{-# LANGUAGE NoImplicitPrelude #-} {-# LANGUAGE CPP #-} {-# LANGUAGE ConstraintKinds #-} {-# LANGUAGE DeriveDataTypeable #-} {-# LANGUAGE DeriveGeneric #-} {-# LANGUAGE FlexibleContexts #-} {-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE ScopedTypeVariables #-} {-# LANGUAGE TemplateHaskell #-} {-# LANGUAGE TupleSections #-} {-# LANGUAGE ViewPatterns #-} -- | Build the project. module Stack.Build (build ,withLoadPackage ,mkBaseConfigOpts ,queryBuildInfo ,splitObjsWarning ,CabalVersionException(..)) where import Stack.Prelude import Data.Aeson (Value (Object, Array), (.=), object) import qualified Data.HashMap.Strict as HM 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 qualified Data.Set as Set 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 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.Package import Stack.PackageLocation (parseSingleCabalFileIndex) import Stack.Types.Build import Stack.Types.BuildPlan import Stack.Types.Config import Stack.Types.FlagName import Stack.Types.Package import Stack.Types.PackageIdentifier import Stack.Types.PackageName import Stack.Types.Version #ifdef WINDOWS import Stack.Types.Compiler #endif import System.FileLock (FileLock, unlockFile) #ifdef WINDOWS import System.Win32.Console (setConsoleCP, setConsoleOutputCP, getConsoleCP, getConsoleOutputCP) #endif -- | Build. -- -- If a buildLock is passed there is an important contract here. That lock must -- protect the snapshot, and it must be safe to unlock it if there are no further -- modifications to the snapshot to be performed by this build. build :: HasEnvConfig env => (Set (Path Abs File) -> IO ()) -- ^ callback after discovering all local files -> Maybe FileLock -> BuildOptsCLI -> RIO env () build setLocalFiles mbuildLk boptsCli = fixCodePage $ do bopts <- view buildOptsL let profiling = boptsLibProfile bopts || boptsExeProfile bopts let symbols = not (boptsLibStrip bopts || boptsExeStrip bopts) menv <- getMinimalEnvOverride (targets, mbp, locals, extraToBuild, sourceMap) <- loadSourceMapFull NeedTargets boptsCli -- Set local files, necessary for file watching stackYaml <- view stackYamlL liftIO $ setLocalFiles $ Set.insert stackYaml $ Set.unions -- The `locals` value above only contains local project -- packages, not local dependencies. This will get _all_ -- of the local files we're interested in -- watching. Arguably, we should not bother watching repo -- and archive files, since those shouldn't -- change. That's a possible optimization to consider. [lpFiles lp | PSFiles lp _ <- Map.elems sourceMap] (installedMap, globalDumpPkgs, snapshotDumpPkgs, localDumpPkgs) <- getInstalled menv GetInstalledOpts { getInstalledProfiling = profiling , getInstalledHaddock = shouldHaddockDeps bopts , getInstalledSymbols = symbols } sourceMap baseConfigOpts <- mkBaseConfigOpts boptsCli plan <- withLoadPackage $ \loadPackage -> constructPlan mbp baseConfigOpts locals extraToBuild localDumpPkgs loadPackage sourceMap installedMap (boptsCLIInitialBuildSteps boptsCli) allowLocals <- view $ configL.to configAllowLocals unless allowLocals $ case justLocals plan of [] -> return () localsIdents -> throwM $ LocalPackagesPresent localsIdents -- If our work to do is all local, let someone else have a turn with the snapshot. -- They won't damage what's already in there. case (mbuildLk, allLocal plan) of -- NOTE: This policy is too conservative. In the future we should be able to -- schedule unlocking as an Action that happens after all non-local actions are -- complete. (Just lk,True) -> do logDebug "All installs are local; releasing snapshot lock early." liftIO $ unlockFile lk _ -> return () checkCabalVersion warnAboutSplitObjs bopts warnIfExecutablesWithSameNameCouldBeOverwritten locals plan when (boptsPreFetch bopts) $ preFetch plan if boptsCLIDryrun boptsCli then printPlan plan else executePlan menv boptsCli baseConfigOpts locals globalDumpPkgs snapshotDumpPkgs localDumpPkgs installedMap targets plan -- | If all the tasks are local, they don't mutate anything outside of our local directory. allLocal :: Plan -> Bool allLocal = all (== Local) . map taskLocation . Map.elems . planTasks justLocals :: Plan -> [PackageIdentifier] justLocals = map taskProvides . filter ((== Local) . taskLocation) . Map.elems . planTasks checkCabalVersion :: HasEnvConfig env => RIO env () checkCabalVersion = do allowNewer <- view $ configL.to configAllowNewer cabalVer <- view cabalVersionL -- https://github.com/haskell/cabal/issues/2023 when (allowNewer && cabalVer < $(mkVersion "1.22")) $ throwM $ CabalVersionException $ "Error: --allow-newer requires at least Cabal version 1.22, but version " ++ versionString cabalVer ++ " was found." newtype CabalVersionException = CabalVersionException { unCabalVersionException :: String } deriving (Typeable) instance Show CabalVersionException where show = unCabalVersionException instance Exception CabalVersionException -- | See https://github.com/commercialhaskell/stack/issues/1198. warnIfExecutablesWithSameNameCouldBeOverwritten :: MonadLogger m => [LocalPackage] -> Plan -> m () warnIfExecutablesWithSameNameCouldBeOverwritten locals plan = do logDebug "Checking if we are going to build multiple executables with the same name" 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 -- Cases of several local packages having executables with the same name. -- The Map entries have the following form: -- -- executable name: ( package names for executables that are being built -- , package names for other local packages that have an -- executable with the same name -- ) warnings :: Map Text ([PackageName],[PackageName]) warnings = Map.mapMaybe (\(pkgsToBuild,localPkgs) -> case (pkgsToBuild,NE.toList localPkgs \\ NE.toList pkgsToBuild) of (_ :| [],[]) -> -- We want to build the executable of single local package -- and there are no other local packages with an executable of -- the same name. Nothing to warn about, ignore. Nothing (_,otherLocals) -> -- We could be here for two reasons (or their combination): -- 1) We are building two or more executables with the same -- name that will end up overwriting each other. -- 2) In addition to the executable(s) that we want to build -- there are other local packages with an executable of the -- same name that might get overwritten. -- Both cases warrant a warning. Just (NE.toList pkgsToBuild,otherLocals)) (Map.intersectionWith (,) exesToBuild localExes) exesToBuild :: Map Text (NonEmpty PackageName) exesToBuild = collect [ (exe,pkgName) | (pkgName,task) <- Map.toList (planTasks plan) , TTFiles lp _ <- [taskType task] -- FIXME analyze logic here, do we need to check for Local? , exe <- (Set.toList . exeComponents . lpComponents) lp ] 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 warnAboutSplitObjs :: MonadLogger m => BuildOpts -> m () warnAboutSplitObjs bopts | boptsSplitObjs bopts = do logWarn $ "Building with --split-objs is enabled. " <> T.pack splitObjsWarning warnAboutSplitObjs _ = return () splitObjsWarning :: String splitObjsWarning = unwords [ "Note that this feature is EXPERIMENTAL, and its behavior may be changed and improved." , "You will need to clean your workdirs before use. If you want to compile all dependencies" , "with split-objs, you will need to delete the snapshot (and all snapshots that could" , "reference that snapshot)." ] -- | Get the @BaseConfigOpts@ necessary for constructing configure options mkBaseConfigOpts :: (MonadIO m, MonadReader env m, HasEnvConfig env, MonadThrow m) => BuildOptsCLI -> m BaseConfigOpts mkBaseConfigOpts boptsCli = do bopts <- view buildOptsL snapDBPath <- packageDatabaseDeps localDBPath <- packageDatabaseLocal snapInstallRoot <- installationRootDeps localInstallRoot <- installationRootLocal packageExtraDBs <- packageDatabaseExtra return BaseConfigOpts { bcoSnapDB = snapDBPath , bcoLocalDB = localDBPath , bcoSnapInstallRoot = snapInstallRoot , bcoLocalInstallRoot = localInstallRoot , bcoBuildOpts = bopts , bcoBuildOptsCLI = boptsCli , bcoExtraDBs = packageExtraDBs } -- | Provide a function for loading package information from the package index withLoadPackage :: HasEnvConfig env => ((PackageLocationIndex FilePath -> Map FlagName Bool -> [Text] -> IO Package) -> RIO env a) -> RIO env a withLoadPackage inner = do econfig <- view envConfigL root <- view projectRootL run <- askRunInIO withCabalLoader $ \loadFromIndex -> inner $ \loc flags ghcOptions -> run $ resolvePackage (depPackageConfig econfig flags ghcOptions) <$> parseSingleCabalFileIndex loadFromIndex root loc where -- | Package config to be used for dependencies depPackageConfig :: EnvConfig -> Map FlagName Bool -> [Text] -> PackageConfig depPackageConfig econfig flags ghcOptions = PackageConfig { packageConfigEnableTests = False , packageConfigEnableBenchmarks = False , packageConfigFlags = flags , packageConfigGhcOptions = ghcOptions , packageConfigCompilerVersion = view actualCompilerVersionL econfig , packageConfigPlatform = view platformL econfig } -- | Set the code page for this process as necessary. Only applies to Windows. -- See: https://github.com/commercialhaskell/stack/issues/738 fixCodePage :: HasEnvConfig env => RIO env a -> RIO env a #ifdef WINDOWS fixCodePage inner = do mcp <- view $ configL.to configModifyCodePage ghcVersion <- view $ actualCompilerVersionL.to getGhcVersion if mcp && ghcVersion < $(mkVersion "7.10.3") then fixCodePage' -- GHC >=7.10.3 doesn't need this code page hack. else inner where fixCodePage' = do origCPI <- liftIO getConsoleCP origCPO <- liftIO getConsoleOutputCP let setInput = origCPI /= expected setOutput = origCPO /= expected fixInput | setInput = bracket_ (liftIO $ do setConsoleCP expected) (liftIO $ setConsoleCP origCPI) | otherwise = id fixOutput | setOutput = 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 -- UTF-8 warn typ = logInfo $ T.concat [ "Setting" , typ , " codepage to UTF-8 (65001) to ensure correct output from GHC" ] #else fixCodePage = id #endif -- | Query information about the build and print the result to stdout in YAML format. queryBuildInfo :: HasEnvConfig env => [Text] -- ^ selectors -> RIO env () 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 = throwString $ msg ++ ": " ++ show (front [sel]) -- | Get the raw build information object rawBuildInfo :: HasEnvConfig env => RIO env Value rawBuildInfo = do (locals, _sourceMap) <- loadSourceMap NeedTargets defaultBuildOptsCLI 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) ]