{-# LANGUAGE CPP, RecordWildCards, NamedFieldPuns, RankNTypes #-} -- | Planning how to build everything in a project. -- module Distribution.Client.ProjectPlanning ( -- * elaborated install plan types ElaboratedInstallPlan, ElaboratedConfiguredPackage(..), ElaboratedPlanPackage, ElaboratedSharedConfig(..), ElaboratedReadyPackage, BuildStyle(..), CabalFileText, --TODO: [code cleanup] these types should live with execution, not with -- plan definition. Need to better separate InstallPlan definition. GenericBuildResult(..), BuildResult, BuildSuccess(..), BuildFailure(..), DocsResult(..), TestsResult(..), -- * Producing the elaborated install plan rebuildInstallPlan, -- * Build targets PackageTarget(..), ComponentTarget(..), SubComponentTarget(..), showComponentTarget, -- * Selecting a plan subset pruneInstallPlanToTargets, -- * Utils required for building pkgHasEphemeralBuildTargets, pkgBuildTargetWholeComponents, -- * Setup.hs CLI flags for building setupHsScriptOptions, setupHsConfigureFlags, setupHsBuildFlags, setupHsBuildArgs, setupHsReplFlags, setupHsReplArgs, setupHsCopyFlags, setupHsRegisterFlags, setupHsHaddockFlags, packageHashInputs, -- TODO: [code cleanup] utils that should live in some shared place? createPackageDBIfMissing ) where import Distribution.Client.ProjectPlanning.Types import Distribution.Client.PackageHash import Distribution.Client.RebuildMonad import Distribution.Client.ProjectConfig import Distribution.Client.ProjectPlanOutput import Distribution.Client.Types hiding ( BuildResult, BuildSuccess(..), BuildFailure(..) , DocsResult(..), TestsResult(..) ) import qualified Distribution.Client.InstallPlan as InstallPlan import Distribution.Client.Dependency import Distribution.Client.Dependency.Types import qualified Distribution.Client.ComponentDeps as CD import Distribution.Client.ComponentDeps (ComponentDeps) import qualified Distribution.Client.IndexUtils as IndexUtils import qualified Distribution.Client.PackageIndex as SourcePackageIndex import Distribution.Client.Targets (userToPackageConstraint) import Distribution.Client.DistDirLayout import Distribution.Client.SetupWrapper import Distribution.Client.JobControl import Distribution.Client.FetchUtils import qualified Hackage.Security.Client as Sec import Distribution.Client.PkgConfigDb import Distribution.Client.Setup hiding (packageName, cabalVersion) import Distribution.Utils.NubList import Distribution.Package hiding (InstalledPackageId, installedPackageId) import Distribution.System import qualified Distribution.PackageDescription as Cabal import qualified Distribution.PackageDescription as PD import qualified Distribution.PackageDescription.Configuration as PD import qualified Distribution.InstalledPackageInfo as Installed import Distribution.Simple.PackageIndex (InstalledPackageIndex) import qualified Distribution.Simple.PackageIndex as PackageIndex import Distribution.Simple.Compiler hiding (Flag) import qualified Distribution.Simple.GHC as GHC --TODO: [code cleanup] eliminate import qualified Distribution.Simple.GHCJS as GHCJS --TODO: [code cleanup] eliminate import Distribution.Simple.Program import Distribution.Simple.Program.Db import Distribution.Simple.Program.Find import qualified Distribution.Simple.Setup as Cabal import Distribution.Simple.Setup (Flag, toFlag, flagToMaybe, flagToList, fromFlagOrDefault) import qualified Distribution.Simple.Configure as Cabal import qualified Distribution.Simple.LocalBuildInfo as Cabal import Distribution.Simple.LocalBuildInfo (ComponentName(..)) import qualified Distribution.Simple.Register as Cabal import qualified Distribution.Simple.InstallDirs as InstallDirs import qualified Distribution.Simple.BuildTarget as Cabal import Distribution.Simple.Utils hiding (matchFileGlob) import Distribution.Version import Distribution.Verbosity import Distribution.Text import Data.Map (Map) import qualified Data.Map as Map import Data.Set (Set) import qualified Data.Set as Set import qualified Data.Graph as Graph import qualified Data.Tree as Tree #if !MIN_VERSION_base(4,8,0) import Control.Applicative #endif import Control.Monad import Control.Monad.State as State import Control.Exception import Data.List import Data.Maybe import Data.Either import Data.Monoid import Data.Function import System.FilePath import System.Directory (doesDirectoryExist) ------------------------------------------------------------------------------ -- * Elaborated install plan ------------------------------------------------------------------------------ -- "Elaborated" -- worked out with great care and nicety of detail; -- executed with great minuteness: elaborate preparations; -- elaborate care. -- -- So here's the idea: -- -- Rather than a miscellaneous collection of 'ConfigFlags', 'InstallFlags' etc -- all passed in as separate args and which are then further selected, -- transformed etc during the execution of the build. Instead we construct -- an elaborated install plan that includes everything we will need, and then -- during the execution of the plan we do as little transformation of this -- info as possible. -- -- So we're trying to split the work into two phases: construction of the -- elaborated install plan (which as far as possible should be pure) and -- then simple execution of that plan without any smarts, just doing what the -- plan says to do. -- -- So that means we need a representation of this fully elaborated install -- plan. The representation consists of two parts: -- -- * A 'ElaboratedInstallPlan'. This is a 'GenericInstallPlan' with a -- representation of source packages that includes a lot more detail about -- that package's individual configuration -- -- * A 'ElaboratedSharedConfig'. Some package configuration is the same for -- every package in a plan. Rather than duplicate that info every entry in -- the 'GenericInstallPlan' we keep that separately. -- -- The division between the shared and per-package config is /not set in stone -- for all time/. For example if we wanted to generalise the install plan to -- describe a situation where we want to build some packages with GHC and some -- with GHCJS then the platform and compiler would no longer be shared between -- all packages but would have to be per-package (probably with some sanity -- condition on the graph structure). -- -- Refer to ProjectPlanning.Types for details of these important types: -- type ElaboratedInstallPlan = ... -- type ElaboratedPlanPackage = ... -- data ElaboratedSharedConfig = ... -- data ElaboratedConfiguredPackage = ... -- data BuildStyle = sanityCheckElaboratedConfiguredPackage :: ElaboratedSharedConfig -> ElaboratedConfiguredPackage -> Bool sanityCheckElaboratedConfiguredPackage sharedConfig pkg@ElaboratedConfiguredPackage{..} = pkgStanzasEnabled `Set.isSubsetOf` pkgStanzasAvailable -- the stanzas explicitly enabled should be available and enabled && Map.keysSet (Map.filter id pkgStanzasRequested) `Set.isSubsetOf` pkgStanzasEnabled -- the stanzas explicitly disabled should not be available && Set.null (Map.keysSet (Map.filter not pkgStanzasRequested) `Set.intersection` pkgStanzasAvailable) && (pkgBuildStyle == BuildInplaceOnly || installedPackageId pkg == hashedInstalledPackageId (packageHashInputs sharedConfig pkg)) && (pkgBuildStyle == BuildInplaceOnly || Set.null pkgStanzasAvailable) ------------------------------------------------------------------------------ -- * Deciding what to do: making an 'ElaboratedInstallPlan' ------------------------------------------------------------------------------ rebuildInstallPlan :: Verbosity -> FilePath -> DistDirLayout -> CabalDirLayout -> ProjectConfig -> IO ( ElaboratedInstallPlan , ElaboratedSharedConfig , ProjectConfig ) rebuildInstallPlan verbosity projectRootDir distDirLayout@DistDirLayout { distDirectory, distProjectCacheFile, distProjectCacheDirectory } cabalDirLayout@CabalDirLayout { cabalPackageCacheDirectory, cabalStoreDirectory, cabalStorePackageDB } cliConfig = runRebuild projectRootDir $ do progsearchpath <- liftIO $ getSystemSearchPath let cliConfigPersistent = cliConfig { projectConfigBuildOnly = mempty } -- The overall improved plan is cached rerunIfChanged verbosity fileMonitorImprovedPlan -- react to changes in command line args and the path (cliConfigPersistent, progsearchpath) $ do -- And so is the elaborated plan that the improved plan based on (elaboratedPlan, elaboratedShared, projectConfig) <- rerunIfChanged verbosity fileMonitorElaboratedPlan (cliConfigPersistent, progsearchpath) $ do (projectConfig, projectConfigTransient) <- phaseReadProjectConfig localPackages <- phaseReadLocalPackages projectConfig compilerEtc <- phaseConfigureCompiler projectConfig _ <- phaseConfigurePrograms projectConfig compilerEtc solverPlan <- phaseRunSolver projectConfigTransient compilerEtc localPackages (elaboratedPlan, elaboratedShared) <- phaseElaboratePlan projectConfigTransient compilerEtc solverPlan localPackages phaseMaintainPlanOutputs elaboratedPlan elaboratedShared return (elaboratedPlan, elaboratedShared, projectConfig) -- The improved plan changes each time we install something, whereas -- the underlying elaborated plan only changes when input config -- changes, so it's worth caching them separately. improvedPlan <- phaseImprovePlan elaboratedPlan elaboratedShared return (improvedPlan, elaboratedShared, projectConfig) where fileMonitorCompiler = newFileMonitorInCacheDir "compiler" fileMonitorSolverPlan = newFileMonitorInCacheDir "solver-plan" fileMonitorSourceHashes = newFileMonitorInCacheDir "source-hashes" fileMonitorElaboratedPlan = newFileMonitorInCacheDir "elaborated-plan" fileMonitorImprovedPlan = newFileMonitorInCacheDir "improved-plan" newFileMonitorInCacheDir :: Eq a => FilePath -> FileMonitor a b newFileMonitorInCacheDir = newFileMonitor . distProjectCacheFile -- Read the cabal.project (or implicit config) and combine it with -- arguments from the command line -- phaseReadProjectConfig :: Rebuild (ProjectConfig, ProjectConfig) phaseReadProjectConfig = do liftIO $ do info verbosity "Project settings changed, reconfiguring..." createDirectoryIfMissingVerbose verbosity False distDirectory createDirectoryIfMissingVerbose verbosity False distProjectCacheDirectory projectConfig <- readProjectConfig verbosity projectRootDir -- The project config comming from the command line includes "build only" -- flags that we don't cache persistently (because like all "build only" -- flags they do not affect the value of the outcome) but that we do -- sometimes using during planning (in particular the http transport) let projectConfigTransient = projectConfig <> cliConfig projectConfigPersistent = projectConfig <> cliConfig { projectConfigBuildOnly = mempty } liftIO $ writeProjectConfigFile (distProjectCacheFile "config") projectConfigPersistent return (projectConfigPersistent, projectConfigTransient) -- Look for all the cabal packages in the project -- some of which may be local src dirs, tarballs etc -- phaseReadLocalPackages :: ProjectConfig -> Rebuild [SourcePackage] phaseReadLocalPackages projectConfig = do localCabalFiles <- findProjectPackages projectRootDir projectConfig mapM (readSourcePackage verbosity) localCabalFiles -- Configure the compiler we're using. -- -- This is moderately expensive and doesn't change that often so we cache -- it independently. -- phaseConfigureCompiler :: ProjectConfig -> Rebuild (Compiler, Platform, ProgramDb) phaseConfigureCompiler ProjectConfig { projectConfigShared = ProjectConfigShared { projectConfigHcFlavor, projectConfigHcPath, projectConfigHcPkg }, projectConfigLocalPackages = PackageConfig { packageConfigProgramPaths, packageConfigProgramArgs, packageConfigProgramPathExtra } } = do progsearchpath <- liftIO $ getSystemSearchPath rerunIfChanged verbosity fileMonitorCompiler (hcFlavor, hcPath, hcPkg, progsearchpath, packageConfigProgramPaths, packageConfigProgramArgs, packageConfigProgramPathExtra) $ do liftIO $ info verbosity "Compiler settings changed, reconfiguring..." result@(_, _, progdb') <- liftIO $ Cabal.configCompilerEx hcFlavor hcPath hcPkg progdb verbosity -- Note that we added the user-supplied program locations and args -- for /all/ programs, not just those for the compiler prog and -- compiler-related utils. In principle we don't know which programs -- the compiler will configure (and it does vary between compilers). -- We do know however that the compiler will only configure the -- programs it cares about, and those are the ones we monitor here. monitorFiles (programsMonitorFiles progdb') return result where hcFlavor = flagToMaybe projectConfigHcFlavor hcPath = flagToMaybe projectConfigHcPath hcPkg = flagToMaybe projectConfigHcPkg progdb = userSpecifyPaths (Map.toList (getMapLast packageConfigProgramPaths)) . userSpecifyArgss (Map.toList (getMapMappend packageConfigProgramArgs)) . modifyProgramSearchPath (++ [ ProgramSearchPathDir dir | dir <- fromNubList packageConfigProgramPathExtra ]) $ defaultProgramDb -- Configuring other programs. -- -- Having configred the compiler, now we configure all the remaining -- programs. This is to check we can find them, and to monitor them for -- changes. -- -- TODO: [required eventually] we don't actually do this yet. -- -- We rely on the fact that the previous phase added the program config for -- all local packages, but that all the programs configured so far are the -- compiler program or related util programs. -- phaseConfigurePrograms :: ProjectConfig -> (Compiler, Platform, ProgramDb) -> Rebuild () phaseConfigurePrograms projectConfig (_, _, compilerprogdb) = do -- Users are allowed to specify program locations independently for -- each package (e.g. to use a particular version of a pre-processor -- for some packages). However they cannot do this for the compiler -- itself as that's just not going to work. So we check for this. liftIO $ checkBadPerPackageCompilerPaths (configuredPrograms compilerprogdb) (getMapMappend (projectConfigSpecificPackage projectConfig)) --TODO: [required eventually] find/configure other programs that the -- user specifies. --TODO: [required eventually] find/configure all build-tools -- but note that some of them may be built as part of the plan. -- Run the solver to get the initial install plan. -- This is expensive so we cache it independently. -- phaseRunSolver :: ProjectConfig -> (Compiler, Platform, ProgramDb) -> [SourcePackage] -> Rebuild (SolverInstallPlan, PackagesImplicitSetupDeps) phaseRunSolver projectConfig@ProjectConfig { projectConfigShared, projectConfigBuildOnly } (compiler, platform, progdb) localPackages = rerunIfChanged verbosity fileMonitorSolverPlan (solverSettings, cabalPackageCacheDirectory, localPackages, localPackagesEnabledStanzas, compiler, platform, programsDbSignature progdb) $ do installedPkgIndex <- getInstalledPackages verbosity compiler progdb platform corePackageDbs sourcePkgDb <- getSourcePackages verbosity withRepoCtx pkgConfigDB <- getPkgConfigDb verbosity progdb --TODO: [code cleanup] it'd be better if the Compiler contained the -- ConfiguredPrograms that it needs, rather than relying on the progdb -- since we don't need to depend on all the programs here, just the -- ones relevant for the compiler. liftIO $ do solver <- chooseSolver verbosity (solverSettingSolver solverSettings) (compilerInfo compiler) notice verbosity "Resolving dependencies..." foldProgress logMsg die return $ planPackages compiler platform solver solverSettings installedPkgIndex sourcePkgDb pkgConfigDB localPackages localPackagesEnabledStanzas where corePackageDbs = [GlobalPackageDB] withRepoCtx = projectConfigWithSolverRepoContext verbosity cabalPackageCacheDirectory projectConfigShared projectConfigBuildOnly solverSettings = resolveSolverSettings projectConfig logMsg message rest = debugNoWrap verbosity message >> rest localPackagesEnabledStanzas = Map.fromList [ (pkgname, stanzas) | pkg <- localPackages , let pkgname = packageName pkg testsEnabled = lookupLocalPackageConfig packageConfigTests projectConfig pkgname benchmarksEnabled = lookupLocalPackageConfig packageConfigBenchmarks projectConfig pkgname stanzas = Map.fromList $ [ (TestStanzas, enabled) | enabled <- flagToList testsEnabled ] ++ [ (BenchStanzas , enabled) | enabled <- flagToList benchmarksEnabled ] ] -- Elaborate the solver's install plan to get a fully detailed plan. This -- version of the plan has the final nix-style hashed ids. -- phaseElaboratePlan :: ProjectConfig -> (Compiler, Platform, ProgramDb) -> (SolverInstallPlan, PackagesImplicitSetupDeps) -> [SourcePackage] -> Rebuild ( ElaboratedInstallPlan , ElaboratedSharedConfig ) phaseElaboratePlan ProjectConfig { projectConfigShared, projectConfigLocalPackages, projectConfigSpecificPackage, projectConfigBuildOnly } (compiler, platform, progdb) (solverPlan, pkgsImplicitSetupDeps) localPackages = do liftIO $ debug verbosity "Elaborating the install plan..." sourcePackageHashes <- rerunIfChanged verbosity fileMonitorSourceHashes (packageLocationsSignature solverPlan) $ getPackageSourceHashes verbosity withRepoCtx solverPlan defaultInstallDirs <- liftIO $ userInstallDirTemplates compiler return $ elaborateInstallPlan platform compiler progdb distDirLayout cabalDirLayout solverPlan pkgsImplicitSetupDeps localPackages sourcePackageHashes defaultInstallDirs projectConfigShared projectConfigLocalPackages (getMapMappend projectConfigSpecificPackage) where withRepoCtx = projectConfigWithSolverRepoContext verbosity cabalPackageCacheDirectory projectConfigShared projectConfigBuildOnly -- Update the files we maintain that reflect our current build environment. -- In particular we maintain a JSON representation of the elaborated -- install plan. -- -- TODO: [required eventually] maintain the ghc environment file reflecting -- the libs available. This will need to be after plan improvement phase. -- phaseMaintainPlanOutputs :: ElaboratedInstallPlan -> ElaboratedSharedConfig -> Rebuild () phaseMaintainPlanOutputs elaboratedPlan elaboratedShared = do liftIO $ debug verbosity "Updating plan.json" liftIO $ writePlanExternalRepresentation distDirLayout elaboratedPlan elaboratedShared -- Improve the elaborated install plan. The elaborated plan consists -- mostly of source packages (with full nix-style hashed ids). Where -- corresponding installed packages already exist in the store, replace -- them in the plan. -- -- Note that we do monitor the store's package db here, so we will redo -- this improvement phase when the db changes -- including as a result of -- executing a plan and installing things. -- phaseImprovePlan :: ElaboratedInstallPlan -> ElaboratedSharedConfig -> Rebuild ElaboratedInstallPlan phaseImprovePlan elaboratedPlan elaboratedShared = do liftIO $ debug verbosity "Improving the install plan..." recreateDirectory verbosity True storeDirectory storePkgIndex <- getPackageDBContents verbosity compiler progdb platform storePackageDb let improvedPlan = improveInstallPlanWithPreExistingPackages storePkgIndex elaboratedPlan return improvedPlan where storeDirectory = cabalStoreDirectory (compilerId compiler) storePackageDb = cabalStorePackageDB (compilerId compiler) ElaboratedSharedConfig { pkgConfigPlatform = platform, pkgConfigCompiler = compiler, pkgConfigCompilerProgs = progdb } = elaboratedShared programsMonitorFiles :: ProgramDb -> [MonitorFilePath] programsMonitorFiles progdb = [ monitor | prog <- configuredPrograms progdb , monitor <- monitorFileSearchPath (programMonitorFiles prog) (programPath prog) ] -- | Select the bits of a 'ProgramDb' to monitor for value changes. -- Use 'programsMonitorFiles' for the files to monitor. -- programsDbSignature :: ProgramDb -> [ConfiguredProgram] programsDbSignature progdb = [ prog { programMonitorFiles = [] , programOverrideEnv = filter ((/="PATH") . fst) (programOverrideEnv prog) } | prog <- configuredPrograms progdb ] getInstalledPackages :: Verbosity -> Compiler -> ProgramDb -> Platform -> PackageDBStack -> Rebuild InstalledPackageIndex getInstalledPackages verbosity compiler progdb platform packagedbs = do monitorFiles . map monitorFileOrDirectory =<< liftIO (IndexUtils.getInstalledPackagesMonitorFiles verbosity compiler packagedbs progdb platform) liftIO $ IndexUtils.getInstalledPackages verbosity compiler packagedbs progdb getPackageDBContents :: Verbosity -> Compiler -> ProgramDb -> Platform -> PackageDB -> Rebuild InstalledPackageIndex getPackageDBContents verbosity compiler progdb platform packagedb = do monitorFiles . map monitorFileOrDirectory =<< liftIO (IndexUtils.getInstalledPackagesMonitorFiles verbosity compiler [packagedb] progdb platform) liftIO $ do createPackageDBIfMissing verbosity compiler progdb [packagedb] Cabal.getPackageDBContents verbosity compiler packagedb progdb getSourcePackages :: Verbosity -> (forall a. (RepoContext -> IO a) -> IO a) -> Rebuild SourcePackageDb getSourcePackages verbosity withRepoCtx = do (sourcePkgDb, repos) <- liftIO $ withRepoCtx $ \repoctx -> do sourcePkgDb <- IndexUtils.getSourcePackages verbosity repoctx return (sourcePkgDb, repoContextRepos repoctx) monitorFiles . map monitorFile . IndexUtils.getSourcePackagesMonitorFiles $ repos return sourcePkgDb createPackageDBIfMissing :: Verbosity -> Compiler -> ProgramDb -> PackageDBStack -> IO () createPackageDBIfMissing verbosity compiler progdb packageDbs = case reverse packageDbs of SpecificPackageDB dbPath : _ -> do exists <- liftIO $ Cabal.doesPackageDBExist dbPath unless exists $ do createDirectoryIfMissingVerbose verbosity False (takeDirectory dbPath) Cabal.createPackageDB verbosity compiler progdb False dbPath _ -> return () getPkgConfigDb :: Verbosity -> ProgramDb -> Rebuild PkgConfigDb getPkgConfigDb verbosity progdb = do dirs <- liftIO $ getPkgConfigDbDirs verbosity progdb -- Just monitor the dirs so we'll notice new .pc files. -- Alternatively we could monitor all the .pc files too. forM_ dirs $ \dir -> do dirExists <- liftIO $ doesDirectoryExist dir -- TODO: turn this into a utility function monitorFiles [if dirExists then monitorDirectory dir else monitorNonExistentDirectory dir] liftIO $ readPkgConfigDb verbosity progdb recreateDirectory :: Verbosity -> Bool -> FilePath -> Rebuild () recreateDirectory verbosity createParents dir = do liftIO $ createDirectoryIfMissingVerbose verbosity createParents dir monitorFiles [monitorDirectoryExistence dir] -- | Select the config values to monitor for changes package source hashes. packageLocationsSignature :: SolverInstallPlan -> [(PackageId, PackageLocation (Maybe FilePath))] packageLocationsSignature solverPlan = [ (packageId pkg, packageSource pkg) | InstallPlan.Configured (ConfiguredPackage pkg _ _ _) <- InstallPlan.toList solverPlan ] -- | Get the 'HashValue' for all the source packages where we use hashes, -- and download any packages required to do so. -- -- Note that we don't get hashes for local unpacked packages. -- getPackageSourceHashes :: Verbosity -> (forall a. (RepoContext -> IO a) -> IO a) -> SolverInstallPlan -> Rebuild (Map PackageId PackageSourceHash) getPackageSourceHashes verbosity withRepoCtx solverPlan = do -- Determine if and where to get the package's source hash from. -- let allPkgLocations :: [(PackageId, PackageLocation (Maybe FilePath))] allPkgLocations = [ (packageId pkg, packageSource pkg) | InstallPlan.Configured (ConfiguredPackage pkg _ _ _) <- InstallPlan.toList solverPlan ] -- Tarballs that were local in the first place. -- We'll hash these tarball files directly. localTarballPkgs :: [(PackageId, FilePath)] localTarballPkgs = [ (pkgid, tarball) | (pkgid, LocalTarballPackage tarball) <- allPkgLocations ] -- Tarballs from remote URLs. We must have downloaded these already -- (since we extracted the .cabal file earlier) --TODO: [required eventually] finish remote tarball functionality -- allRemoteTarballPkgs = -- [ (pkgid, ) -- | (pkgid, RemoteTarballPackage ) <- allPkgLocations ] -- Tarballs from repositories, either where the repository provides -- hashes as part of the repo metadata, or where we will have to -- download and hash the tarball. repoTarballPkgsWithMetadata :: [(PackageId, Repo)] repoTarballPkgsWithoutMetadata :: [(PackageId, Repo)] (repoTarballPkgsWithMetadata, repoTarballPkgsWithoutMetadata) = partitionEithers [ case repo of RepoSecure{} -> Left (pkgid, repo) _ -> Right (pkgid, repo) | (pkgid, RepoTarballPackage repo _ _) <- allPkgLocations ] -- For tarballs from repos that do not have hashes available we now have -- to check if the packages were downloaded already. -- (repoTarballPkgsToDownload, repoTarballPkgsDownloaded) <- fmap partitionEithers $ liftIO $ sequence [ do mtarball <- checkRepoTarballFetched repo pkgid case mtarball of Nothing -> return (Left (pkgid, repo)) Just tarball -> return (Right (pkgid, tarball)) | (pkgid, repo) <- repoTarballPkgsWithoutMetadata ] (hashesFromRepoMetadata, repoTarballPkgsNewlyDownloaded) <- -- Avoid having to initialise the repository (ie 'withRepoCtx') if we -- don't have to. (The main cost is configuring the http client.) if null repoTarballPkgsToDownload && null repoTarballPkgsWithMetadata then return (Map.empty, []) else liftIO $ withRepoCtx $ \repoctx -> do -- For tarballs from repos that do have hashes available as part of the -- repo metadata we now load up the index for each repo and retrieve -- the hashes for the packages -- hashesFromRepoMetadata <- Sec.uncheckClientErrors $ --TODO: [code cleanup] wrap in our own exceptions fmap (Map.fromList . concat) $ sequence -- Reading the repo index is expensive so we group the packages by repo [ repoContextWithSecureRepo repoctx repo $ \secureRepo -> Sec.withIndex secureRepo $ \repoIndex -> sequence [ do hash <- Sec.trusted <$> -- strip off Trusted tag Sec.indexLookupHash repoIndex pkgid -- Note that hackage-security currently uses SHA256 -- but this API could in principle give us some other -- choice in future. return (pkgid, hashFromTUF hash) | pkgid <- pkgids ] | (repo, pkgids) <- map (\grp@((_,repo):_) -> (repo, map fst grp)) . groupBy ((==) `on` (remoteRepoName . repoRemote . snd)) . sortBy (compare `on` (remoteRepoName . repoRemote . snd)) $ repoTarballPkgsWithMetadata ] -- For tarballs from repos that do not have hashes available, download -- the ones we previously determined we need. -- repoTarballPkgsNewlyDownloaded <- sequence [ do tarball <- fetchRepoTarball verbosity repoctx repo pkgid return (pkgid, tarball) | (pkgid, repo) <- repoTarballPkgsToDownload ] return (hashesFromRepoMetadata, repoTarballPkgsNewlyDownloaded) -- Hash tarball files for packages where we have to do that. This includes -- tarballs that were local in the first place, plus tarballs from repos, -- either previously cached or freshly downloaded. -- let allTarballFilePkgs :: [(PackageId, FilePath)] allTarballFilePkgs = localTarballPkgs ++ repoTarballPkgsDownloaded ++ repoTarballPkgsNewlyDownloaded hashesFromTarballFiles <- liftIO $ fmap Map.fromList $ sequence [ do srchash <- readFileHashValue tarball return (pkgid, srchash) | (pkgid, tarball) <- allTarballFilePkgs ] monitorFiles [ monitorFile tarball | (_pkgid, tarball) <- allTarballFilePkgs ] -- Return the combination return $! hashesFromRepoMetadata <> hashesFromTarballFiles -- ------------------------------------------------------------ -- * Installation planning -- ------------------------------------------------------------ planPackages :: Compiler -> Platform -> Solver -> SolverSettings -> InstalledPackageIndex -> SourcePackageDb -> PkgConfigDb -> [SourcePackage] -> Map PackageName (Map OptionalStanza Bool) -> Progress String String (SolverInstallPlan, PackagesImplicitSetupDeps) planPackages comp platform solver SolverSettings{..} installedPkgIndex sourcePkgDb pkgConfigDB localPackages pkgStanzasEnable = rememberImplicitSetupDeps (depResolverSourcePkgIndex stdResolverParams) <$> resolveDependencies platform (compilerInfo comp) pkgConfigDB solver resolverParams where --TODO: [nice to have] disable multiple instances restriction in the solver, but then -- make sure we can cope with that in the output. resolverParams = setMaxBackjumps solverSettingMaxBackjumps --TODO: [required eventually] should only be configurable for custom installs -- . setIndependentGoals solverSettingIndependentGoals . setReorderGoals solverSettingReorderGoals --TODO: [required eventually] should only be configurable for custom installs -- . setAvoidReinstalls solverSettingAvoidReinstalls --TODO: [required eventually] should only be configurable for custom installs -- . setShadowPkgs solverSettingShadowPkgs . setStrongFlags solverSettingStrongFlags --TODO: [required eventually] decide if we need to prefer installed for -- global packages, or prefer latest even for global packages. Perhaps -- should be configurable but with a different name than "upgrade-dependencies". . setPreferenceDefault PreferLatestForSelected {-(if solverSettingUpgradeDeps then PreferAllLatest else PreferLatestForSelected)-} . removeUpperBounds solverSettingAllowNewer . addDefaultSetupDependencies (defaultSetupDeps platform . PD.packageDescription . packageDescription) . addPreferences -- preferences from the config file or command line [ PackageVersionPreference name ver | Dependency name ver <- solverSettingPreferences ] . addConstraints -- version constraints from the config file or command line [ LabeledPackageConstraint (userToPackageConstraint pc) src | (pc, src) <- solverSettingConstraints ] . addPreferences -- enable stanza preference where the user did not specify [ PackageStanzasPreference pkgname stanzas | pkg <- localPackages , let pkgname = packageName pkg stanzaM = Map.findWithDefault Map.empty pkgname pkgStanzasEnable stanzas = [ stanza | stanza <- [minBound..maxBound] , Map.lookup stanza stanzaM == Nothing ] , not (null stanzas) ] . addConstraints -- enable stanza constraints where the user asked to enable [ LabeledPackageConstraint (PackageConstraintStanzas pkgname stanzas) ConstraintSourceConfigFlagOrTarget | pkg <- localPackages , let pkgname = packageName pkg stanzaM = Map.findWithDefault Map.empty pkgname pkgStanzasEnable stanzas = [ stanza | stanza <- [minBound..maxBound] , Map.lookup stanza stanzaM == Just True ] , not (null stanzas) ] . addConstraints --TODO: [nice to have] should have checked at some point that the -- package in question actually has these flags. [ LabeledPackageConstraint (PackageConstraintFlags pkgname flags) ConstraintSourceConfigFlagOrTarget | (pkgname, flags) <- Map.toList solverSettingFlagAssignments ] . addConstraints --TODO: [nice to have] we have user-supplied flags for unspecified -- local packages (as well as specific per-package flags). For the -- former we just apply all these flags to all local targets which -- is silly. We should check if the flags are appropriate. [ LabeledPackageConstraint (PackageConstraintFlags pkgname flags) ConstraintSourceConfigFlagOrTarget | let flags = solverSettingFlagAssignment , not (null flags) , pkg <- localPackages , let pkgname = packageName pkg ] $ stdResolverParams stdResolverParams = standardInstallPolicy installedPkgIndex sourcePkgDb (map SpecificSourcePackage localPackages) ------------------------------------------------------------------------------ -- * Install plan post-processing ------------------------------------------------------------------------------ -- This phase goes from the InstallPlan we get from the solver and has to -- make an elaborated install plan. -- -- We go in two steps: -- -- 1. elaborate all the source packages that the solver has chosen. -- 2. swap source packages for pre-existing installed packages wherever -- possible. -- -- We do it in this order, elaborating and then replacing, because the easiest -- way to calculate the installed package ids used for the replacement step is -- from the elaborated configuration for each package. ------------------------------------------------------------------------------ -- * Install plan elaboration ------------------------------------------------------------------------------ -- | Produce an elaborated install plan using the policy for local builds with -- a nix-style shared store. -- -- In theory should be able to make an elaborated install plan with a policy -- matching that of the classic @cabal install --user@ or @--global@ -- elaborateInstallPlan :: Platform -> Compiler -> ProgramDb -> DistDirLayout -> CabalDirLayout -> SolverInstallPlan -> PackagesImplicitSetupDeps -> [SourcePackage] -> Map PackageId PackageSourceHash -> InstallDirs.InstallDirTemplates -> ProjectConfigShared -> PackageConfig -> Map PackageName PackageConfig -> (ElaboratedInstallPlan, ElaboratedSharedConfig) elaborateInstallPlan platform compiler compilerprogdb DistDirLayout{..} cabalDirLayout@CabalDirLayout{cabalStorePackageDB} solverPlan pkgsImplicitSetupDeps localPackages sourcePackageHashes defaultInstallDirs _sharedPackageConfig localPackagesConfig perPackageConfig = (elaboratedInstallPlan, elaboratedSharedConfig) where elaboratedSharedConfig = ElaboratedSharedConfig { pkgConfigPlatform = platform, pkgConfigCompiler = compiler, pkgConfigCompilerProgs = compilerprogdb } elaboratedInstallPlan = flip InstallPlan.mapPreservingGraph solverPlan $ \mapDep planpkg -> case planpkg of InstallPlan.PreExisting pkg -> InstallPlan.PreExisting pkg InstallPlan.Configured pkg -> InstallPlan.Configured (elaborateConfiguredPackage (fixupDependencies mapDep pkg)) _ -> error "elaborateInstallPlan: unexpected package state" -- remap the installed package ids of the direct deps, since we're -- changing the installed package ids of all the packages to use the -- final nix-style hashed ids. fixupDependencies mapDep (ConfiguredPackage pkg flags stanzas deps) = ConfiguredPackage pkg flags stanzas deps' where deps' = fmap (map (\d -> d { confInstId = mapDep (confInstId d) })) deps elaborateConfiguredPackage :: ConfiguredPackage -> ElaboratedConfiguredPackage elaborateConfiguredPackage pkg@(ConfiguredPackage (SourcePackage pkgid gdesc srcloc descOverride) flags stanzas deps) = elaboratedPackage where -- Knot tying: the final elaboratedPackage includes the -- pkgInstalledId, which is calculated by hashing many -- of the other fields of the elaboratedPackage. -- elaboratedPackage = ElaboratedConfiguredPackage {..} pkgInstalledId | shouldBuildInplaceOnly pkg = mkUnitId (display pkgid ++ "-inplace") | otherwise = assert (isJust pkgSourceHash) $ hashedInstalledPackageId (packageHashInputs elaboratedSharedConfig elaboratedPackage) -- recursive use of elaboratedPackage | otherwise = error $ "elaborateInstallPlan: non-inplace package " ++ " is missing a source hash: " ++ display pkgid -- All the other fields of the ElaboratedConfiguredPackage -- pkgSourceId = pkgid pkgDescription = let Right (desc, _) = PD.finalizePackageDescription flags (const True) platform (compilerInfo compiler) [] gdesc in desc pkgFlagAssignment = flags pkgFlagDefaults = [ (Cabal.flagName flag, Cabal.flagDefault flag) | flag <- PD.genPackageFlags gdesc ] pkgDependencies = deps pkgStanzasAvailable = Set.fromList stanzas pkgStanzasRequested = Map.fromList $ [ (TestStanzas, v) | v <- maybeToList tests ] ++ [ (BenchStanzas, v) | v <- maybeToList benchmarks ] where tests, benchmarks :: Maybe Bool tests = perPkgOptionMaybe pkgid packageConfigTests benchmarks = perPkgOptionMaybe pkgid packageConfigBenchmarks -- These sometimes get adjusted later pkgStanzasEnabled = Set.empty pkgBuildTargets = [] pkgReplTarget = Nothing pkgBuildHaddocks = False pkgSourceLocation = srcloc pkgSourceHash = Map.lookup pkgid sourcePackageHashes pkgBuildStyle = if shouldBuildInplaceOnly pkg then BuildInplaceOnly else BuildAndInstall pkgBuildPackageDBStack = buildAndRegisterDbs pkgRegisterPackageDBStack = buildAndRegisterDbs pkgRequiresRegistration = isJust (Cabal.condLibrary gdesc) pkgSetupScriptStyle = packageSetupScriptStylePostSolver pkgsImplicitSetupDeps pkg pkgDescription pkgSetupScriptCliVersion = packageSetupScriptSpecVersion pkgSetupScriptStyle pkgDescription deps pkgSetupPackageDBStack = buildAndRegisterDbs buildAndRegisterDbs | shouldBuildInplaceOnly pkg = inplacePackageDbs | otherwise = storePackageDbs pkgDescriptionOverride = descOverride pkgVanillaLib = perPkgOptionFlag pkgid True packageConfigVanillaLib --TODO: [required feature]: also needs to be handled recursively pkgSharedLib = pkgid `Set.member` pkgsUseSharedLibrary pkgDynExe = perPkgOptionFlag pkgid False packageConfigDynExe pkgGHCiLib = perPkgOptionFlag pkgid False packageConfigGHCiLib --TODO: [required feature] needs to default to enabled on windows still pkgProfExe = perPkgOptionFlag pkgid False packageConfigProf pkgProfLib = pkgid `Set.member` pkgsUseProfilingLibrary (pkgProfExeDetail, pkgProfLibDetail) = perPkgOptionLibExeFlag pkgid ProfDetailDefault packageConfigProfDetail packageConfigProfLibDetail pkgCoverage = perPkgOptionFlag pkgid False packageConfigCoverage pkgOptimization = perPkgOptionFlag pkgid NormalOptimisation packageConfigOptimization pkgSplitObjs = perPkgOptionFlag pkgid False packageConfigSplitObjs pkgStripLibs = perPkgOptionFlag pkgid False packageConfigStripLibs pkgStripExes = perPkgOptionFlag pkgid False packageConfigStripExes pkgDebugInfo = perPkgOptionFlag pkgid NoDebugInfo packageConfigDebugInfo -- Combine the configured compiler prog settings with the user-supplied -- config. For the compiler progs any user-supplied config was taken -- into account earlier when configuring the compiler so its ok that -- our configured settings for the compiler override the user-supplied -- config here. pkgProgramPaths = Map.fromList [ (programId prog, programPath prog) | prog <- configuredPrograms compilerprogdb ] <> perPkgOptionMapLast pkgid packageConfigProgramPaths pkgProgramArgs = Map.fromList [ (programId prog, args) | prog <- configuredPrograms compilerprogdb , let args = programOverrideArgs prog , not (null args) ] <> perPkgOptionMapMappend pkgid packageConfigProgramArgs pkgProgramPathExtra = perPkgOptionNubList pkgid packageConfigProgramPathExtra pkgConfigureScriptArgs = perPkgOptionList pkgid packageConfigConfigureArgs pkgExtraLibDirs = perPkgOptionList pkgid packageConfigExtraLibDirs pkgExtraFrameworkDirs = perPkgOptionList pkgid packageConfigExtraFrameworkDirs pkgExtraIncludeDirs = perPkgOptionList pkgid packageConfigExtraIncludeDirs pkgProgPrefix = perPkgOptionMaybe pkgid packageConfigProgPrefix pkgProgSuffix = perPkgOptionMaybe pkgid packageConfigProgSuffix pkgInstallDirs | shouldBuildInplaceOnly pkg -- use the ordinary default install dirs = (InstallDirs.absoluteInstallDirs pkgid (installedUnitId pkg) (compilerInfo compiler) InstallDirs.NoCopyDest platform defaultInstallDirs) { InstallDirs.libsubdir = "", -- absoluteInstallDirs sets these as InstallDirs.datasubdir = "" -- 'undefined' but we have to use } -- them as "Setup.hs configure" args | otherwise -- use special simplified install dirs = storePackageInstallDirs cabalDirLayout (compilerId compiler) pkgInstalledId pkgHaddockHoogle = perPkgOptionFlag pkgid False packageConfigHaddockHoogle pkgHaddockHtml = perPkgOptionFlag pkgid False packageConfigHaddockHtml pkgHaddockHtmlLocation = perPkgOptionMaybe pkgid packageConfigHaddockHtmlLocation pkgHaddockExecutables = perPkgOptionFlag pkgid False packageConfigHaddockExecutables pkgHaddockTestSuites = perPkgOptionFlag pkgid False packageConfigHaddockTestSuites pkgHaddockBenchmarks = perPkgOptionFlag pkgid False packageConfigHaddockBenchmarks pkgHaddockInternal = perPkgOptionFlag pkgid False packageConfigHaddockInternal pkgHaddockCss = perPkgOptionMaybe pkgid packageConfigHaddockCss pkgHaddockHscolour = perPkgOptionFlag pkgid False packageConfigHaddockHscolour pkgHaddockHscolourCss = perPkgOptionMaybe pkgid packageConfigHaddockHscolourCss pkgHaddockContents = perPkgOptionMaybe pkgid packageConfigHaddockContents perPkgOptionFlag :: PackageId -> a -> (PackageConfig -> Flag a) -> a perPkgOptionMaybe :: PackageId -> (PackageConfig -> Flag a) -> Maybe a perPkgOptionList :: PackageId -> (PackageConfig -> [a]) -> [a] perPkgOptionFlag pkgid def f = fromFlagOrDefault def (lookupPerPkgOption pkgid f) perPkgOptionMaybe pkgid f = flagToMaybe (lookupPerPkgOption pkgid f) perPkgOptionList pkgid f = lookupPerPkgOption pkgid f perPkgOptionNubList pkgid f = fromNubList (lookupPerPkgOption pkgid f) perPkgOptionMapLast pkgid f = getMapLast (lookupPerPkgOption pkgid f) perPkgOptionMapMappend pkgid f = getMapMappend (lookupPerPkgOption pkgid f) perPkgOptionLibExeFlag pkgid def fboth flib = (exe, lib) where exe = fromFlagOrDefault def bothflag lib = fromFlagOrDefault def (bothflag <> libflag) bothflag = lookupPerPkgOption pkgid fboth libflag = lookupPerPkgOption pkgid flib lookupPerPkgOption :: (Package pkg, Monoid m) => pkg -> (PackageConfig -> m) -> m lookupPerPkgOption pkg f -- the project config specifies values that apply to packages local to -- but by default non-local packages get all default config values -- the project, and can specify per-package values for any package, | isLocalToProject pkg = local <> perpkg | otherwise = perpkg where local = f localPackagesConfig perpkg = maybe mempty f (Map.lookup (packageName pkg) perPackageConfig) inplacePackageDbs = storePackageDbs ++ [ distPackageDB (compilerId compiler) ] storePackageDbs = [ GlobalPackageDB , cabalStorePackageDB (compilerId compiler) ] -- For this local build policy, every package that lives in a local source -- dir (as opposed to a tarball), or depends on such a package, will be -- built inplace into a shared dist dir. Tarball packages that depend on -- source dir packages will also get unpacked locally. shouldBuildInplaceOnly :: HasUnitId pkg => pkg -> Bool shouldBuildInplaceOnly pkg = Set.member (installedPackageId pkg) pkgsToBuildInplaceOnly pkgsToBuildInplaceOnly :: Set InstalledPackageId pkgsToBuildInplaceOnly = Set.fromList $ map installedPackageId $ InstallPlan.reverseDependencyClosure solverPlan [ fakeUnitId (packageId pkg) | pkg <- localPackages ] isLocalToProject :: Package pkg => pkg -> Bool isLocalToProject pkg = Set.member (packageId pkg) pkgsLocalToProject pkgsLocalToProject :: Set PackageId pkgsLocalToProject = Set.fromList [ packageId pkg | pkg <- localPackages ] pkgsUseSharedLibrary :: Set PackageId pkgsUseSharedLibrary = packagesWithDownwardClosedProperty needsSharedLib where needsSharedLib pkg = fromMaybe compilerShouldUseSharedLibByDefault (liftM2 (||) pkgSharedLib pkgDynExe) where pkgid = packageId pkg pkgSharedLib = perPkgOptionMaybe pkgid packageConfigSharedLib pkgDynExe = perPkgOptionMaybe pkgid packageConfigDynExe --TODO: [code cleanup] move this into the Cabal lib. It's currently open -- coded in Distribution.Simple.Configure, but should be made a proper -- function of the Compiler or CompilerInfo. compilerShouldUseSharedLibByDefault = case compilerFlavor compiler of GHC -> GHC.isDynamic compiler GHCJS -> GHCJS.isDynamic compiler _ -> False pkgsUseProfilingLibrary :: Set PackageId pkgsUseProfilingLibrary = packagesWithDownwardClosedProperty needsProfilingLib where needsProfilingLib pkg = fromFlagOrDefault False (profBothFlag <> profLibFlag) where pkgid = packageId pkg profBothFlag = lookupPerPkgOption pkgid packageConfigProf profLibFlag = lookupPerPkgOption pkgid packageConfigProfLib --TODO: [code cleanup] unused: the old deprecated packageConfigProfExe packagesWithDownwardClosedProperty property = Set.fromList $ map packageId $ InstallPlan.dependencyClosure solverPlan [ installedPackageId pkg | pkg <- InstallPlan.toList solverPlan , property pkg ] -- just the packages that satisfy the propety --TODO: [nice to have] this does not check the config consistency, -- e.g. a package explicitly turning off profiling, but something -- depending on it that needs profiling. This really needs a separate -- package config validation/resolution pass. --TODO: [nice to have] config consistency checking: -- * profiling libs & exes, exe needs lib, recursive -- * shared libs & exes, exe needs lib, recursive -- * vanilla libs & exes, exe needs lib, recursive -- * ghci or shared lib needed by TH, recursive, ghc version dependent --------------------------- -- Build targets -- -- Refer to ProjectPlanning.Types for details of these important types: -- data PackageTarget = ... -- data ComponentTarget = ... -- data SubComponentTarget = ... --TODO: this needs to report some user target/config errors elaboratePackageTargets :: ElaboratedConfiguredPackage -> [PackageTarget] -> ([ComponentTarget], Maybe ComponentTarget, Bool) elaboratePackageTargets ElaboratedConfiguredPackage{..} targets = let buildTargets = nubComponentTargets . map compatSubComponentTargets . concatMap elaborateBuildTarget $ targets --TODO: instead of listToMaybe we should be reporting an error here replTargets = listToMaybe . nubComponentTargets . map compatSubComponentTargets . concatMap elaborateReplTarget $ targets buildHaddocks = HaddockDefaultComponents `elem` targets in (buildTargets, replTargets, buildHaddocks) where --TODO: need to report an error here if defaultComponents is empty elaborateBuildTarget BuildDefaultComponents = pkgDefaultComponents elaborateBuildTarget (BuildSpecificComponent t) = [t] elaborateBuildTarget _ = [] --TODO: need to report an error here if defaultComponents is empty elaborateReplTarget ReplDefaultComponent = take 1 pkgDefaultComponents elaborateReplTarget (ReplSpecificComponent t) = [t] elaborateReplTarget _ = [] pkgDefaultComponents = [ ComponentTarget cname WholeComponent | c <- Cabal.pkgComponents pkgDescription , PD.buildable (Cabal.componentBuildInfo c) , let cname = Cabal.componentName c , enabledOptionalStanza cname ] where enabledOptionalStanza cname = case componentOptionalStanza cname of Nothing -> True Just stanza -> Map.lookup stanza pkgStanzasRequested == Just True -- Not all Cabal Setup.hs versions support sub-component targets, so switch -- them over to the whole component compatSubComponentTargets :: ComponentTarget -> ComponentTarget compatSubComponentTargets target@(ComponentTarget cname _subtarget) | not setupHsSupportsSubComponentTargets = ComponentTarget cname WholeComponent | otherwise = target -- Actually the reality is that no current version of Cabal's Setup.hs -- build command actually support building specific files or modules. setupHsSupportsSubComponentTargets = False -- TODO: when that changes, adjust this test, e.g. -- | pkgSetupScriptCliVersion >= Version [x,y] [] nubComponentTargets :: [ComponentTarget] -> [ComponentTarget] nubComponentTargets = concatMap (wholeComponentOverrides . map snd) . groupBy ((==) `on` fst) . sortBy (compare `on` fst) . map (\t@(ComponentTarget cname _) -> (cname, t)) -- If we're building the whole component then that the only target all we -- need, otherwise we can have several targets within the component. wholeComponentOverrides :: [ComponentTarget] -> [ComponentTarget] wholeComponentOverrides ts = case [ t | t@(ComponentTarget _ WholeComponent) <- ts ] of (t:_) -> [t] [] -> ts pkgHasEphemeralBuildTargets :: ElaboratedConfiguredPackage -> Bool pkgHasEphemeralBuildTargets pkg = isJust (pkgReplTarget pkg) || (not . null) [ () | ComponentTarget _ subtarget <- pkgBuildTargets pkg , subtarget /= WholeComponent ] -- | The components that we'll build all of, meaning that after they're built -- we can skip building them again (unlike with building just some modules or -- other files within a component). -- pkgBuildTargetWholeComponents :: ElaboratedConfiguredPackage -> Set ComponentName pkgBuildTargetWholeComponents pkg = Set.fromList [ cname | ComponentTarget cname WholeComponent <- pkgBuildTargets pkg ] ------------------------------------------------------------------------------ -- * Install plan pruning ------------------------------------------------------------------------------ -- | Given a set of package targets (and optionally component targets within -- those packages), take the subset of the install plan needed to build those -- targets. Also, update the package config to specify which optional stanzas -- to enable, and which targets within each package to build. -- pruneInstallPlanToTargets :: Map InstalledPackageId [PackageTarget] -> ElaboratedInstallPlan -> ElaboratedInstallPlan pruneInstallPlanToTargets perPkgTargetsMap = either (\_ -> assert False undefined) id . InstallPlan.new False . PackageIndex.fromList -- We have to do this in two passes . pruneInstallPlanPass2 . pruneInstallPlanPass1 perPkgTargetsMap . InstallPlan.toList -- The first pass does three things: -- -- * Set the build targets based on the user targets (but not rev deps yet). -- * A first go at determining which optional stanzas (testsuites, benchmarks) -- are needed. We have a second go in the next pass. -- * Take the dependency closure using pruned dependencies. We prune deps that -- are used only by unneeded optional stanzas. These pruned deps are only -- used for the dependency closure and are not persisted in this pass. -- pruneInstallPlanPass1 :: Map InstalledPackageId [PackageTarget] -> [ElaboratedPlanPackage] -> [ElaboratedPlanPackage] pruneInstallPlanPass1 perPkgTargetsMap pkgs = map fst $ dependencyClosure (installedPackageId . fst) -- the pkg id snd -- the pruned deps [ (pkg', pruneOptionalDependencies pkg') | pkg <- pkgs , let pkg' = mapConfiguredPackage (pruneOptionalStanzas . setBuildTargets) pkg ] (Map.keys perPkgTargetsMap) where -- Elaborate and set the targets we'll build for this package. This is just -- based on the targets from the user, not targets implied by reverse -- depencencies. Those comes in the second pass once we know the rev deps. -- setBuildTargets pkg = pkg { pkgBuildTargets = buildTargets, pkgReplTarget = replTarget, pkgBuildHaddocks = buildHaddocks } where (buildTargets, replTarget, buildHaddocks) = elaboratePackageTargets pkg targets targets = fromMaybe [] $ Map.lookup (installedPackageId pkg) perPkgTargetsMap -- Decide whether or not to enable testsuites and benchmarks -- -- The testsuite and benchmark targets are somewhat special in that we need -- to configure the packages with them enabled, and we need to do that even -- if we only want to build one of several testsuites. -- -- There are two cases in which we will enable the testsuites (or -- benchmarks): if one of the targets is a testsuite, or if all of the -- testsuite depencencies are already cached in the store. The rationale -- for the latter is to minimise how often we have to reconfigure due to -- the particular targets we choose to build. Otherwise choosing to build -- a testsuite target, and then later choosing to build an exe target -- would involve unnecessarily reconfiguring the package with testsuites -- disabled. Technically this introduces a little bit of stateful -- behaviour to make this "sticky", but it should be benign. -- pruneOptionalStanzas pkg = pkg { pkgStanzasEnabled = stanzas } where stanzas :: Set OptionalStanza stanzas = optionalStanzasRequiredByTargets pkg <> optionalStanzasRequestedByDefault pkg <> optionalStanzasWithDepsAvailable availablePkgs pkg -- Calculate package depencencies but cut out those needed only by -- optional stanzas that we've determined we will not enable. -- These pruned deps are not persisted in this pass since they're based on -- the optional stanzas and we'll make further tweaks to the optional -- stanzas in the next pass. -- pruneOptionalDependencies :: ElaboratedPlanPackage -> [InstalledPackageId] pruneOptionalDependencies (InstallPlan.Configured pkg) = (CD.flatDeps . CD.filterDeps keepNeeded) (depends pkg) where keepNeeded (CD.ComponentTest _) _ = TestStanzas `Set.member` stanzas keepNeeded (CD.ComponentBench _) _ = BenchStanzas `Set.member` stanzas keepNeeded _ _ = True stanzas = pkgStanzasEnabled pkg pruneOptionalDependencies pkg = CD.flatDeps (depends pkg) optionalStanzasRequiredByTargets :: ElaboratedConfiguredPackage -> Set OptionalStanza optionalStanzasRequiredByTargets pkg = Set.fromList [ stanza | ComponentTarget cname _ <- pkgBuildTargets pkg ++ maybeToList (pkgReplTarget pkg) , stanza <- maybeToList (componentOptionalStanza cname) ] optionalStanzasRequestedByDefault :: ElaboratedConfiguredPackage -> Set OptionalStanza optionalStanzasRequestedByDefault = Map.keysSet . Map.filter (id :: Bool -> Bool) . pkgStanzasRequested availablePkgs = Set.fromList [ installedPackageId pkg | InstallPlan.PreExisting pkg <- pkgs ] optionalStanzasWithDepsAvailable :: Set InstalledPackageId -> ElaboratedConfiguredPackage -> Set OptionalStanza optionalStanzasWithDepsAvailable availablePkgs pkg = Set.fromList [ stanza | stanza <- Set.toList (pkgStanzasAvailable pkg) , let deps :: [InstalledPackageId] deps = map installedPackageId $ CD.select (optionalStanzaDeps stanza) (pkgDependencies pkg) , all (`Set.member` availablePkgs) deps ] where optionalStanzaDeps TestStanzas (CD.ComponentTest _) = True optionalStanzaDeps BenchStanzas (CD.ComponentBench _) = True optionalStanzaDeps _ _ = False -- The second pass does three things: -- -- * A second go at deciding which optional stanzas to enable. -- * Prune the depencencies based on the final choice of optional stanzas. -- * Extend the targets within each package to build, now we know the reverse -- depencencies, ie we know which libs are needed as deps by other packages. -- -- Achieving sticky behaviour with enabling\/disabling optional stanzas is -- tricky. The first approximation was handled by the first pass above, but -- it's not quite enough. That pass will enable stanzas if all of the deps -- of the optional stanza are already instaled /in the store/. That's important -- but it does not account for depencencies that get built inplace as part of -- the project. We cannot take those inplace build deps into account in the -- pruning pass however because we don't yet know which ones we're going to -- build. Once we do know, we can have another go and enable stanzas that have -- all their deps available. Now we can consider all packages in the pruned -- plan to be available, including ones we already decided to build from -- source. -- -- Deciding which targets to build depends on knowing which packages have -- reverse dependencies (ie are needed). This requires the result of first -- pass, which is another reason we have to split it into two passes. -- -- Note that just because we might enable testsuites or benchmarks (in the -- first or second pass) doesn't mean that we build all (or even any) of them. -- That depends on which targets we picked in the first pass. -- pruneInstallPlanPass2 :: [ElaboratedPlanPackage] -> [ElaboratedPlanPackage] pruneInstallPlanPass2 pkgs = map (mapConfiguredPackage setStanzasDepsAndTargets) pkgs where setStanzasDepsAndTargets pkg = pkg { pkgStanzasEnabled = stanzas, pkgDependencies = CD.filterDeps keepNeeded (pkgDependencies pkg), pkgBuildTargets = pkgBuildTargets pkg ++ targetsRequiredForRevDeps } where stanzas :: Set OptionalStanza stanzas = pkgStanzasEnabled pkg <> optionalStanzasWithDepsAvailable availablePkgs pkg keepNeeded (CD.ComponentTest _) _ = TestStanzas `Set.member` stanzas keepNeeded (CD.ComponentBench _) _ = BenchStanzas `Set.member` stanzas keepNeeded _ _ = True targetsRequiredForRevDeps = [ ComponentTarget CLibName WholeComponent -- if anything needs this pkg, build the library component | installedPackageId pkg `Set.member` hasReverseLibDeps ] --TODO: also need to track build-tool rev-deps for exes availablePkgs :: Set InstalledPackageId availablePkgs = Set.fromList (map installedPackageId pkgs) hasReverseLibDeps :: Set InstalledPackageId hasReverseLibDeps = Set.fromList [ depid | pkg <- pkgs , depid <- CD.flatDeps (depends pkg) ] mapConfiguredPackage :: (ElaboratedConfiguredPackage -> ElaboratedConfiguredPackage) -> ElaboratedPlanPackage -> ElaboratedPlanPackage mapConfiguredPackage f (InstallPlan.Configured pkg) = InstallPlan.Configured (f pkg) mapConfiguredPackage _ pkg = pkg componentOptionalStanza :: Cabal.ComponentName -> Maybe OptionalStanza componentOptionalStanza (Cabal.CTestName _) = Just TestStanzas componentOptionalStanza (Cabal.CBenchName _) = Just BenchStanzas componentOptionalStanza _ = Nothing dependencyClosure :: (pkg -> InstalledPackageId) -> (pkg -> [InstalledPackageId]) -> [pkg] -> [InstalledPackageId] -> [pkg] dependencyClosure pkgid deps allpkgs = map vertexToPkg . concatMap Tree.flatten . Graph.dfs graph . map pkgidToVertex where (graph, vertexToPkg, pkgidToVertex) = dependencyGraph pkgid deps allpkgs dependencyGraph :: (pkg -> InstalledPackageId) -> (pkg -> [InstalledPackageId]) -> [pkg] -> (Graph.Graph, Graph.Vertex -> pkg, InstalledPackageId -> Graph.Vertex) dependencyGraph pkgid deps pkgs = (graph, vertexToPkg', pkgidToVertex') where (graph, vertexToPkg, pkgidToVertex) = Graph.graphFromEdges [ ( pkg, pkgid pkg, deps pkg ) | pkg <- pkgs ] vertexToPkg' = (\(pkg,_,_) -> pkg) . vertexToPkg pkgidToVertex' = fromMaybe (error "dependencyGraph: lookup failure") . pkgidToVertex --------------------------- -- Setup.hs script policy -- -- Handling for Setup.hs scripts is a bit tricky, part of it lives in the -- solver phase, and part in the elaboration phase. We keep the helper -- functions for both phases together here so at least you can see all of it -- in one place. -- -- There are four major cases for Setup.hs handling: -- -- 1. @build-type@ Custom with a @custom-setup@ section -- 2. @build-type@ Custom without a @custom-setup@ section -- 3. @build-type@ not Custom with @cabal-version > $our-cabal-version@ -- 4. @build-type@ not Custom with @cabal-version <= $our-cabal-version@ -- -- It's also worth noting that packages specifying @cabal-version: >= 1.23@ -- or later that have @build-type@ Custom will always have a @custom-setup@ -- section. Therefore in case 2, the specified @cabal-version@ will always be -- less than 1.23. -- -- In cases 1 and 2 we obviously have to build an external Setup.hs script, -- while in case 4 we can use the internal library API. In case 3 we also have -- to build an external Setup.hs script because the package needs a later -- Cabal lib version than we can support internally. -- -- data SetupScriptStyle = ... -- see ProjectPlanning.Types -- | Work out the 'SetupScriptStyle' given the package description. -- -- This only works on original packages before we give them to the solver, -- since after the solver some implicit setup deps are made explicit. -- -- See 'rememberImplicitSetupDeps' and 'packageSetupScriptStylePostSolver'. -- packageSetupScriptStylePreSolver :: PD.PackageDescription -> SetupScriptStyle packageSetupScriptStylePreSolver pkg | buildType == PD.Custom , isJust (PD.setupBuildInfo pkg) = SetupCustomExplicitDeps | buildType == PD.Custom = SetupCustomImplicitDeps | PD.specVersion pkg > cabalVersion -- one cabal-install is built against = SetupNonCustomExternalLib | otherwise = SetupNonCustomInternalLib where buildType = fromMaybe PD.Custom (PD.buildType pkg) -- | Part of our Setup.hs handling policy is implemented by getting the solver -- to work out setup dependencies for packages. The solver already handles -- packages that explicitly specify setup dependencies, but we can also tell -- the solver to treat other packages as if they had setup dependencies. -- That's what this function does, it gets called by the solver for all -- packages that don't already have setup dependencies. -- -- The dependencies we want to add is different for each 'SetupScriptStyle'. -- -- Note that adding default deps means these deps are actually /added/ to the -- packages that we get out of the solver in the 'SolverInstallPlan'. Making -- implicit setup deps explicit is a problem in the post-solver stages because -- we still need to distinguish the case of explicit and implict setup deps. -- See 'rememberImplicitSetupDeps'. -- defaultSetupDeps :: Platform -> PD.PackageDescription -> Maybe [Dependency] defaultSetupDeps platform pkg = case packageSetupScriptStylePreSolver pkg of -- For packages with build type custom that do not specify explicit -- setup dependencies, we add a dependency on Cabal and a number -- of other packages. SetupCustomImplicitDeps -> Just $ [ Dependency depPkgname anyVersion | depPkgname <- legacyCustomSetupPkgs platform ] ++ -- The Cabal dep is slightly special: -- * we omit the dep for the Cabal lib itself (since it bootstraps), -- * we constrain it to be less than 1.23 since all packages -- relying on later Cabal spec versions are supposed to use -- explit setup deps. Having this constraint also allows later -- Cabal lib versions to make breaking API changes without breaking -- all old Setup.hs scripts. [ Dependency cabalPkgname cabalConstraint | packageName pkg /= cabalPkgname ] where cabalConstraint = orLaterVersion (PD.specVersion pkg) `intersectVersionRanges` earlierVersion cabalCompatMaxVer -- TODO/FIXME: turns out that constraining to less than 1.23 causes -- problems with GHC8 as there's too many important packages -- with Custom build-type, for which there wouldn't be any -- install-plan (as GHC8 requires Cabal-1.24+). So let's -- set an implicit upper bound `Cabal < 2` instead. cabalCompatMaxVer = Version [2] [] -- For other build types (like Simple) if we still need to compile an -- external Setup.hs, it'll be one of the simple ones that only depends -- on Cabal and base. SetupNonCustomExternalLib -> Just [ Dependency cabalPkgname cabalConstraint , Dependency basePkgname anyVersion ] where cabalConstraint = orLaterVersion (PD.specVersion pkg) -- The internal setup wrapper method has no deps at all. SetupNonCustomInternalLib -> Just [] SetupCustomExplicitDeps -> error $ "defaultSetupDeps: called for a package with explicit " ++ "setup deps: " ++ display (packageId pkg) -- | See 'rememberImplicitSetupDeps' for details. type PackagesImplicitSetupDeps = Set InstalledPackageId -- | A consequence of using 'defaultSetupDeps' in 'planPackages' is that by -- making implicit setup deps explicit we loose track of which packages -- originally had implicit setup deps. That's important because we do still -- have different behaviour based on the setup style (in particular whether to -- compile a Setup.hs script with version macros). -- -- So we remember the necessary information in an auxilliary set and use it -- in 'packageSetupScriptStylePreSolver' to recover the full info. -- rememberImplicitSetupDeps :: SourcePackageIndex.PackageIndex SourcePackage -> SolverInstallPlan -> (SolverInstallPlan, PackagesImplicitSetupDeps) rememberImplicitSetupDeps sourcePkgIndex plan = (plan, pkgsImplicitSetupDeps) where pkgsImplicitSetupDeps = Set.fromList [ installedPackageId pkg | InstallPlan.Configured pkg@(ConfiguredPackage newpkg _ _ _) <- InstallPlan.toList plan -- has explicit setup deps now , hasExplicitSetupDeps newpkg -- but originally had no setup deps , let Just origpkg = SourcePackageIndex.lookupPackageId sourcePkgIndex (packageId pkg) , not (hasExplicitSetupDeps origpkg) ] hasExplicitSetupDeps = (SetupCustomExplicitDeps==) . packageSetupScriptStylePreSolver . PD.packageDescription . packageDescription -- | Use the extra info saved by 'rememberImplicitSetupDeps' to let us work -- out the correct 'SetupScriptStyle'. This should give the same result as -- 'packageSetupScriptStylePreSolver' gave prior to munging the package info -- through the solver. -- packageSetupScriptStylePostSolver :: Set InstalledPackageId -> ConfiguredPackage -> PD.PackageDescription -> SetupScriptStyle packageSetupScriptStylePostSolver pkgsImplicitSetupDeps pkg pkgDescription = case packageSetupScriptStylePreSolver pkgDescription of SetupCustomExplicitDeps | Set.member (installedPackageId pkg) pkgsImplicitSetupDeps -> SetupCustomImplicitDeps other -> other -- | Work out which version of the Cabal spec we will be using to talk to the -- Setup.hs interface for this package. -- -- This depends somewhat on the 'SetupScriptStyle' but most cases are a result -- of what the solver picked for us, based on the explicit setup deps or the -- ones added implicitly by 'defaultSetupDeps'. -- packageSetupScriptSpecVersion :: Package pkg => SetupScriptStyle -> PD.PackageDescription -> ComponentDeps [pkg] -> Version -- We're going to be using the internal Cabal library, so the spec version of -- that is simply the version of the Cabal library that cabal-install has been -- built with. packageSetupScriptSpecVersion SetupNonCustomInternalLib _ _ = cabalVersion -- If we happen to be building the Cabal lib itself then because that -- bootstraps itself then we use the version of the lib we're building. packageSetupScriptSpecVersion SetupCustomImplicitDeps pkg _ | packageName pkg == cabalPkgname = packageVersion pkg -- In all other cases we have a look at what version of the Cabal lib the -- solver picked. Or if it didn't depend on Cabal at all (which is very rare) -- then we look at the .cabal file to see what spec version it declares. packageSetupScriptSpecVersion _ pkg deps = case find ((cabalPkgname ==) . packageName) (CD.setupDeps deps) of Just dep -> packageVersion dep Nothing -> PD.specVersion pkg cabalPkgname, basePkgname :: PackageName cabalPkgname = PackageName "Cabal" basePkgname = PackageName "base" legacyCustomSetupPkgs :: Platform -> [PackageName] legacyCustomSetupPkgs (Platform _ os) = map PackageName $ [ "array", "base", "binary", "bytestring", "containers" , "deepseq", "directory", "filepath", "pretty" , "process", "time" ] ++ [ "Win32" | os == Windows ] ++ [ "unix" | os /= Windows ] -- The other aspects of our Setup.hs policy lives here where we decide on -- the 'SetupScriptOptions'. -- -- Our current policy for the 'SetupCustomImplicitDeps' case is that we -- try to make the implicit deps cover everything, and we don't allow the -- compiler to pick up other deps. This may or may not be sustainable, and -- we might have to allow the deps to be non-exclusive, but that itself would -- be tricky since we would have to allow the Setup access to all the packages -- in the store and local dbs. setupHsScriptOptions :: ElaboratedReadyPackage -> ElaboratedSharedConfig -> FilePath -> FilePath -> Bool -> Lock -> SetupScriptOptions setupHsScriptOptions (ReadyPackage ElaboratedConfiguredPackage{..} deps) ElaboratedSharedConfig{..} srcdir builddir isParallelBuild cacheLock = SetupScriptOptions { useCabalVersion = thisVersion pkgSetupScriptCliVersion, useCabalSpecVersion = Just pkgSetupScriptCliVersion, useCompiler = Just pkgConfigCompiler, usePlatform = Just pkgConfigPlatform, usePackageDB = pkgSetupPackageDBStack, usePackageIndex = Nothing, useDependencies = [ (installedPackageId ipkg, packageId ipkg) | ipkg <- CD.setupDeps deps ], useDependenciesExclusive = True, useVersionMacros = pkgSetupScriptStyle == SetupCustomExplicitDeps, useProgramConfig = pkgConfigCompilerProgs, useDistPref = builddir, useLoggingHandle = Nothing, -- this gets set later useWorkingDir = Just srcdir, useWin32CleanHack = False, --TODO: [required eventually] forceExternalSetupMethod = isParallelBuild, setupCacheLock = Just cacheLock } -- | To be used for the input for elaborateInstallPlan. -- -- TODO: [code cleanup] make InstallDirs.defaultInstallDirs pure. -- userInstallDirTemplates :: Compiler -> IO InstallDirs.InstallDirTemplates userInstallDirTemplates compiler = do InstallDirs.defaultInstallDirs (compilerFlavor compiler) True -- user install False -- unused storePackageInstallDirs :: CabalDirLayout -> CompilerId -> InstalledPackageId -> InstallDirs.InstallDirs FilePath storePackageInstallDirs CabalDirLayout{cabalStorePackageDirectory} compid ipkgid = InstallDirs.InstallDirs {..} where prefix = cabalStorePackageDirectory compid ipkgid bindir = prefix "bin" libdir = prefix "lib" libsubdir = "" dynlibdir = libdir libexecdir = prefix "libexec" includedir = libdir "include" datadir = prefix "share" datasubdir = "" docdir = datadir "doc" mandir = datadir "man" htmldir = docdir "html" haddockdir = htmldir sysconfdir = prefix "etc" --TODO: [code cleanup] perhaps reorder this code -- based on the ElaboratedInstallPlan + ElaboratedSharedConfig, -- make the various Setup.hs {configure,build,copy} flags setupHsConfigureFlags :: ElaboratedReadyPackage -> ElaboratedSharedConfig -> Verbosity -> FilePath -> Cabal.ConfigFlags setupHsConfigureFlags (ReadyPackage pkg@ElaboratedConfiguredPackage{..} pkgdeps) sharedConfig@ElaboratedSharedConfig{..} verbosity builddir = assert (sanityCheckElaboratedConfiguredPackage sharedConfig pkg) Cabal.ConfigFlags {..} where configDistPref = toFlag builddir configVerbosity = toFlag verbosity configIPID = toFlag (display (installedUnitId pkg)) configProgramPaths = Map.toList pkgProgramPaths configProgramArgs = Map.toList pkgProgramArgs configProgramPathExtra = toNubList pkgProgramPathExtra configHcFlavor = toFlag (compilerFlavor pkgConfigCompiler) configHcPath = mempty -- we use configProgramPaths instead configHcPkg = mempty -- we use configProgramPaths instead configVanillaLib = toFlag pkgVanillaLib configSharedLib = toFlag pkgSharedLib configDynExe = toFlag pkgDynExe configGHCiLib = toFlag pkgGHCiLib configProfExe = mempty configProfLib = toFlag pkgProfLib configProf = toFlag pkgProfExe -- configProfDetail is for exe+lib, but overridden by configProfLibDetail -- so we specify both so we can specify independently configProfDetail = toFlag pkgProfExeDetail configProfLibDetail = toFlag pkgProfLibDetail configCoverage = toFlag pkgCoverage configLibCoverage = mempty configOptimization = toFlag pkgOptimization configSplitObjs = toFlag pkgSplitObjs configStripExes = toFlag pkgStripExes configStripLibs = toFlag pkgStripLibs configDebugInfo = toFlag pkgDebugInfo configAllowNewer = mempty -- we use configExactConfiguration True configConfigurationsFlags = pkgFlagAssignment configConfigureArgs = pkgConfigureScriptArgs configExtraLibDirs = pkgExtraLibDirs configExtraFrameworkDirs = pkgExtraFrameworkDirs configExtraIncludeDirs = pkgExtraIncludeDirs configProgPrefix = maybe mempty toFlag pkgProgPrefix configProgSuffix = maybe mempty toFlag pkgProgSuffix configInstallDirs = fmap (toFlag . InstallDirs.toPathTemplate) pkgInstallDirs -- we only use configDependencies, unless we're talking to an old Cabal -- in which case we use configConstraints configDependencies = [ (packageName (Installed.sourcePackageId deppkg), Installed.installedUnitId deppkg) | deppkg <- CD.nonSetupDeps pkgdeps ] configConstraints = [ thisPackageVersion (packageId deppkg) | deppkg <- CD.nonSetupDeps pkgdeps ] -- explicitly clear, then our package db stack -- TODO: [required eventually] have to do this differently for older Cabal versions configPackageDBs = Nothing : map Just pkgBuildPackageDBStack configTests = toFlag (TestStanzas `Set.member` pkgStanzasEnabled) configBenchmarks = toFlag (BenchStanzas `Set.member` pkgStanzasEnabled) configExactConfiguration = toFlag True configFlagError = mempty --TODO: [research required] appears not to be implemented configRelocatable = mempty --TODO: [research required] ??? configScratchDir = mempty -- never use configUserInstall = mempty -- don't rely on defaults configPrograms_ = mempty -- never use, shouldn't exist setupHsBuildFlags :: ElaboratedConfiguredPackage -> ElaboratedSharedConfig -> Verbosity -> FilePath -> Cabal.BuildFlags setupHsBuildFlags ElaboratedConfiguredPackage{..} _ verbosity builddir = Cabal.BuildFlags { buildProgramPaths = mempty, --unused, set at configure time buildProgramArgs = mempty, --unused, set at configure time buildVerbosity = toFlag verbosity, buildDistPref = toFlag builddir, buildNumJobs = mempty, --TODO: [nice to have] sometimes want to use toFlag (Just numBuildJobs), buildArgs = mempty -- unused, passed via args not flags } setupHsBuildArgs :: ElaboratedConfiguredPackage -> [String] setupHsBuildArgs pkg = map (showComponentTarget pkg) (pkgBuildTargets pkg) showComponentTarget :: ElaboratedConfiguredPackage -> ComponentTarget -> String showComponentTarget pkg = showBuildTarget . toBuildTarget where showBuildTarget t = Cabal.showBuildTarget (qlBuildTarget t) (packageId pkg) t qlBuildTarget Cabal.BuildTargetComponent{} = Cabal.QL2 qlBuildTarget _ = Cabal.QL3 toBuildTarget :: ComponentTarget -> Cabal.BuildTarget toBuildTarget (ComponentTarget cname subtarget) = case subtarget of WholeComponent -> Cabal.BuildTargetComponent cname ModuleTarget mname -> Cabal.BuildTargetModule cname mname FileTarget fname -> Cabal.BuildTargetFile cname fname setupHsReplFlags :: ElaboratedConfiguredPackage -> ElaboratedSharedConfig -> Verbosity -> FilePath -> Cabal.ReplFlags setupHsReplFlags ElaboratedConfiguredPackage{..} _ verbosity builddir = Cabal.ReplFlags { replProgramPaths = mempty, --unused, set at configure time replProgramArgs = mempty, --unused, set at configure time replVerbosity = toFlag verbosity, replDistPref = toFlag builddir, replReload = mempty --only used as callback from repl } setupHsReplArgs :: ElaboratedConfiguredPackage -> [String] setupHsReplArgs pkg = maybe [] (\t -> [showComponentTarget pkg t]) (pkgReplTarget pkg) --TODO: should be able to give multiple modules in one component setupHsCopyFlags :: ElaboratedConfiguredPackage -> ElaboratedSharedConfig -> Verbosity -> FilePath -> Cabal.CopyFlags setupHsCopyFlags _ _ verbosity builddir = Cabal.CopyFlags { --TODO: [nice to have] we currently just rely on Setup.hs copy to always do the right -- thing, but perhaps we ought really to copy into an image dir and do -- some sanity checks and move into the final location ourselves copyDest = toFlag InstallDirs.NoCopyDest, copyDistPref = toFlag builddir, copyVerbosity = toFlag verbosity } setupHsRegisterFlags :: ElaboratedConfiguredPackage -> ElaboratedSharedConfig -> Verbosity -> FilePath -> FilePath -> Cabal.RegisterFlags setupHsRegisterFlags ElaboratedConfiguredPackage {pkgBuildStyle} _ verbosity builddir pkgConfFile = Cabal.RegisterFlags { regPackageDB = mempty, -- misfeature regGenScript = mempty, -- never use regGenPkgConf = toFlag (Just pkgConfFile), regInPlace = case pkgBuildStyle of BuildInplaceOnly -> toFlag True _ -> toFlag False, regPrintId = mempty, -- never use regDistPref = toFlag builddir, regVerbosity = toFlag verbosity } setupHsHaddockFlags :: ElaboratedConfiguredPackage -> ElaboratedSharedConfig -> Verbosity -> FilePath -> Cabal.HaddockFlags setupHsHaddockFlags ElaboratedConfiguredPackage{..} _ verbosity builddir = Cabal.HaddockFlags { haddockProgramPaths = mempty, --unused, set at configure time haddockProgramArgs = mempty, --unused, set at configure time haddockHoogle = toFlag pkgHaddockHoogle, haddockHtml = toFlag pkgHaddockHtml, haddockHtmlLocation = maybe mempty toFlag pkgHaddockHtmlLocation, haddockForHackage = mempty, --TODO: new flag haddockExecutables = toFlag pkgHaddockExecutables, haddockTestSuites = toFlag pkgHaddockTestSuites, haddockBenchmarks = toFlag pkgHaddockBenchmarks, haddockInternal = toFlag pkgHaddockInternal, haddockCss = maybe mempty toFlag pkgHaddockCss, haddockHscolour = toFlag pkgHaddockHscolour, haddockHscolourCss = maybe mempty toFlag pkgHaddockHscolourCss, haddockContents = maybe mempty toFlag pkgHaddockContents, haddockDistPref = toFlag builddir, haddockKeepTempFiles = mempty, --TODO: from build settings haddockVerbosity = toFlag verbosity } {- setupHsTestFlags :: ElaboratedConfiguredPackage -> ElaboratedSharedConfig -> Verbosity -> FilePath -> Cabal.TestFlags setupHsTestFlags _ _ verbosity builddir = Cabal.TestFlags { } -} ------------------------------------------------------------------------------ -- * Sharing installed packages ------------------------------------------------------------------------------ -- -- Nix style store management for tarball packages -- -- So here's our strategy: -- -- We use a per-user nix-style hashed store, but /only/ for tarball packages. -- So that includes packages from hackage repos (and other http and local -- tarballs). For packages in local directories we do not register them into -- the shared store by default, we just build them locally inplace. -- -- The reason we do it like this is that it's easy to make stable hashes for -- tarball packages, and these packages benefit most from sharing. By contrast -- unpacked dir packages are harder to hash and they tend to change more -- frequently so there's less benefit to sharing them. -- -- When using the nix store approach we have to run the solver *without* -- looking at the packages installed in the store, just at the source packages -- (plus core\/global installed packages). Then we do a post-processing pass -- to replace configured packages in the plan with pre-existing ones, where -- possible. Where possible of course means where the nix-style package hash -- equals one that's already in the store. -- -- One extra wrinkle is that unless we know package tarball hashes upfront, we -- will have to download the tarballs to find their hashes. So we have two -- options: delay replacing source with pre-existing installed packages until -- the point during the execution of the install plan where we have the -- tarball, or try to do as much up-front as possible and then check again -- during plan execution. The former isn't great because we would end up -- telling users we're going to re-install loads of packages when in fact we -- would just share them. It'd be better to give as accurate a prediction as -- we can. The latter is better for users, but we do still have to check -- during plan execution because it's important that we don't replace existing -- installed packages even if they have the same package hash, because we -- don't guarantee ABI stability. -- TODO: [required eventually] for safety of concurrent installs, we must make sure we register but -- not replace installed packages with ghc-pkg. packageHashInputs :: ElaboratedSharedConfig -> ElaboratedConfiguredPackage -> PackageHashInputs packageHashInputs pkgshared pkg@ElaboratedConfiguredPackage{ pkgSourceId, pkgSourceHash = Just srchash, pkgDependencies } = PackageHashInputs { pkgHashPkgId = pkgSourceId, pkgHashSourceHash = srchash, pkgHashDirectDeps = Set.fromList [ installedPackageId dep | dep <- CD.select relevantDeps pkgDependencies ], pkgHashOtherConfig = packageHashConfigInputs pkgshared pkg } where -- Obviously the main deps are relevant relevantDeps CD.ComponentLib = True relevantDeps (CD.ComponentExe _) = True -- Setup deps can affect the Setup.hs behaviour and thus what is built relevantDeps CD.ComponentSetup = True -- However testsuites and benchmarks do not get installed and should not -- affect the result, so we do not include them. relevantDeps (CD.ComponentTest _) = False relevantDeps (CD.ComponentBench _) = False packageHashInputs _ pkg = error $ "packageHashInputs: only for packages with source hashes. " ++ display (packageId pkg) packageHashConfigInputs :: ElaboratedSharedConfig -> ElaboratedConfiguredPackage -> PackageHashConfigInputs packageHashConfigInputs ElaboratedSharedConfig{..} ElaboratedConfiguredPackage{..} = PackageHashConfigInputs { pkgHashCompilerId = compilerId pkgConfigCompiler, pkgHashPlatform = pkgConfigPlatform, pkgHashFlagAssignment = pkgFlagAssignment, pkgHashConfigureScriptArgs = pkgConfigureScriptArgs, pkgHashVanillaLib = pkgVanillaLib, pkgHashSharedLib = pkgSharedLib, pkgHashDynExe = pkgDynExe, pkgHashGHCiLib = pkgGHCiLib, pkgHashProfLib = pkgProfLib, pkgHashProfExe = pkgProfExe, pkgHashProfLibDetail = pkgProfLibDetail, pkgHashProfExeDetail = pkgProfExeDetail, pkgHashCoverage = pkgCoverage, pkgHashOptimization = pkgOptimization, pkgHashSplitObjs = pkgSplitObjs, pkgHashStripLibs = pkgStripLibs, pkgHashStripExes = pkgStripExes, pkgHashDebugInfo = pkgDebugInfo, pkgHashExtraLibDirs = pkgExtraLibDirs, pkgHashExtraFrameworkDirs = pkgExtraFrameworkDirs, pkgHashExtraIncludeDirs = pkgExtraIncludeDirs, pkgHashProgPrefix = pkgProgPrefix, pkgHashProgSuffix = pkgProgSuffix } -- | Given the 'InstalledPackageIndex' for a nix-style package store, and an -- 'ElaboratedInstallPlan', replace configured source packages by pre-existing -- installed packages whenever they exist. -- improveInstallPlanWithPreExistingPackages :: InstalledPackageIndex -> ElaboratedInstallPlan -> ElaboratedInstallPlan improveInstallPlanWithPreExistingPackages installedPkgIndex installPlan = replaceWithPreExisting installPlan [ ipkg | InstallPlan.Configured pkg <- InstallPlan.reverseTopologicalOrder installPlan , ipkg <- maybeToList (canPackageBeImproved pkg) ] where --TODO: sanity checks: -- * the installed package must have the expected deps etc -- * the installed package must not be broken, valid dep closure --TODO: decide what to do if we encounter broken installed packages, -- since overwriting is never safe. canPackageBeImproved pkg = PackageIndex.lookupUnitId installedPkgIndex (installedPackageId pkg) replaceWithPreExisting = foldl' (\plan ipkg -> InstallPlan.preexisting (installedPackageId ipkg) ipkg plan)