module Stack.Build
(build
,withLoadPackage
,mkBaseConfigOpts
,queryBuildInfo)
where
import Control.Monad
import Control.Monad.Catch (MonadCatch, MonadMask)
import Control.Monad.IO.Class
import Control.Monad.Logger
import Control.Monad.Reader (MonadReader, asks)
import Control.Monad.Trans.Resource
import Data.Aeson (Value (Object, Array), (.=), object)
import Data.Function
import qualified Data.HashMap.Strict as HM
import Data.IORef.RunOnce (runOnce)
import Data.List ((\\))
import Data.List.Extra (groupSort)
import Data.List.NonEmpty (NonEmpty(..))
import qualified Data.List.NonEmpty as NE
import qualified Data.Map as Map
import Data.Map.Strict (Map)
import Data.Monoid
import Data.Set (Set)
import qualified Data.Set as Set
import Data.Text (Text)
import qualified Data.Text as T
import Data.Text.Encoding (decodeUtf8)
import qualified Data.Text.IO as TIO
import Data.Text.Read (decimal)
import qualified Data.Vector as V
import qualified Data.Yaml as Yaml
import Network.HTTP.Client.Conduit (HasHttpManager)
import Path
import Prelude hiding (FilePath, writeFile)
import Stack.Build.ConstructPlan
import Stack.Build.Execute
import Stack.Build.Haddock
import Stack.Build.Installed
import Stack.Build.Source
import Stack.Build.Target
import Stack.Fetch as Fetch
import Stack.GhcPkg
import Stack.Package
import Stack.Types
import Stack.Types.Internal
import System.FileLock (FileLock, unlockFile)
#ifdef WINDOWS
import System.Win32.Console (setConsoleCP, setConsoleOutputCP, getConsoleCP, getConsoleOutputCP)
import qualified Control.Monad.Catch as Catch
#endif
type M env m = (MonadIO m,MonadReader env m,HasHttpManager env,HasBuildConfig env,MonadLogger m,MonadBaseControl IO m,MonadCatch m,MonadMask m,HasLogLevel env,HasEnvConfig env,HasTerminal env)
build :: M env m
=> (Set (Path Abs File) -> IO ())
-> Maybe FileLock
-> BuildOpts
-> m ()
build setLocalFiles mbuildLk bopts = fixCodePage $ do
menv <- getMinimalEnvOverride
(_, mbp, locals, extraToBuild, sourceMap) <- loadSourceMap NeedTargets bopts
stackYaml <- asks $ bcStackYaml . getBuildConfig
liftIO $ setLocalFiles
$ Set.insert stackYaml
$ Set.unions
$ map lpFiles locals
(installedMap, globalDumpPkgs, snapshotDumpPkgs, localDumpPkgs) <-
getInstalled menv
GetInstalledOpts
{ getInstalledProfiling = profiling
, getInstalledHaddock = shouldHaddockDeps bopts }
sourceMap
baseConfigOpts <- mkBaseConfigOpts bopts
plan <- withLoadPackage menv $ \loadPackage ->
constructPlan mbp baseConfigOpts locals extraToBuild localDumpPkgs loadPackage sourceMap installedMap
case (mbuildLk, allLocal plan) of
(Just lk,True) -> do $logDebug "All installs are local; releasing snapshot lock early."
liftIO $ unlockFile lk
_ -> return ()
warnIfExecutablesWithSameNameCouldBeOverwritten locals plan
when (boptsPreFetch bopts) $
preFetch plan
if boptsDryrun bopts
then printPlan plan
else executePlan menv bopts baseConfigOpts locals
globalDumpPkgs
snapshotDumpPkgs
localDumpPkgs
installedMap
plan
where
profiling = boptsLibProfile bopts || boptsExeProfile bopts
allLocal :: Plan -> Bool
allLocal =
all (== Local) .
map taskLocation .
Map.elems .
planTasks
warnIfExecutablesWithSameNameCouldBeOverwritten
:: MonadLogger m => [LocalPackage] -> Plan -> m ()
warnIfExecutablesWithSameNameCouldBeOverwritten locals plan =
forM_ (Map.toList warnings) $ \(exe,(toBuild,otherLocals)) -> do
let exe_s
| length toBuild > 1 = "several executables with the same name:"
| otherwise = "executable"
exesText pkgs =
T.intercalate
", "
["'" <> packageNameText p <> ":" <> exe <> "'" | p <- pkgs]
($logWarn . T.unlines . concat)
[ [ "Building " <> exe_s <> " " <> exesText toBuild <> "." ]
, [ "Only one of them will be available via 'stack exec' or locally installed."
| length toBuild > 1
]
, [ "Other executables with the same name might be overwritten: " <>
exesText otherLocals <> "."
| not (null otherLocals)
]
]
where
warnings :: Map Text ([PackageName],[PackageName])
warnings =
Map.mapMaybe
(\(pkgsToBuild,localPkgs) ->
case (pkgsToBuild,NE.toList localPkgs \\ NE.toList pkgsToBuild) of
(_ :| [],[]) ->
Nothing
(_,otherLocals) ->
Just (NE.toList pkgsToBuild,otherLocals))
(Map.intersectionWith (,) exesToBuild localExes)
exesToBuild :: Map Text (NonEmpty PackageName)
exesToBuild =
collect
[ (exe,pkgName)
| (pkgName,task) <- Map.toList (planTasks plan)
, isLocal task
, exe <- (Set.toList . exeComponents . lpComponents . taskLP) task
]
where
isLocal Task{taskType = (TTLocal _)} = True
isLocal _ = False
taskLP Task{taskType = (TTLocal lp)} = lp
taskLP _ = error "warnIfExecutablesWithSameNameCouldBeOverwritten/taskLP: task isn't local"
localExes :: Map Text (NonEmpty PackageName)
localExes =
collect
[ (exe,packageName pkg)
| pkg <- map lpPackage locals
, exe <- Set.toList (packageExes pkg)
]
collect :: Ord k => [(k,v)] -> Map k (NonEmpty v)
collect = Map.map NE.fromList . Map.fromDistinctAscList . groupSort
mkBaseConfigOpts :: (MonadIO m, MonadReader env m, HasEnvConfig env, MonadThrow m)
=> BuildOpts -> m BaseConfigOpts
mkBaseConfigOpts bopts = do
snapDBPath <- packageDatabaseDeps
localDBPath <- packageDatabaseLocal
snapInstallRoot <- installationRootDeps
localInstallRoot <- installationRootLocal
packageExtraDBs <- packageDatabaseExtra
return BaseConfigOpts
{ bcoSnapDB = snapDBPath
, bcoLocalDB = localDBPath
, bcoSnapInstallRoot = snapInstallRoot
, bcoLocalInstallRoot = localInstallRoot
, bcoBuildOpts = bopts
, bcoExtraDBs = packageExtraDBs
}
withLoadPackage :: ( MonadIO m
, HasHttpManager env
, MonadReader env m
, MonadBaseControl IO m
, MonadCatch m
, MonadLogger m
, HasEnvConfig env)
=> EnvOverride
-> ((PackageName -> Version -> Map FlagName Bool -> IO Package) -> m a)
-> m a
withLoadPackage menv inner = do
econfig <- asks getEnvConfig
withCabalLoader' <- runOnce $ withCabalLoader menv $ \cabalLoader ->
inner $ \name version flags -> do
bs <- cabalLoader $ PackageIdentifier name version
(_warnings,pkg) <- readPackageBS (depPackageConfig econfig flags) bs
return pkg
withCabalLoader'
where
depPackageConfig :: EnvConfig -> Map FlagName Bool -> PackageConfig
depPackageConfig econfig flags = PackageConfig
{ packageConfigEnableTests = False
, packageConfigEnableBenchmarks = False
, packageConfigFlags = flags
, packageConfigCompilerVersion = envConfigCompilerVersion econfig
, packageConfigPlatform = configPlatform (getConfig econfig)
}
fixCodePage :: M env m => m a -> m a
#ifdef WINDOWS
fixCodePage inner = do
mcp <- asks $ configModifyCodePage . getConfig
ec <- asks getEnvConfig
if mcp && getGhcVersion (envConfigCompilerVersion ec) < $(mkVersion "7.10.3")
then fixCodePage'
else inner
where
fixCodePage' = do
origCPI <- liftIO getConsoleCP
origCPO <- liftIO getConsoleOutputCP
let setInput = origCPI /= expected
setOutput = origCPO /= expected
fixInput
| setInput = Catch.bracket_
(liftIO $ do
setConsoleCP expected)
(liftIO $ setConsoleCP origCPI)
| otherwise = id
fixOutput
| setInput = Catch.bracket_
(liftIO $ do
setConsoleOutputCP expected)
(liftIO $ setConsoleOutputCP origCPO)
| otherwise = id
case (setInput, setOutput) of
(False, False) -> return ()
(True, True) -> warn ""
(True, False) -> warn " input"
(False, True) -> warn " output"
fixInput $ fixOutput inner
expected = 65001
warn typ = $logInfo $ T.concat
[ "Setting"
, typ
, " codepage to UTF-8 (65001) to ensure correct output from GHC"
]
#else
fixCodePage = id
#endif
queryBuildInfo :: M env m
=> [Text]
-> m ()
queryBuildInfo selectors0 =
rawBuildInfo
>>= select id selectors0
>>= liftIO . TIO.putStrLn . decodeUtf8 . Yaml.encode
where
select _ [] value = return value
select front (sel:sels) value =
case value of
Object o ->
case HM.lookup sel o of
Nothing -> err "Selector not found"
Just value' -> cont value'
Array v ->
case decimal sel of
Right (i, "")
| i >= 0 && i < V.length v -> cont $ v V.! i
| otherwise -> err "Index out of range"
_ -> err "Encountered array and needed numeric selector"
_ -> err $ "Cannot apply selector to " ++ show value
where
cont = select (front . (sel:)) sels
err msg = error $ msg ++ ": " ++ show (front [sel])
rawBuildInfo :: M env m => m Value
rawBuildInfo = do
(_, _mbp, locals, _extraToBuild, _sourceMap) <- loadSourceMap NeedTargets defaultBuildOpts
return $ object
[ "locals" .= Object (HM.fromList $ map localToPair locals)
]
where
localToPair lp =
(T.pack $ packageNameString $ packageName p, value)
where
p = lpPackage lp
value = object
[ "version" .= packageVersion p
, "path" .= toFilePath (lpDir lp)
]