger m)
=> Path Abs Dir -> m (Path Abs File)
getDefaultUserConfigPath stackRoot = do
(path, exists) <- tryDeprecatedPath
(Just "non-project configuration file")
doesFileExist
(defaultUserConfigPath stackRoot)
(defaultUserConfigPathDeprecated stackRoot)
unless exists $ do
ensureDir (parent path)
liftIO $ S.writeFile (toFilePath path) defaultConfigYaml
return path
-- | Get a fake configuration file location, used when doing a "no
-- config" run (the script command).
getFakeConfigPath
:: (MonadIO m, MonadThrow m)
=> Path Abs Dir -- ^ stack root
-> AbstractResolver
-> m (Path Abs File)
getFakeConfigPath stackRoot ar = do
asString <-
case ar of
ARResolver r -> return $ T.unpack $ resolverRawName r
_ -> throwM $ InvalidResolverForNoLocalConfig $ show ar
-- This takeWhile is an ugly hack. We don't actually need this
-- path for anything useful. But if we take the raw value for
-- a custom snapshot, it will be unparseable in a PATH.
-- Therefore, we add in this silly "strip up to :".
-- Better would be to defer figuring out this value until
-- after we have a fully loaded snapshot with a hash.
asDir <- parseRelDir $ takeWhile (/= ':') asString
let full = stackRoot </> $(mkRelDir "script") </> asDir </> $(mkRelFile "config.yaml")
ensureDir (parent full)
return full
packagesParser :: Parser [String]
packagesParser = many (strOption (long "package" <> help "Additional packages that must be installed"))
defaultConfigYaml :: S.ByteString
defaultConfigYaml = S.intercalate "\n"
[ "# This file contains default non-project-specific settings for 'stack', used"
, "# in all projects. For more information about stack's configuration, see"
, "# http://docs.haskellstack.org/en/stable/yaml_configuration/"
, ""
, "# The following parameters are used by \"stack new\" to automatically fill fields"
, "# in the cabal config. We recommend uncommenting them and filling them out if"
, "# you intend to use 'stack new'."
, "# See https://docs.haskellstack.org/en/stable/yaml_configuration/#templates"
, "templates:"
, " params:"
, "# author-name:"
, "# author-email:"
, "# copyright:"
, "# github-username:"
]