{-# OPTIONS_GHC -fno-warn-orphans #-} {-# LANGUAGE ConstraintKinds #-} {-# LANGUAGE DeriveDataTypeable #-} {-# LANGUAGE DeriveGeneric #-} {-# LANGUAGE FlexibleContexts #-} {-# LANGUAGE GeneralizedNewtypeDeriving #-} {-# LANGUAGE MultiParamTypeClasses #-} {-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE RecordWildCards #-} {-# LANGUAGE ScopedTypeVariables #-} {-# LANGUAGE TemplateHaskell #-} {-# LANGUAGE TupleSections #-} {-# LANGUAGE ViewPatterns #-} {-# LANGUAGE StandaloneDeriving #-} -- | Construct a @Plan@ for how to build module Stack.Build.ConstructPlan ( constructPlan ) where import Control.Exception.Lifted import Control.Monad import Control.Monad.IO.Class import Control.Monad.Logger import Control.Monad.RWS.Strict import Control.Monad.State.Strict (execState) import Control.Monad.Trans.Resource import Data.Either import Data.Function import qualified Data.HashSet as HashSet import Data.List import Data.List.Extra (nubOrd) import Data.Map.Strict (Map) import qualified Data.Map.Strict as M import qualified Data.Map.Strict as Map import Data.Maybe import Data.Set (Set) import qualified Data.Set as Set import Data.String (fromString) import Data.Text (Text) import qualified Data.Text as T import Data.Text.Encoding (decodeUtf8With) import Data.Text.Encoding.Error (lenientDecode) import Data.Typeable import qualified Distribution.Package as Cabal import qualified Distribution.Text as Cabal import qualified Distribution.Version as Cabal import GHC.Generics (Generic) import Generics.Deriving.Monoid (memptydefault, mappenddefault) import Lens.Micro (lens) import Path import Prelude hiding (pi, writeFile) import Stack.Build.Cache import Stack.Build.Haddock import Stack.Build.Installed import Stack.Build.Source import Stack.BuildPlan import Stack.Constants import Stack.Package import Stack.PackageDump import Stack.PackageIndex import Stack.PrettyPrint import Stack.Types.Build import Stack.Types.Compiler import Stack.Types.Config import Stack.Types.FlagName import Stack.Types.GhcPkgId import Stack.Types.Package import Stack.Types.PackageIdentifier import Stack.Types.PackageName import Stack.Types.StackT (StackM) import Stack.Types.Version import System.Process.Read (findExecutable) data PackageInfo = -- | This indicates that the package is already installed, and -- that we shouldn't build it from source. This is always the case -- for snapshot packages. PIOnlyInstalled InstallLocation Installed -- | This indicates that the package isn't installed, and we know -- where to find its source (either a hackage package or a local -- directory). | PIOnlySource PackageSource -- | This indicates that the package is installed and we know -- where to find its source. We may want to reinstall from source. | PIBoth PackageSource Installed deriving (Show) combineSourceInstalled :: PackageSource -> (InstallLocation, Installed) -> PackageInfo combineSourceInstalled ps (location, installed) = assert (piiVersion ps == installedVersion installed) $ assert (piiLocation ps == location) $ case location of -- Always trust something in the snapshot Snap -> PIOnlyInstalled location installed Local -> PIBoth ps installed type CombinedMap = Map PackageName PackageInfo combineMap :: SourceMap -> InstalledMap -> CombinedMap combineMap = Map.mergeWithKey (\_ s i -> Just $ combineSourceInstalled s i) (fmap PIOnlySource) (fmap (uncurry PIOnlyInstalled)) data AddDepRes = ADRToInstall Task | ADRFound InstallLocation Installed deriving Show type ParentMap = MonoidMap PackageName (First Version, [(PackageIdentifier, VersionRange)]) data W = W { wFinals :: !(Map PackageName (Either ConstructPlanException Task)) , wInstall :: !(Map Text InstallLocation) -- ^ executable to be installed, and location where the binary is placed , wDirty :: !(Map PackageName Text) -- ^ why a local package is considered dirty , wDeps :: !(Set PackageName) -- ^ Packages which count as dependencies , wWarnings :: !([Text] -> [Text]) -- ^ Warnings , wParents :: !ParentMap -- ^ Which packages a given package depends on, along with the package's version } deriving Generic instance Monoid W where mempty = memptydefault mappend = mappenddefault type M = RWST Ctx W (Map PackageName (Either ConstructPlanException AddDepRes)) IO data Ctx = Ctx { mbp :: !MiniBuildPlan , baseConfigOpts :: !BaseConfigOpts , loadPackage :: !(PackageName -> Version -> Map FlagName Bool -> [Text] -> IO Package) , combinedMap :: !CombinedMap , toolToPackages :: !(Cabal.Dependency -> Map PackageName VersionRange) , ctxEnvConfig :: !EnvConfig , callStack :: ![PackageName] , extraToBuild :: !(Set PackageName) , getVersions :: !(PackageName -> IO (Set Version)) , wanted :: !(Set PackageName) , localNames :: !(Set PackageName) , logFunc :: Loc -> LogSource -> LogLevel -> LogStr -> IO () } instance HasPlatform Ctx instance HasGHCVariant Ctx instance HasConfig Ctx instance HasBuildConfig Ctx instance HasEnvConfig Ctx where envConfigL = lens ctxEnvConfig (\x y -> x { ctxEnvConfig = y }) -- | Computes a build plan. This means figuring out which build 'Task's -- to take, and the interdependencies among the build 'Task's. In -- particular: -- -- 1) It determines which packages need to be built, based on the -- transitive deps of the current targets. For local packages, this is -- indicated by the 'lpWanted' boolean. For extra packages to build, -- this comes from the @extraToBuild0@ argument of type @Set -- PackageName@. These are usually packages that have been specified on -- the commandline. -- -- 2) It will only rebuild an upstream package if it isn't present in -- the 'InstalledMap', or if some of its dependencies have changed. -- -- 3) It will only rebuild a local package if its files are dirty or -- some of its dependencies have changed. constructPlan :: forall env m. (StackM env m, HasEnvConfig env) => MiniBuildPlan -> BaseConfigOpts -> [LocalPackage] -> Set PackageName -- ^ additional packages that must be built -> [DumpPackage () () ()] -- ^ locally registered -> (PackageName -> Version -> Map FlagName Bool -> [Text] -> IO Package) -- ^ load upstream package -> SourceMap -> InstalledMap -> Bool -> m Plan constructPlan mbp0 baseConfigOpts0 locals extraToBuild0 localDumpPkgs loadPackage0 sourceMap installedMap initialBuildSteps = do $logDebug "Constructing the build plan" getVersions0 <- getPackageVersionsIO econfig <- view envConfigL let onWanted = void . addDep False . packageName . lpPackage let inner = do mapM_ onWanted $ filter lpWanted locals mapM_ (addDep False) $ Set.toList extraToBuild0 lf <- askLoggerIO ((), m, W efinals installExes dirtyReason deps warnings parents) <- liftIO $ runRWST inner (ctx econfig getVersions0 lf) M.empty mapM_ $logWarn (warnings []) let toEither (_, Left e) = Left e toEither (k, Right v) = Right (k, v) (errlibs, adrs) = partitionEithers $ map toEither $ M.toList m (errfinals, finals) = partitionEithers $ map toEither $ M.toList efinals errs = errlibs ++ errfinals if null errs then do let toTask (_, ADRFound _ _) = Nothing toTask (name, ADRToInstall task) = Just (name, task) tasks = M.fromList $ mapMaybe toTask adrs takeSubset = case boptsCLIBuildSubset $ bcoBuildOptsCLI baseConfigOpts0 of BSAll -> id BSOnlySnapshot -> stripLocals BSOnlyDependencies -> stripNonDeps deps return $ takeSubset Plan { planTasks = tasks , planFinals = M.fromList finals , planUnregisterLocal = mkUnregisterLocal tasks dirtyReason localDumpPkgs sourceMap initialBuildSteps , planInstallExes = if boptsInstallExes $ bcoBuildOpts baseConfigOpts0 then installExes else Map.empty } else do planDebug $ show errs stackYaml <- view stackYamlL $prettyError $ pprintExceptions errs stackYaml parents (wantedLocalPackages locals) throwM $ ConstructPlanFailed "Plan construction failed." where ctx econfig getVersions0 lf = Ctx { mbp = mbp0 , baseConfigOpts = baseConfigOpts0 , loadPackage = loadPackage0 , combinedMap = combineMap sourceMap installedMap , toolToPackages = \(Cabal.Dependency name _) -> maybe Map.empty (Map.fromSet (const Cabal.anyVersion)) $ Map.lookup (T.pack . packageNameString . fromCabalPackageName $ name) toolMap , ctxEnvConfig = econfig , callStack = [] , extraToBuild = extraToBuild0 , getVersions = getVersions0 , wanted = wantedLocalPackages locals <> extraToBuild0 , localNames = Set.fromList $ map (packageName . lpPackage) locals , logFunc = lf } -- TODO Currently, this will only consider and install tools from the -- snapshot. It will not automatically install build tools from extra-deps -- or local packages. toolMap = getToolMap mbp0 -- | State to be maintained during the calculation of local packages -- to unregister. data UnregisterState = UnregisterState { usToUnregister :: !(Map GhcPkgId (PackageIdentifier, Text)) , usKeep :: ![DumpPackage () () ()] , usAnyAdded :: !Bool } -- | Determine which packages to unregister based on the given tasks and -- already registered local packages mkUnregisterLocal :: Map PackageName Task -- ^ Tasks -> Map PackageName Text -- ^ Reasons why packages are dirty and must be rebuilt -> [DumpPackage () () ()] -- ^ Local package database dump -> SourceMap -> Bool -- ^ If true, we're doing a special initialBuildSteps -- build - don't unregister target packages. -> Map GhcPkgId (PackageIdentifier, Text) mkUnregisterLocal tasks dirtyReason localDumpPkgs sourceMap initialBuildSteps = -- We'll take multiple passes through the local packages. This -- will allow us to detect that a package should be unregistered, -- as well as all packages directly or transitively depending on -- it. loop Map.empty localDumpPkgs where loop toUnregister keep -- If any new packages were added to the unregister Map, we -- need to loop through the remaining packages again to detect -- if a transitive dependency is being unregistered. | usAnyAdded us = loop (usToUnregister us) (usKeep us) -- Nothing added, so we've already caught them all. Return the -- Map we've already calculated. | otherwise = usToUnregister us where -- Run the unregister checking function on all packages we -- currently think we'll be keeping. us = execState (mapM_ go keep) UnregisterState { usToUnregister = toUnregister , usKeep = [] , usAnyAdded = False } go dp = do us <- get case go' (usToUnregister us) ident deps of -- Not unregistering, add it to the keep list Nothing -> put us { usKeep = dp : usKeep us } -- Unregistering, add it to the unregister Map and -- indicate that a package was in fact added to the -- unregister Map so we loop again. Just reason -> put us { usToUnregister = Map.insert gid (ident, reason) (usToUnregister us) , usAnyAdded = True } where gid = dpGhcPkgId dp ident = dpPackageIdent dp deps = dpDepends dp go' toUnregister ident deps -- If we're planning on running a task on it, then it must be -- unregistered, unless it's a target and an initial-build-steps -- build is being done. | Just task <- Map.lookup name tasks = if initialBuildSteps && taskIsTarget task && taskProvides task == ident then Nothing else Just $ fromMaybe "" $ Map.lookup name dirtyReason -- Check if we're no longer using the local version | Just (PSUpstream _ Snap _ _ _) <- Map.lookup name sourceMap = Just "Switching to snapshot installed package" -- Check if a dependency is going to be unregistered | (dep, _):_ <- mapMaybe (`Map.lookup` toUnregister) deps = Just $ "Dependency being unregistered: " <> packageIdentifierText dep -- None of the above, keep it! | otherwise = Nothing where name = packageIdentifierName ident -- | Given a 'LocalPackage' and its 'lpTestBench', adds a 'Task' for -- running its tests and benchmarks. -- -- If @isAllInOne@ is 'True', then this means that the build step will -- also build the tests. Otherwise, this indicates that there's a cyclic -- dependency and an additional build step needs to be done. -- -- This will also add all the deps needed to build the tests / -- benchmarks. If @isAllInOne@ is 'True' (the common case), then all of -- these should have already been taken care of as part of the build -- step. addFinal :: LocalPackage -> Package -> Bool -> M () addFinal lp package isAllInOne = do depsRes <- addPackageDeps package res <- case depsRes of Left e -> return $ Left e Right (missing, present, _minLoc) -> do ctx <- ask return $ Right Task { taskProvides = PackageIdentifier (packageName package) (packageVersion package) , taskConfigOpts = TaskConfigOpts missing $ \missing' -> let allDeps = Map.union present missing' in configureOpts (view envConfigL ctx) (baseConfigOpts ctx) allDeps True -- local Local package , taskPresent = present , taskType = TTLocal lp , taskAllInOne = isAllInOne , taskCachePkgSrc = CacheSrcLocal (toFilePath (lpDir lp)) } tell mempty { wFinals = Map.singleton (packageName package) res } -- | Given a 'PackageName', adds all of the build tasks to build the -- package, if needed. -- -- 'constructPlan' invokes this on all the target packages, setting -- @treatAsDep'@ to False, because those packages are direct build -- targets. 'addPackageDeps' invokes this while recursing into the -- dependencies of a package. As such, it sets @treatAsDep'@ to True, -- forcing this package to be marked as a dependency, even if it is -- directly wanted. This makes sense - if we left out packages that are -- deps, it would break the --only-dependencies build plan. addDep :: Bool -- ^ is this being used by a dependency? -> PackageName -> M (Either ConstructPlanException AddDepRes) addDep treatAsDep' name = do ctx <- ask let treatAsDep = treatAsDep' || name `Set.notMember` wanted ctx when treatAsDep $ markAsDep name m <- get case Map.lookup name m of Just res -> do planDebug $ "addDep: Using cached result for " ++ show name ++ ": " ++ show res return res Nothing -> do res <- if name `elem` callStack ctx then do planDebug $ "addDep: Detected cycle " ++ show name ++ ": " ++ show (callStack ctx) return $ Left $ DependencyCycleDetected $ name : callStack ctx else local (\ctx' -> ctx' { callStack = name : callStack ctx' }) $ do let mpackageInfo = Map.lookup name $ combinedMap ctx planDebug $ "addDep: Package info for " ++ show name ++ ": " ++ show mpackageInfo case mpackageInfo of -- TODO look up in the package index and see if there's a -- recommendation available Nothing -> return $ Left $ UnknownPackage name Just (PIOnlyInstalled loc installed) -> do -- slightly hacky, no flags since they likely won't affect executable names tellExecutablesUpstream name (installedVersion installed) loc Map.empty return $ Right $ ADRFound loc installed Just (PIOnlySource ps) -> do tellExecutables name ps installPackage name ps Nothing Just (PIBoth ps installed) -> do tellExecutables name ps installPackage name ps (Just installed) updateLibMap name res return res tellExecutables :: PackageName -> PackageSource -> M () tellExecutables _ (PSLocal lp) | lpWanted lp = tellExecutablesPackage Local $ lpPackage lp | otherwise = return () -- Ignores ghcOptions because they don't matter for enumerating -- executables. tellExecutables name (PSUpstream version loc flags _ghcOptions _gitSha) = tellExecutablesUpstream name version loc flags tellExecutablesUpstream :: PackageName -> Version -> InstallLocation -> Map FlagName Bool -> M () tellExecutablesUpstream name version loc flags = do ctx <- ask when (name `Set.member` extraToBuild ctx) $ do p <- liftIO $ loadPackage ctx name version flags [] tellExecutablesPackage loc p tellExecutablesPackage :: InstallLocation -> Package -> M () tellExecutablesPackage loc p = do cm <- asks combinedMap -- Determine which components are enabled so we know which ones to copy let myComps = case Map.lookup (packageName p) cm of Nothing -> assert False Set.empty Just (PIOnlyInstalled _ _) -> Set.empty Just (PIOnlySource ps) -> goSource ps Just (PIBoth ps _) -> goSource ps goSource (PSLocal lp) | lpWanted lp = exeComponents (lpComponents lp) | otherwise = Set.empty goSource PSUpstream{} = Set.empty tell mempty { wInstall = Map.fromList $ map (, loc) $ Set.toList $ filterComps myComps $ packageExes p } where filterComps myComps x | Set.null myComps = x | otherwise = Set.intersection x myComps -- | Given a 'PackageSource' and perhaps an 'Installed' value, adds -- build 'Task's for the package and its dependencies. installPackage :: PackageName -> PackageSource -> Maybe Installed -> M (Either ConstructPlanException AddDepRes) installPackage name ps minstalled = do ctx <- ask case ps of PSUpstream version _ flags ghcOptions _ -> do planDebug $ "installPackage: Doing all-in-one build for upstream package " ++ show name package <- liftIO $ loadPackage ctx name version flags ghcOptions resolveDepsAndInstall True ps package minstalled PSLocal lp -> case lpTestBench lp of Nothing -> do planDebug $ "installPackage: No test / bench component for " ++ show name ++ " so doing an all-in-one build." resolveDepsAndInstall True ps (lpPackage lp) minstalled Just tb -> do -- Attempt to find a plan which performs an all-in-one -- build. Ignore the writer action + reset the state if -- it fails. s <- get res <- pass $ do res <- addPackageDeps tb let writerFunc w = case res of Left _ -> mempty _ -> w return (res, writerFunc) case res of Right deps -> do planDebug $ "installPackage: For " ++ show name ++ ", successfully added package deps" adr <- installPackageGivenDeps True ps tb minstalled deps -- FIXME: this redundantly adds the deps (but -- they'll all just get looked up in the map) addFinal lp tb True return $ Right adr Left _ -> do -- Reset the state to how it was before -- attempting to find an all-in-one build -- plan. planDebug $ "installPackage: Before trying cyclic plan, resetting lib result map to " ++ show s put s -- Otherwise, fall back on building the -- tests / benchmarks in a separate step. res' <- resolveDepsAndInstall False ps (lpPackage lp) minstalled when (isRight res') $ do -- Insert it into the map so that it's -- available for addFinal. updateLibMap name res' addFinal lp tb False return res' resolveDepsAndInstall :: Bool -> PackageSource -> Package -> Maybe Installed -> M (Either ConstructPlanException AddDepRes) resolveDepsAndInstall isAllInOne ps package minstalled = do res <- addPackageDeps package case res of Left err -> return $ Left err Right deps -> liftM Right $ installPackageGivenDeps isAllInOne ps package minstalled deps -- | Checks if we need to install the given 'Package', given the results -- of 'addPackageDeps'. If dependencies are missing, the package is -- dirty, or it's not installed, then it needs to be installed. installPackageGivenDeps :: Bool -> PackageSource -> Package -> Maybe Installed -> ( Set PackageIdentifier , Map PackageIdentifier GhcPkgId , InstallLocation ) -> M AddDepRes installPackageGivenDeps isAllInOne ps package minstalled (missing, present, minLoc) = do let name = packageName package ctx <- ask mRightVersionInstalled <- case (minstalled, Set.null missing) of (Just installed, True) -> do shouldInstall <- checkDirtiness ps installed package present (wanted ctx) return $ if shouldInstall then Nothing else Just installed (Just _, False) -> do let t = T.intercalate ", " $ map (T.pack . packageNameString . packageIdentifierName) (Set.toList missing) tell mempty { wDirty = Map.singleton name $ "missing dependencies: " <> addEllipsis t } return Nothing (Nothing, _) -> return Nothing return $ case mRightVersionInstalled of Just installed -> ADRFound (piiLocation ps) installed Nothing -> ADRToInstall Task { taskProvides = PackageIdentifier (packageName package) (packageVersion package) , taskConfigOpts = TaskConfigOpts missing $ \missing' -> let allDeps = Map.union present missing' destLoc = piiLocation ps <> minLoc in configureOpts (view envConfigL ctx) (baseConfigOpts ctx) allDeps (psLocal ps) -- An assertion to check for a recurrence of -- https://github.com/commercialhaskell/stack/issues/345 (assert (destLoc == piiLocation ps) destLoc) package , taskPresent = present , taskType = case ps of PSLocal lp -> TTLocal lp PSUpstream _ loc _ _ sha -> TTUpstream package (loc <> minLoc) sha , taskAllInOne = isAllInOne , taskCachePkgSrc = toCachePkgSrc ps } -- Update response in the lib map. If it is an error, and there's -- already an error about cyclic dependencies, prefer the cyclic error. updateLibMap :: PackageName -> Either ConstructPlanException AddDepRes -> M () updateLibMap name val = modify $ \mp -> case (M.lookup name mp, val) of (Just (Left DependencyCycleDetected{}), Left _) -> mp _ -> M.insert name val mp addEllipsis :: Text -> Text addEllipsis t | T.length t < 100 = t | otherwise = T.take 97 t <> "..." -- | Given a package, recurses into all of its dependencies. The results -- indicate which packages are missing, meaning that their 'GhcPkgId's -- will be figured out during the build, after they've been built. The -- 2nd part of the tuple result indicates the packages that are already -- installed which will be used. -- -- The 3rd part of the tuple is an 'InstallLocation'. If it is 'Local', -- then the parent package must be installed locally. Otherwise, if it -- is 'Snap', then it can either be installed locally or in the -- snapshot. addPackageDeps :: Package -> M (Either ConstructPlanException (Set PackageIdentifier, Map PackageIdentifier GhcPkgId, InstallLocation)) addPackageDeps package = do ctx <- ask deps' <- packageDepsWithTools package deps <- forM (Map.toList deps') $ \(depname, range) -> do eres <- addDep True depname let getLatestApplicable = do vs <- liftIO $ getVersions ctx depname return (latestApplicableVersion range vs) case eres of Left e -> do addParent depname range Nothing let bd = case e of UnknownPackage name -> assert (name == depname) NotInBuildPlan _ -> Couldn'tResolveItsDependencies (packageVersion package) mlatestApplicable <- getLatestApplicable return $ Left (depname, (range, mlatestApplicable, bd)) Right adr -> do addParent depname range Nothing inRange <- if adrVersion adr `withinRange` range then return True else do let warn_ reason = tell mempty { wWarnings = (msg:) } where msg = T.concat [ "WARNING: Ignoring out of range dependency" , reason , ": " , T.pack $ packageIdentifierString $ PackageIdentifier depname (adrVersion adr) , ". " , T.pack $ packageNameString $ packageName package , " requires: " , versionRangeText range ] allowNewer <- view $ configL.to configAllowNewer if allowNewer then do warn_ " (allow-newer enabled)" return True else do x <- inSnapshot (packageName package) (packageVersion package) y <- inSnapshot depname (adrVersion adr) if x && y then do warn_ " (trusting snapshot over Hackage revisions)" return True else return False if inRange then case adr of ADRToInstall task -> return $ Right (Set.singleton $ taskProvides task, Map.empty, taskLocation task) ADRFound loc (Executable _) -> return $ Right (Set.empty, Map.empty, loc) ADRFound loc (Library ident gid) -> return $ Right (Set.empty, Map.singleton ident gid, loc) else do mlatestApplicable <- getLatestApplicable return $ Left (depname, (range, mlatestApplicable, DependencyMismatch $ adrVersion adr)) case partitionEithers deps of -- Note that the Monoid for 'InstallLocation' means that if any -- is 'Local', the result is 'Local', indicating that the parent -- package must be installed locally. Otherwise the result is -- 'Snap', indicating that the parent can either be installed -- locally or in the snapshot. ([], pairs) -> return $ Right $ mconcat pairs (errs, _) -> return $ Left $ DependencyPlanFailures package (Map.fromList errs) where adrVersion (ADRToInstall task) = packageIdentifierVersion $ taskProvides task adrVersion (ADRFound _ installed) = installedVersion installed -- Update the parents map, for later use in plan construction errors -- - see 'getShortestDepsPath'. addParent depname range mversion = tell mempty { wParents = MonoidMap $ M.singleton depname val } where val = (First mversion, [(packageIdentifier package, range)]) checkDirtiness :: PackageSource -> Installed -> Package -> Map PackageIdentifier GhcPkgId -> Set PackageName -> M Bool checkDirtiness ps installed package present wanted = do ctx <- ask moldOpts <- flip runLoggingT (logFunc ctx) $ tryGetFlagCache installed let configOpts = configureOpts (view envConfigL ctx) (baseConfigOpts ctx) present (psLocal ps) (piiLocation ps) -- should be Local always package buildOpts = bcoBuildOpts (baseConfigOpts ctx) wantConfigCache = ConfigCache { configCacheOpts = configOpts , configCacheDeps = Set.fromList $ Map.elems present , configCacheComponents = case ps of PSLocal lp -> Set.map renderComponent $ lpComponents lp PSUpstream{} -> Set.empty , configCacheHaddock = shouldHaddockPackage buildOpts wanted (packageName package) || -- Disabling haddocks when old config had haddocks doesn't make dirty. maybe False configCacheHaddock moldOpts , configCachePkgSrc = toCachePkgSrc ps } let mreason = case moldOpts of Nothing -> Just "old configure information not found" Just oldOpts | Just reason <- describeConfigDiff config oldOpts wantConfigCache -> Just reason | True <- psForceDirty ps -> Just "--force-dirty specified" | Just files <- psDirty ps -> Just $ "local file changes: " <> addEllipsis (T.pack $ unwords $ Set.toList files) | otherwise -> Nothing config = view configL ctx case mreason of Nothing -> return False Just reason -> do tell mempty { wDirty = Map.singleton (packageName package) reason } return True describeConfigDiff :: Config -> ConfigCache -> ConfigCache -> Maybe Text describeConfigDiff config old new | configCachePkgSrc old /= configCachePkgSrc new = Just $ "switching from " <> pkgSrcName (configCachePkgSrc old) <> " to " <> pkgSrcName (configCachePkgSrc new) | not (configCacheDeps new `Set.isSubsetOf` configCacheDeps old) = Just "dependencies changed" | not $ Set.null newComponents = Just $ "components added: " `T.append` T.intercalate ", " (map (decodeUtf8With lenientDecode) (Set.toList newComponents)) | not (configCacheHaddock old) && configCacheHaddock new = Just "rebuilding with haddocks" | oldOpts /= newOpts = Just $ T.pack $ concat [ "flags changed from " , show oldOpts , " to " , show newOpts ] | otherwise = Nothing where stripGhcOptions = go where go [] = [] go ("--ghc-option":x:xs) = go' Ghc x xs go ("--ghc-options":x:xs) = go' Ghc x xs go ((T.stripPrefix "--ghc-option=" -> Just x):xs) = go' Ghc x xs go ((T.stripPrefix "--ghc-options=" -> Just x):xs) = go' Ghc x xs go ("--ghcjs-option":x:xs) = go' Ghcjs x xs go ("--ghcjs-options":x:xs) = go' Ghcjs x xs go ((T.stripPrefix "--ghcjs-option=" -> Just x):xs) = go' Ghcjs x xs go ((T.stripPrefix "--ghcjs-options=" -> Just x):xs) = go' Ghcjs x xs go (x:xs) = x : go xs go' wc x xs = checkKeepers wc x $ go xs checkKeepers wc x xs = case filter isKeeper $ T.words x of [] -> xs keepers -> T.pack (compilerOptionsCabalFlag wc) : T.unwords keepers : xs -- GHC options which affect build results and therefore should always -- force a rebuild -- -- For the most part, we only care about options generated by Stack -- itself isKeeper = (== "-fhpc") -- more to be added later userOpts = filter (not . isStackOpt) . (if configRebuildGhcOptions config then id else stripGhcOptions) . map T.pack . (\(ConfigureOpts x y) -> x ++ y) . configCacheOpts (oldOpts, newOpts) = removeMatching (userOpts old) (userOpts new) removeMatching (x:xs) (y:ys) | x == y = removeMatching xs ys removeMatching xs ys = (xs, ys) newComponents = configCacheComponents new `Set.difference` configCacheComponents old pkgSrcName (CacheSrcLocal fp) = T.pack fp pkgSrcName CacheSrcUpstream = "upstream source" psForceDirty :: PackageSource -> Bool psForceDirty (PSLocal lp) = lpForceDirty lp psForceDirty PSUpstream{} = False psDirty :: PackageSource -> Maybe (Set FilePath) psDirty (PSLocal lp) = lpDirtyFiles lp psDirty PSUpstream{} = Nothing -- files never change in an upstream package psLocal :: PackageSource -> Bool psLocal (PSLocal _) = True psLocal PSUpstream{} = False -- | Get all of the dependencies for a given package, including guessed build -- tool dependencies. packageDepsWithTools :: Package -> M (Map PackageName VersionRange) packageDepsWithTools p = do ctx <- ask -- TODO: it would be cool to defer these warnings until there's an -- actual issue building the package. let toEither (Cabal.Dependency (Cabal.PackageName name) _) mp = case Map.toList mp of [] -> Left (NoToolFound name (packageName p)) [_] -> Right mp xs -> Left (AmbiguousToolsFound name (packageName p) (map fst xs)) (warnings0, toolDeps) = partitionEithers $ map (\dep -> toEither dep (toolToPackages ctx dep)) (packageTools p) -- Check whether the tool is on the PATH before warning about it. warnings <- fmap catMaybes $ forM warnings0 $ \warning -> do let toolName = case warning of NoToolFound tool _ -> tool AmbiguousToolsFound tool _ _ -> tool config <- view configL menv <- liftIO $ configEnvOverride config minimalEnvSettings { esIncludeLocals = True } mfound <- findExecutable menv toolName case mfound of Nothing -> return (Just warning) Just _ -> return Nothing tell mempty { wWarnings = (map toolWarningText warnings ++) } when (any isNoToolFound warnings) $ do let msg = T.unlines [ "Missing build-tools may be caused by dependencies of the build-tool being overridden by extra-deps." , "This should be fixed soon - see this issue https://github.com/commercialhaskell/stack/issues/595" ] tell mempty { wWarnings = (msg:) } return $ Map.unionsWith intersectVersionRanges $ packageDeps p : toolDeps data ToolWarning = NoToolFound String PackageName | AmbiguousToolsFound String PackageName [PackageName] isNoToolFound :: ToolWarning -> Bool isNoToolFound NoToolFound{} = True isNoToolFound _ = False toolWarningText :: ToolWarning -> Text toolWarningText (NoToolFound toolName pkgName) = "No packages found in snapshot which provide a " <> T.pack (show toolName) <> " executable, which is a build-tool dependency of " <> T.pack (show (packageNameString pkgName)) toolWarningText (AmbiguousToolsFound toolName pkgName options) = "Multiple packages found in snapshot which provide a " <> T.pack (show toolName) <> " exeuctable, which is a build-tool dependency of " <> T.pack (show (packageNameString pkgName)) <> ", so none will be installed.\n" <> "Here's the list of packages which provide it: " <> T.intercalate ", " (map packageNameText options) <> "\nSince there's no good way to choose, you may need to install it manually." -- | Strip out anything from the @Plan@ intended for the local database stripLocals :: Plan -> Plan stripLocals plan = plan { planTasks = Map.filter checkTask $ planTasks plan , planFinals = Map.empty , planUnregisterLocal = Map.empty , planInstallExes = Map.filter (/= Local) $ planInstallExes plan } where checkTask task = case taskType task of TTLocal _ -> False TTUpstream _ Local _ -> False TTUpstream _ Snap _ -> True stripNonDeps :: Set PackageName -> Plan -> Plan stripNonDeps deps plan = plan { planTasks = Map.filter checkTask $ planTasks plan , planFinals = Map.empty , planInstallExes = Map.empty -- TODO maybe don't disable this? } where checkTask task = packageIdentifierName (taskProvides task) `Set.member` deps markAsDep :: PackageName -> M () markAsDep name = tell mempty { wDeps = Set.singleton name } -- | Is the given package/version combo defined in the snapshot? inSnapshot :: PackageName -> Version -> M Bool inSnapshot name version = do p <- asks mbp ls <- asks localNames return $ fromMaybe False $ do guard $ not $ name `Set.member` ls mpi <- Map.lookup name (mbpPackages p) return $ mpiVersion mpi == version data ConstructPlanException = DependencyCycleDetected [PackageName] | DependencyPlanFailures Package (Map PackageName (VersionRange, LatestApplicableVersion, BadDependency)) | UnknownPackage PackageName -- TODO perhaps this constructor will be removed, and BadDependency will handle it all -- ^ Recommend adding to extra-deps, give a helpful version number? deriving (Typeable, Eq, Ord, Show) deriving instance Ord VersionRange -- | For display purposes only, Nothing if package not found type LatestApplicableVersion = Maybe Version -- | Reason why a dependency was not used data BadDependency = NotInBuildPlan | Couldn'tResolveItsDependencies Version | DependencyMismatch Version deriving (Typeable, Eq, Ord, Show) -- TODO: Consider intersecting version ranges for multiple deps on a -- package. This is why VersionRange is in the parent map. pprintExceptions :: [ConstructPlanException] -> Path Abs File -> ParentMap -> Set PackageName -> AnsiDoc pprintExceptions exceptions stackYaml parentMap wanted = "While constructing the build plan, the following exceptions were encountered:" <> line <> line <> mconcat (intersperse (line <> line) (mapMaybe pprintException exceptions')) <> line <> if Map.null extras then "" else line <> "Recommended action: try adding the following to your extra-deps in" <+> toAnsiDoc (display stackYaml) <> ":" <> line <> vsep (map pprintExtra (Map.toList extras)) <> line <> line <> "You may also want to try the 'stack solver' command" where exceptions' = nubOrd exceptions extras = Map.unions $ map getExtras exceptions' getExtras (DependencyCycleDetected _) = Map.empty getExtras (UnknownPackage _) = Map.empty getExtras (DependencyPlanFailures _ m) = Map.unions $ map go $ Map.toList m where go (name, (_range, Just version, NotInBuildPlan)) = Map.singleton name version go _ = Map.empty pprintExtra (name, version) = fromString (concat ["- ", packageNameString name, "-", versionString version]) allNotInBuildPlan = Set.fromList $ concatMap toNotInBuildPlan exceptions' toNotInBuildPlan (DependencyPlanFailures _ pDeps) = map fst $ filter (\(_, (_, _, badDep)) -> badDep == NotInBuildPlan) $ Map.toList pDeps toNotInBuildPlan _ = [] pprintException (DependencyCycleDetected pNames) = Just $ "Dependency cycle detected in packages:" <> line <> indent 4 (encloseSep "[" "]" "," (map (errorRed . fromString . packageNameString) pNames)) pprintException (DependencyPlanFailures pkg pDeps) = case mapMaybe pprintDep (Map.toList pDeps) of [] -> Nothing depErrors -> Just $ "In the dependencies for" <+> pkgIdent <> pprintFlags (packageFlags pkg) <> ":" <> line <> indent 4 (vsep depErrors) <> case getShortestDepsPath parentMap wanted (packageName pkg) of Nothing -> line <> "needed for unknown reason - stack invariant violated." Just [] -> line <> "needed since" <+> pkgIdent <+> "is a build target." Just (target:path) -> line <> "needed due to " <> encloseSep "" "" " -> " pathElems where pathElems = [displayTargetPkgId target] ++ map display path ++ [pkgIdent] where pkgIdent = displayCurrentPkgId (packageIdentifier pkg) -- Skip these when they are redundant with 'NotInBuildPlan' info. pprintException (UnknownPackage name) | name `Set.member` allNotInBuildPlan = Nothing | name `HashSet.member` wiredInPackages = Just $ "Can't build a package with same name as a wired-in-package:" <+> displayCurrentPkgName name | otherwise = Just $ "Unknown package:" <+> displayCurrentPkgName name pprintFlags flags | Map.null flags = "" | otherwise = parens $ sep $ map pprintFlag $ Map.toList flags pprintFlag (name, True) = "+" <> fromString (show name) pprintFlag (name, False) = "-" <> fromString (show name) pprintDep (name, (range, mlatestApplicable, badDep)) = case badDep of NotInBuildPlan -> Just $ errorRed (display name) <+> align ("must match" <+> goodRange <> "," <> softline <> "but the stack configuration has no specified version" <> latestApplicable Nothing) -- TODO: For local packages, suggest editing constraints DependencyMismatch version -> Just $ displayErrorPkgId (PackageIdentifier name version) <+> align ("must match" <+> goodRange <> latestApplicable (Just version)) -- I think the main useful info is these explain why missing -- packages are needed. Instead lets give the user the shortest -- path from a target to the package. Couldn'tResolveItsDependencies _version -> Nothing where goodRange = goodGreen (fromString (Cabal.display range)) latestApplicable mversion = case mlatestApplicable of Nothing -> "" Just la | mlatestApplicable == mversion -> softline <> "(latest applicable is specified)" | otherwise -> softline <> "(latest applicable is " <> goodGreen (display la) <> ")" -- | Get the shortest reason for the package to be in the build plan. In -- other words, trace the parent dependencies back to a 'wanted' -- package. getShortestDepsPath :: ParentMap -> Set PackageName -> PackageName -> Maybe [PackageIdentifier] getShortestDepsPath (MonoidMap parentsMap) wanted name = if Set.member name wanted then Just [] else case M.lookup name parentsMap of Nothing -> Nothing Just (_, parents) -> Just $ findShortest 256 paths0 where paths0 = M.fromList $ map (\(ident, _) -> (packageIdentifierName ident, startDepsPath ident)) parents where -- The 'paths' map is a map from PackageName to the shortest path -- found to get there. It is the frontier of our breadth-first -- search of dependencies. findShortest :: Int -> Map PackageName DepsPath -> [PackageIdentifier] findShortest fuel _ | fuel <= 0 = [PackageIdentifier $(mkPackageName "stack-ran-out-of-jet-fuel") $(mkVersion "0")] findShortest _ paths | M.null paths = [] findShortest fuel paths = case targets of [] -> findShortest (fuel - 1) $ M.fromListWith chooseBest $ concatMap extendPath recurses _ -> let (DepsPath _ _ path) = minimum (map snd targets) in path where (targets, recurses) = partition (\(n, _) -> n `Set.member` wanted) (M.toList paths) chooseBest :: DepsPath -> DepsPath -> DepsPath chooseBest x y = if x > y then x else y -- Extend a path to all its parents. extendPath :: (PackageName, DepsPath) -> [(PackageName, DepsPath)] extendPath (n, dp) = case M.lookup n parentsMap of Nothing -> [] Just (_, parents) -> map (\(pkgId, _) -> (packageIdentifierName pkgId, extendDepsPath pkgId dp)) parents data DepsPath = DepsPath { dpLength :: Int -- ^ Length of dpPath , dpNameLength :: Int -- ^ Length of package names combined , dpPath :: [PackageIdentifier] -- ^ A path where the packages later -- in the list depend on those that -- come earlier } deriving (Eq, Ord, Show) startDepsPath :: PackageIdentifier -> DepsPath startDepsPath ident = DepsPath { dpLength = 1 , dpNameLength = T.length (packageNameText (packageIdentifierName ident)) , dpPath = [ident] } extendDepsPath :: PackageIdentifier -> DepsPath -> DepsPath extendDepsPath ident dp = DepsPath { dpLength = dpLength dp + 1 , dpNameLength = dpNameLength dp + T.length (packageNameText (packageIdentifierName ident)) , dpPath = [ident] } -- Utility newtype wrapper to make make Map's Monoid also use the -- element's Monoid. newtype MonoidMap k a = MonoidMap (Map k a) deriving (Eq, Ord, Read, Show, Generic, Functor) instance (Ord k, Monoid a) => Monoid (MonoidMap k a) where mappend (MonoidMap mp1) (MonoidMap mp2) = MonoidMap (M.unionWith mappend mp1 mp2) mempty = MonoidMap mempty -- Switch this to 'True' to enable some debugging putStrLn in this module planDebug :: MonadIO m => String -> m () planDebug = if False then liftIO . putStrLn else \_ -> return ()