-- cabal-helper: Simple interface to Cabal's configuration state -- Copyright (C) 2015-2019 Daniel Gröber -- -- SPDX-License-Identifier: Apache-2.0 -- -- Licensed under the Apache License, Version 2.0 (the "License"); -- you may not use this file except in compliance with the License. -- You may obtain a copy of the License at -- -- http://www.apache.org/licenses/LICENSE-2.0 {-# LANGUAGE RecordWildCards, FlexibleContexts, ConstraintKinds, GeneralizedNewtypeDeriving, DeriveDataTypeable, DeriveGeneric, DeriveFunctor, StandaloneDeriving, NamedFieldPuns, OverloadedStrings, ViewPatterns, TupleSections, TypeFamilies, DataKinds, GADTs, ScopedTypeVariables, ImplicitParams, RankNTypes, MultiWayIf #-} {-# OPTIONS_GHC -fno-warn-name-shadowing #-} {-| Module : Distribution.Helper License : Apache-2.0 Maintainer : cabal-helper@dxld.at Portability : POSIX -} module Distribution.Helper ( -- * Type Variable Naming Conventions -- $type-conventions -- * Running Queries Query , runQuery -- * Queries against Cabal\'s on disk state -- ** Project queries , compilerVersion , projectPackages -- ** 'Package' queries , Package -- abstract , pPackageName , pSourceDir , pUnits -- ** 'Unit' queries , Unit -- abstract , uComponentName , UnitId -- abstract , UnitInfo(..) , unitInfo -- ** Convenience Queries , allUnits -- * Query environment , QueryEnv , QueryEnvI -- abstract , mkQueryEnv , qeReadProcess , qeCallProcess , qePrograms , qeProjLoc , qeDistDir -- * GADTs , ProjType(..) , CabalProjType(..) , ProjLoc(..) , DistDir(..) , SProjType(..) , demoteSProjType , projTypeOfDistDir , projTypeOfProjLoc , SCabalProjType(..) , Ex(..) -- * Programs , Programs(..) , defaultPrograms , EnvOverride(..) -- * Query result types , ChComponentInfo(..) , ChComponentName(..) , ChLibraryName(..) , ChModuleName(..) , ChPkgDb(..) , ChEntrypoint(..) -- * General information , Distribution.Helper.buildPlatform -- * Legacy v1-build helpers , Distribution.Helper.getSandboxPkgDb -- * Build actions , prepare , writeAutogenFiles , buildProject , buildUnits ) where import Cabal.Plan hiding (Unit, UnitId, uDistDir) import Control.Applicative import Control.Monad import Control.Monad.Trans.Maybe import Control.Monad.IO.Class import Control.Exception as E import qualified Data.ByteString.Char8 as BS8 import qualified Data.ByteString.UTF8 as BSU import Data.IORef import Data.List hiding (filter) import Data.String import qualified Data.Text as Text import Data.Maybe import Data.Either import Data.Map.Strict (Map) import qualified Data.Map.Strict as Map import Data.Set (Set) import qualified Data.Set as Set import qualified Data.Traversable as T import Data.List.NonEmpty (NonEmpty(..)) import qualified Data.List.NonEmpty as NonEmpty import Data.Version import Data.Function import System.Clock as Clock import System.IO import System.Environment import System.FilePath import System.Directory import System.Process import System.Posix.Types import System.PosixCompat.Files import Text.Printf import Text.Read import Prelude import CabalHelper.Compiletime.Compile import qualified CabalHelper.Compiletime.Program.Stack as Stack import qualified CabalHelper.Compiletime.Program.GHC as GHC import qualified CabalHelper.Compiletime.Program.CabalInstall as CabalInstall import CabalHelper.Compiletime.Cabal import CabalHelper.Compiletime.CompPrograms import CabalHelper.Compiletime.Log import CabalHelper.Compiletime.Process import CabalHelper.Compiletime.Sandbox import CabalHelper.Compiletime.Types import CabalHelper.Compiletime.Types.Cabal import CabalHelper.Compiletime.Types.RelativePath import CabalHelper.Shared.InterfaceTypes import CabalHelper.Shared.Common import CabalHelper.Runtime.HelperMain (helper_main) import CabalHelper.Compiletime.Compat.Version import Distribution.System (buildPlatform) import Distribution.Text (display) -- $type-conventions -- Throughout the API we use the following conventions for type variables: -- -- * @pt@ stands for "project type", when instantiated it is always of kind -- 'ProjType'. -- -- * @c@ stands for "cache". It is used internally to make the cache -- inaccessible for some parts of the implementation. Users of the API may -- completely ignore this parameter. See the internal 'qeCacheRef' field -- accessor of 'QueryEnv' for details. -- | A query against a package's Cabal configuration. Use 'runQuery' to -- execute it. newtype Query pt a = Query { unQuery :: QueryEnv pt -> IO a -- ^ @runQuery env query@. Run a 'Query' under a given 'QueryEnv. } instance Functor (Query pt) where fmap = liftM instance Applicative (Query pt) where (<*>) = ap pure = return instance Monad (Query pt) where (Query ma) >>= amb = Query $ \qe -> ma qe >>= \a -> unQuery (amb a) qe return a = Query $ const $ return a runQuery :: Query pt a -> QueryEnv pt -> IO a runQuery (Query action) qe = do ckr <- newIORef $ CacheKeyCache Nothing let qe' = qe { qeCacheKeys = ckr } conf_progs <- getConfProgs qe' action qe' { qePrograms = conf_progs } -- | @mkQueryEnv projdir distdir@. Smart constructor for 'QueryEnv'. -- Sets fields 'qeProjLoc' and 'qeDistDir' to @projdir@ and @distdir@ -- respectively and provides sensible defaults for the other fields. mkQueryEnv :: ProjLoc pt -- ^ Location of the project. -> DistDir pt -- ^ Path to the @dist/@ or @dist-newstyle/@ directory, called -- /builddir/ in Cabal terminology. -> IO (QueryEnv pt) mkQueryEnv projloc distdir = do cr <- newIORef $ QueryCache Nothing Nothing Nothing Map.empty return $ QueryEnv { qeReadProcess = \stdin mcwd env exe args -> do withVerbosity $ readProcessStderr mcwd env exe args "" , qeCallProcess = \mcwd env exe args -> withVerbosity $ callProcessStderr mcwd env exe args , qePrograms = defaultPrograms , qeProjLoc = projloc , qeDistDir = distdir , qeCacheRef = cr , qeCacheKeys = error "mkQuery: qeCacheKeys is uninitialized!" } -- | Construct paths to project configuration files given where the project is. projConf :: ProjLoc pt -> IO (ProjConf pt) projConf (ProjLocV1Dir pkgdir) = ProjConfV1 <$> (complainIfNoCabalFile pkgdir =<< findCabalFile pkgdir) projConf (ProjLocV1CabalFile cabal_file _) = return $ ProjConfV1 cabal_file projConf (ProjLocV2Dir projdir_path) = projConf $ ProjLocV2File (projdir_path "cabal.project") projdir_path projConf (ProjLocV2File proj_file _) = return $ ProjConfV2 { pcV2CabalProjFile = proj_file , pcV2CabalProjLocalFile = proj_file <.> "local" , pcV2CabalProjFreezeFile = proj_file <.> "freeze" } projConf (ProjLocStackYaml stack_yaml) = return $ ProjConfStack { pcStackYaml = stack_yaml } -- | Get the current modification-time for each file involved in configuring a -- project. Optional files in 'ProjConf' are handled by not including them in -- the result list in 'ProjConfModTimes' if they don\'t exist. This causes the -- lists to be different if the files end up existing later, which is all we -- need for cache invalidation. getProjConfModTime :: ProjConf pt -> IO ProjConfModTimes getProjConfModTime ProjConfV1{pcV1CabalFile} = fmap ProjConfModTimes $ mapM getFileModTime [ pcV1CabalFile ] getProjConfModTime ProjConfV2{..} = do fmap (ProjConfModTimes . catMaybes) $ mapM (traverse getFileModTime <=< mightExist) [ pcV2CabalProjFile , pcV2CabalProjLocalFile , pcV2CabalProjFreezeFile ] getProjConfModTime ProjConfStack{..} = fmap ProjConfModTimes $ mapM getFileModTime [ pcStackYaml ] getUnitModTimes :: Unit pt -> IO UnitModTimes getUnitModTimes Unit { uDistDir=DistDirLib distdirv1 , uPackage=Package { pCabalFile=CabalFile cabal_file_path , pSourceDir } , uImpl } = do umtPkgYaml <- case uImpl of UnitImplStack{} -> traverse getFileModTime =<< mightExist package_yaml_path _ -> return Nothing umtCabalFile <- getFileModTime cabal_file_path umtSetupConfig <- (traverse getFileModTime <=< mightExist) setup_config_path return UnitModTimes {..} where package_yaml_path = pSourceDir "package.yaml" setup_config_path = distdirv1 "setup-config" -- | Get a random unit from the project. Sometimes we need to get info we -- can only get after configuring _any_ unit but we do assume that this -- info is uniform across units. someUnit :: ProjInfo pt -> Unit pt someUnit proj_info = NonEmpty.head $ pUnits $ NonEmpty.head $ piPackages proj_info -- | The version of GHC the project is configured to use for compilation. compilerVersion :: Query pt (String, Version) compilerVersion = Query $ \qe -> getProjInfo qe >>= \proj_info -> let unit = someUnit proj_info in -- ^ ASSUMPTION: Here we assume the compiler version is uniform across all -- units so we just pick any one. case piImpl proj_info of ProjInfoV1 {} -> uiCompilerId <$> getUnitInfo qe unit ProjInfoV2 { piV2CompilerId } -> return piV2CompilerId ProjInfoStack {} -> uiCompilerId <$> getUnitInfo qe unit -- | All local packages currently active in a project\'s build plan. projectPackages :: Query pt (NonEmpty (Package pt)) projectPackages = Query $ \qe -> piPackages <$> getProjInfo qe -- | Get the 'UnitInfo' for a given 'Unit'. To get a 'Unit' see 'projectUnits'. unitInfo :: Unit pt -> Query pt UnitInfo unitInfo u = Query $ \qe -> getUnitInfo qe u -- | Get information on all units in a project. allUnits :: (UnitInfo -> a) -> Query pt (NonEmpty a) allUnits f = fmap f <$> (T.mapM unitInfo =<< join . fmap pUnits <$> projectPackages) data Cached c ckc k v = Cached { cGet :: !(c -> Maybe (k, v)) , cSet :: !(c -> (k, v) -> c) , cGetKey :: !(ckc -> Maybe k) , cSetKey :: !(ckc -> k -> ckc) , cCheckKey :: !(IO k) , cKeyValid :: !(k -> k -> Bool) -- ^ @cKeyValid old new@ should return 'True' if 'old' is still valid -- relative to the value of 'new'. , cRegen :: !(k -> IO v) } -- | Simple caching scheme. Invalidation is based on equality of a "cache -- key" the current value of which can be got with the IO action 'cGetKey'. -- -- Note that we only check the actual value of the cache key once per -- 'runQuery' call by saving the cache key in an ephemeral map. cached :: QueryEnvI (QueryCacheI a b c d) pt -> Cached (QueryCacheI a b c d pt) (CacheKeyCache pt) k v -> IO v cached qe Cached{..} = do c <- readIORef (qeCacheRef qe) (c', v) <- checkUpdate c (cGet c) writeIORef (qeCacheRef qe) c' return v where checkUpdate c m = do ckc <- readIORef (qeCacheKeys qe) let regen ck = (ck,) <$> cRegen ck n <- case m of Nothing -> do ck <- cCheckKey writeIORef (qeCacheKeys qe) (cSetKey ckc ck) regen ck Just old@(old_ck, old_v) -> do ck <- case cGetKey ckc of Just cck -> return cck -- TODO: skip valid check below in this case Nothing -> do ck <- cCheckKey writeIORef (qeCacheKeys qe) (cSetKey ckc ck) return ck if | cKeyValid old_ck ck -> return old | otherwise -> regen ck return (cSet c n, snd n) getProjConfAndModTime :: QueryEnvI c pt -> IO (ProjConf pt, ProjConfModTimes) getProjConfAndModTime qe = do proj_conf <- projConf (qeProjLoc qe) mtime <- getProjConfModTime proj_conf return (proj_conf, mtime) getPreInfo :: QueryEnvI (QCPreInfo a b c) pt -> IO (PreInfo pt) getPreInfo qe = cached qe $ Cached { cGet = qcPreInfo , cSet = \a b -> a { qcPreInfo = Just b } , cGetKey = ckcProjConf , cSetKey = \a b -> a { ckcProjConf = Just b } , cCheckKey = getProjConfAndModTime qe , cKeyValid = (==) `on` snd , cRegen = \_k -> readPreInfo qe } readPreInfo :: QueryEnvI c pt -> IO (PreInfo pt) readPreInfo qe = do case projTypeOfQueryEnv qe of SStack -> do piStackProjPaths <- Stack.projPaths qe return PreInfoStack { piStackProjPaths } (SCabal _) -> return PreInfoCabal getProjInfo :: QueryEnv pt -> IO (ProjInfo pt) getProjInfo qe = do pre_info <- getPreInfo qe cached qe $ Cached { cGet = qcProjInfo , cSet = \c n@(_, proj_info) -> let active_units = NonEmpty.toList $ join $ fmap pUnits $ piPackages proj_info in c { qcProjInfo = Just n , qcUnitInfos = discardInactiveUnitInfos active_units (qcUnitInfos c) } , cGetKey = ckcProjConf , cSetKey = \a b -> a { ckcProjConf = Just b } , cCheckKey = getProjConfAndModTime qe , cKeyValid = (==) `on` snd , cRegen = \(proj_conf, mtime) -> do shallowReconfigureProject qe readProjInfo qe proj_conf mtime pre_info } -- | Get the cabal version we need to build for this project. getCabalLibVersion :: QueryEnv pt -> Reconfigured pt -> ProjInfo pt -> IO CabalVersion getCabalLibVersion _ _ ProjInfo{piImpl=ProjInfoV1 {piV1CabalVersion}} = return piV1CabalVersion getCabalLibVersion qe reconf proj_info = do unit <- case reconf of AlreadyReconfigured unit -> return unit Haven'tReconfigured -> do let unit = someUnit proj_info reconfigureUnit qe unit return unit let DistDirLib distdir = uDistDir $ unit hdr <- readSetupConfigHeader $ distdir "setup-config" let ("Cabal", cabalVer) = uhSetupId hdr return $ CabalVersion cabalVer getUnitInfo :: QueryEnv pt -> Unit pt -> IO UnitInfo getUnitInfo qe@QueryEnv{..} unit@Unit{uDistDir} = do pre_info <- getPreInfo qe proj_info <- getProjInfo qe cached qe $ Cached { cGet = \c -> do ui <- Map.lookup uDistDir (qcUnitInfos c) return (uiModTimes ui, ui) , cSet = \c (_mtimes, unit_info) -> c { qcUnitInfos = Map.insert uDistDir unit_info (qcUnitInfos c) } , cGetKey = const Nothing , cSetKey = const , cCheckKey = getUnitModTimes unit , cKeyValid = (==) , cRegen = \mtimes -> do reconf <- reconfigureUnit qe unit cabal_ver <- getCabalLibVersion qe reconf proj_info helper <- getHelper qe pre_info proj_info cabal_ver readUnitInfo helper unit mtimes } -- | Restrict 'UnitInfo' cache to units that are still active discardInactiveUnitInfos :: [Unit pt] -> Map DistDirLib UnitInfo -> Map DistDirLib UnitInfo discardInactiveUnitInfos active_units uis0 = restrictKeysMap uis0 $ Set.fromList $ map uDistDir active_units where restrictKeysMap :: Ord k => Map k a -> Set k -> Map k a restrictKeysMap m s = Map.filterWithKey (\k _ -> Set.member k s) m -- | Regenerate project-level information by calling the appropriate build -- system. shallowReconfigureProject :: QueryEnvI (QCProgs a b) pt -> IO () shallowReconfigureProject QueryEnv { qeProjLoc = ProjLocStackYaml _stack_yaml, .. } = do -- Stack's dry-run only generates the cabal file from package.yaml (or -- well that's the only thing we would care about). reconfigureUnit -- will take care of this though and we don't need the cabal files -- before the Unit stage anyways. return () shallowReconfigureProject qe = do buildProjectTarget qe Nothing DryRun data Reconfigured pt = AlreadyReconfigured (Unit pt) | Haven'tReconfigured reconfigureUnit :: QueryEnvI c pt -> Unit pt -> IO (Reconfigured pt) reconfigureUnit qe u = do buildProjectTarget qe (Just u) OnlyCfg return (AlreadyReconfigured u) buildUnits :: [Unit pt] -> Query pt () buildUnits units = Query $ \qe -> do conf_progs <- getConfProgs qe forM_ units $ \u -> buildProjectTarget qe { qePrograms = conf_progs } (Just u) DoBuild buildProject :: Query pt () buildProject = Query $ \qe -> do conf_progs <- getConfProgs qe buildProjectTarget qe { qePrograms = conf_progs } Nothing DoBuild data BuildStage = DryRun | OnlyCfg | DoBuild buildProjectTarget :: QueryEnvI c pt -> Maybe (Unit pt) -> BuildStage -> IO () buildProjectTarget qe mu stage = do -- Stack and cabal just happen to have the same stage options, totally by -- accident :) stage_opts :: [String] <- return $ case stage of DryRun -> ["--dry-run"] OnlyCfg -> ["--only-configure"] DoBuild -> [] -- TODO: version check for cabal's --only-configure case qe of QueryEnv { qeDistDir = DistDirCabal cpt distdir, qeProjLoc } -> do let projdir = plCabalProjectDir qeProjLoc cmd <- return $ case stage of DryRun | SCV1 <- cpt -> CabalInstall.CIConfigure -- TODO: in v1 we configure twice because we do configure for -- DryRun and OnlyCfg. OnlyCfg -> CabalInstall.CIConfigure _ -> CabalInstall.CIBuild CabalInstall.callCabalInstallCmd qe (Just projdir) cmd $ case cpt of SCV1 -> [ "--builddir="++distdir ] SCV2 -> do targets <- return $ case mu of Nothing -> ["all"] Just Unit{uImpl} -> concat [ if uiV2OnlyDependencies uImpl then ["--only-dependencies"] else [] , map snd $ filter ((/= ChSetupHsName) . fst) $ uiV2Components uImpl ] case qeProjLoc of ProjLocV2File {plCabalProjectFile} -> [ "--project-file="++plCabalProjectFile , "--builddir="++distdir ] ++ stage_opts ++ targets ProjLocV2Dir {} -> [ "--builddir="++distdir ] ++ stage_opts ++ targets QueryEnv { qeDistDir = DistDirStack mworkdir , qeProjLoc = qeProjLoc@ProjLocStackYaml {plStackYaml} } -> do let projdir = plStackProjectDir qeProjLoc let workdir_opts = Stack.workdirArg qe case mu of Just Unit{uPackage=Package{pSourceDir}} -> Stack.callStackCmd qe (Just pSourceDir) $ workdir_opts ++ [ "--stack-yaml="++plStackYaml, "build", "." ] ++ stage_opts Nothing -> Stack.callStackCmd qe (Just projdir) $ workdir_opts ++ [ "--stack-yaml="++plStackYaml, "build" ] ++ stage_opts getFileModTime :: FilePath -> IO (FilePath, EpochTime) getFileModTime f = do t <- modificationTime <$> getFileStatus f return (f, t) readProjInfo :: QueryEnvI c pt -> ProjConf pt -> ProjConfModTimes -> PreInfo pt -> IO (ProjInfo pt) readProjInfo qe pc pcm _pi = withVerbosity $ do let projloc = qeProjLoc qe case (qeDistDir qe, pc) of (DistDirCabal SCV1 distdir, ProjConfV1{pcV1CabalFile}) -> do setup_config_path <- canonicalizePath (distdir "setup-config") hdr@(UnitHeader (pkg_name_bs, _pkg_ver) ("Cabal", hdrCabalVersion) _) <- readSetupConfigHeader setup_config_path let v3_0_0_0 = makeVersion [3,0,0,0] pkg_name | hdrCabalVersion >= v3_0_0_0 = BSU.toString pkg_name_bs | otherwise = BS8.unpack pkg_name_bs pkg = Package { pPackageName = pkg_name , pSourceDir = plCabalProjectDir projloc , pCabalFile = CabalFile pcV1CabalFile , pFlags = [] , pUnits = (:|[]) Unit { uUnitId = UnitId pkg_name , uPackage = pkg { pUnits = () } , uDistDir = DistDirLib distdir , uImpl = UnitImplV1 } } piImpl = ProjInfoV1 { piV1SetupHeader = hdr , piV1CabalVersion = CabalVersion hdrCabalVersion } return ProjInfo { piProjConfModTimes = pcm , piPackages = pkg :| [] , piImpl } (DistDirCabal SCV2 distdirv2, _) -> do let plan_path = distdirv2 "cache" "plan.json" plan_mtime <- modificationTime <$> getFileStatus plan_path plan@PlanJson { pjCabalLibVersion=Ver pjCabalLibVersion , pjCabalVersion , pjCompilerId=PkgId (PkgName compName) (Ver compVer) } <- decodePlanJson plan_path when (pjCabalVersion < Ver [2,4,1,0]) $ panicIO $ "plan.json was produced by too-old a version of\ \cabal-install. The 'dist-dir' keys will be missing. \ \Please upgrade to at least cabal-instal-2.4.1.0" Just pkgs <- NonEmpty.nonEmpty <$> CabalInstall.planPackages plan return ProjInfo { piProjConfModTimes = pcm , piPackages = NonEmpty.sortWith pPackageName pkgs , piImpl = ProjInfoV2 { piV2Plan = plan , piV2PlanModTime = plan_mtime , piV2CompilerId = (Text.unpack compName, makeDataVersion compVer) } } (DistDirStack{}, _) -> do Just cabal_files <- NonEmpty.nonEmpty <$> Stack.listPackageCabalFiles qe pkgs <- mapM (Stack.getPackage qe) cabal_files return ProjInfo { piProjConfModTimes = pcm , piPackages = NonEmpty.sortWith pPackageName pkgs , piImpl = ProjInfoStack } readUnitInfo :: Helper pt -> Unit pt -> UnitModTimes -> IO UnitInfo readUnitInfo helper u@Unit{uImpl=ui@UnitImplV2{uiV2Components}} umt | ChSetupHsName `elem` map fst uiV2Components = do let unit' = u { uImpl = ui { uiV2Components = filter ((/= ChSetupHsName) . fst) uiV2Components } } -- TODO: Add a synthetic UnitInfo for the setup executable. Cabal -- doesn't allow building it via a target on the cmdline and it -- doesn't really exist as far as setup-config is concerned but -- plan.json has the dependency versions for custom-setup so we -- should be able to represet that as a UnitInfo. readUnitInfo helper unit' umt readUnitInfo helper unit@Unit {uUnitId=uiUnitId} uiModTimes = do res <- runHelper helper unit [ "package-id" , "compiler-id" , "flags" , "config-flags" , "non-default-config-flags" , "component-info" ] let [ Just (ChResponseVersion uiPackageId), Just (ChResponseVersion uiCompilerId), Just (ChResponseFlags uiPackageFlags), Just (ChResponseFlags uiConfigFlags), Just (ChResponseFlags uiNonDefaultConfigFlags), Just (ChResponseComponentsInfo uiComponents) ] = res return $ UnitInfo {..} readHelper :: QueryEnvI c pt -> FilePath -> CabalFile -> DistDirLib -> [String] -> IO [Maybe ChResponse] readHelper qe exe cabal_file distdir args = do out <- invokeHelper qe exe cabal_file distdir args let res :: [Maybe ChResponse] res = read out liftIO $ evaluate res `E.catch` \ex@ErrorCall{} -> do md <- lookupEnv' "CABAL_HELPER_DEBUG" let msg = "readHelper: exception: '" ++ show ex ++ "'" panicIO $ msg ++ case md of Nothing -> "\n for more information set the environment variable CABAL_HELPER_DEBUG and try again" Just _ -> "\n output:\n'"++ out ++"'" invokeHelper :: QueryEnvI c pt -> FilePath -> CabalFile -> DistDirLib -> [String] -> IO String invokeHelper QueryEnv {..} exe (CabalFile cabal_file_path) (DistDirLib distdir) args0 = do let args1 = cabal_file_path : distdir : args0 evaluate =<< qeReadProcess "" Nothing [] exe args1 `E.catch` \(_ :: E.IOException) -> panicIO $ concat ["invokeHelper", ": ", exe, " " , intercalate " " (map show args1) , " failed!" ] -- | Make sure the appropriate helper executable for the given project is -- installed and ready to run queries. -- -- The idea is you can run this at a convinient time instead of having the -- helper compilation happen during a time-sensitive user interaction. This -- will however happen automatically as needed if you don't run it first. prepare :: Query pt () prepare = Query $ \qe -> do pre_info <- getPreInfo qe proj_info <- getProjInfo qe cabal_ver <- getCabalLibVersion qe Haven'tReconfigured proj_info void $ getHelper qe pre_info proj_info cabal_ver -- | Create @cabal_macros.h@, @Paths_\.hs@ and other generated files -- in the usual place. See 'Distribution.Simple.Build.initialBuildSteps'. -- -- This is usually only needed on the first load of a unit or after the -- cabal file changes. writeAutogenFiles :: Unit pt -> Query pt () writeAutogenFiles unit = Query $ \qe -> do pre_info <- getPreInfo qe proj_info <- getProjInfo qe cabal_ver <- getCabalLibVersion qe Haven'tReconfigured proj_info helper <- getHelper qe pre_info proj_info cabal_ver void $ runHelper helper unit ["write-autogen-files"] -- | Get the path to the sandbox package-db in a project getSandboxPkgDb :: String -- ^ Cabal build platform, i.e. @buildPlatform@ -> GHC.GhcVersion -- ^ GHC version (@cProjectVersion@ is your friend) -> FilePath -- ^ Path to the project directory, i.e. a directory containing a -- @cabal.sandbox.config@ file -> IO (Maybe FilePath) getSandboxPkgDb buildPlat ghcVer projdir = CabalHelper.Compiletime.Sandbox.getSandboxPkgDb buildPlat ghcVer projdir buildPlatform :: String buildPlatform = display Distribution.System.buildPlatform lookupEnv' :: String -> IO (Maybe String) lookupEnv' k = lookup k <$> getEnvironment withVerbosity :: (Verbose => IO a) -> IO a withVerbosity act = do x <- lookup "CABAL_HELPER_DEBUG" <$> getEnvironment let ?verbose = \level -> case x >>= readMaybe of Just x | x >= level -> True _ -> False act getConfProgs :: QueryEnvI (QCProgs a b) pt -> IO Programs getConfProgs qe = do pre_info <- getPreInfo qe cached qe $ Cached { cGet = qcConfProgs , cSet = \a b -> a { qcConfProgs = Just b } , cGetKey = const Nothing , cSetKey = const , cCheckKey = return (qePrograms qe) , cKeyValid = (==) , cRegen = \_k -> configurePrograms qe pre_info } -- | Fixup program paths as appropriate for current project-type and bring -- 'Programs' into scope as an implicit parameter. configurePrograms :: QueryEnvI c pt -> PreInfo pt -> IO Programs configurePrograms qe@QueryEnv{..} pre_info = withVerbosity $ do patchBuildToolProgs (projTypeOfQueryEnv qe) <=< guessCompProgramPaths $ case pre_info of PreInfoStack projPaths -> Stack.patchCompPrograms projPaths qePrograms _ -> qePrograms newtype Helper pt = Helper { runHelper :: Unit pt -> [String] -> IO [Maybe ChResponse] } getHelper :: QueryEnvI c pt -> PreInfo pt -> ProjInfo pt -> CabalVersion -> IO (Helper pt) getHelper qe@QueryEnv{..} _pre_info _proj_info cabal_ver | cabal_ver == bultinCabalVersion = return $ Helper $ \Unit{ uDistDir=DistDirLib distdir , uPackage=Package{pCabalFile=CabalFile cabal_file} } args -> let pt = dispHelperProjectType (projTypeOfQueryEnv qe) in helper_main $ cabal_file : distdir : pt : args getHelper qe@QueryEnv{..} pre_info proj_info cabal_ver = do withVerbosity $ do let ?progs = qePrograms t0 <- Clock.getTime Monotonic eexe <- compileHelper $ mkCompHelperEnv qeProjLoc qeDistDir pre_info proj_info cabal_ver t1 <- Clock.getTime Monotonic let dt = (/10^9) $ fromInteger $ Clock.toNanoSecs $ Clock.diffTimeSpec t0 t1 dt :: Float vLog $ printf "compileHelper took %.5fs" dt case eexe of Left rv -> panicIO $ "compileHelper': compiling helper failed! exit code "++ show rv Right exe -> let pt = dispHelperProjectType (projTypeOfQueryEnv qe) in return $ Helper $ \Unit{uDistDir, uPackage=Package{pCabalFile}} args -> readHelper qe exe pCabalFile uDistDir (pt : args) dispHelperProjectType :: SProjType pt -> String dispHelperProjectType (SCabal SCV1) = "v1" -- ^ v1-build needs a last minute addition of the inplace package-db -- beyond what lbi has dispHelperProjectType (SCabal SCV2) = "v2" dispHelperProjectType SStack = "v2" -- ^ stack also embeds all necessary options into lbi like v2 mkCompHelperEnv :: Verbose => ProjLoc pt -> DistDir pt -> PreInfo pt -> ProjInfo pt -> CabalVersion -> CompHelperEnv mkCompHelperEnv projloc (DistDirCabal SCV1 distdir) PreInfoCabal ProjInfo {} cabal_ver = CompHelperEnv { cheCabalVer = cabal_ver , cheProjDir = plCabalProjectDir projloc , cheProjLocalCacheDir = distdir , chePkgDb = [] , chePjUnits = Nothing , cheDistV2 = Nothing } mkCompHelperEnv projloc (DistDirCabal SCV2 distdir) PreInfoCabal ProjInfo{piImpl=ProjInfoV2{piV2Plan=plan}} cabal_ver = CompHelperEnv {..} where cheProjDir = plCabalProjectDir projloc cheCabalVer = cabal_ver cheProjLocalCacheDir = distdir "cache" chePkgDb = [] chePjUnits = Just $ pjUnits plan cheDistV2 = Just distdir mkCompHelperEnv (ProjLocStackYaml stack_yaml) (DistDirStack mworkdir) PreInfoStack { piStackProjPaths=StackProjPaths { sppGlobalPkgDb, sppSnapPkgDb, sppLocalPkgDb } } ProjInfo {} cabal_ver = let workdir = fromMaybe ".stack-work" $ unRelativePath <$> mworkdir in let projdir = takeDirectory stack_yaml in CompHelperEnv { cheCabalVer = cabal_ver , cheProjDir = projdir , cheProjLocalCacheDir = projdir workdir , chePkgDb = [sppGlobalPkgDb, sppSnapPkgDb, sppLocalPkgDb] , chePjUnits = Nothing , cheDistV2 = Nothing }