{-# LANGUAGE DeriveFunctor #-} {-# LANGUAGE DeriveGeneric #-} {-# LANGUAGE StandaloneDeriving #-} {-# LANGUAGE BangPatterns #-} {-# OPTIONS_GHC -fno-warn-orphans #-} ----------------------------------------------------------------------------- -- | -- Module : Distribution.Client.Types -- Copyright : (c) David Himmelstrup 2005 -- Duncan Coutts 2011 -- License : BSD-like -- -- Maintainer : cabal-devel@haskell.org -- Stability : provisional -- Portability : portable -- -- Various common data types for the entire cabal-install system ----------------------------------------------------------------------------- module Distribution.Client.Types where import Distribution.Package ( PackageName, PackageId, Package(..) , UnitId(..), mkUnitId , HasUnitId(..), PackageInstalled(..) ) import Distribution.InstalledPackageInfo ( InstalledPackageInfo ) import Distribution.PackageDescription ( Benchmark(..), GenericPackageDescription(..), FlagAssignment , TestSuite(..) ) import Distribution.PackageDescription.Configuration ( mapTreeData ) import Distribution.Client.PackageIndex ( PackageIndex ) import Distribution.Client.ComponentDeps ( ComponentDeps ) import qualified Distribution.Client.ComponentDeps as CD import Distribution.Version ( VersionRange ) import Distribution.Text (display) import Data.Map (Map) import Network.URI (URI(..), URIAuth(..), nullURI) import Data.ByteString.Lazy (ByteString) import Control.Exception ( SomeException ) import GHC.Generics (Generic) import Distribution.Compat.Binary (Binary(..)) newtype Username = Username { unUsername :: String } newtype Password = Password { unPassword :: String } -- | This is the information we get from a @00-index.tar.gz@ hackage index. -- data SourcePackageDb = SourcePackageDb { packageIndex :: PackageIndex SourcePackage, packagePreferences :: Map PackageName VersionRange } deriving (Eq, Generic) instance Binary SourcePackageDb -- ------------------------------------------------------------ -- * Various kinds of information about packages -- ------------------------------------------------------------ -- | Within Cabal the library we no longer have a @InstalledPackageId@ type. -- That's because it deals with the compilers' notion of a registered library, -- and those really are libraries not packages. Those are now named units. -- -- The package management layer does however deal with installed packages, as -- whole packages not just as libraries. So we do still need a type for -- installed package ids. At the moment however we track instaled packages via -- their primary library, which is a unit id. In future this may change -- slightly and we may distinguish these two types and have an explicit -- conversion when we register units with the compiler. -- type InstalledPackageId = UnitId installedPackageId :: HasUnitId pkg => pkg -> InstalledPackageId installedPackageId = installedUnitId -- | Subclass of packages that have specific versioned dependencies. -- -- So for example a not-yet-configured package has dependencies on version -- ranges, not specific versions. A configured or an already installed package -- depends on exact versions. Some operations or data structures (like -- dependency graphs) only make sense on this subclass of package types. -- class Package pkg => PackageFixedDeps pkg where depends :: pkg -> ComponentDeps [UnitId] instance PackageFixedDeps InstalledPackageInfo where depends = CD.fromInstalled . installedDepends -- | In order to reuse the implementation of PackageIndex which relies on -- 'UnitId', we need to be able to synthesize these IDs prior -- to installation. Eventually, we'll move to a representation of -- 'UnitId' which can be properly computed before compilation -- (of course, it's a bit of a misnomer since the packages are not actually -- installed yet.) In any case, we'll synthesize temporary installed package -- IDs to use as keys during install planning. These should never be written -- out! Additionally, they need to be guaranteed unique within the install -- plan. fakeUnitId :: PackageId -> UnitId fakeUnitId = mkUnitId . (".fake."++) . display -- | A 'ConfiguredPackage' is a not-yet-installed package along with the -- total configuration information. The configuration information is total in -- the sense that it provides all the configuration information and so the -- final configure process will be independent of the environment. -- data ConfiguredPackage = ConfiguredPackage SourcePackage -- package info, including repo FlagAssignment -- complete flag assignment for the package [OptionalStanza] -- list of enabled optional stanzas for the package (ComponentDeps [ConfiguredId]) -- set of exact dependencies (installed or source). -- These must be consistent with the 'buildDepends' -- in the 'PackageDescription' that you'd get by -- applying the flag assignment and optional stanzas. deriving (Eq, Show, Generic) instance Binary ConfiguredPackage -- | A ConfiguredId is a package ID for a configured package. -- -- Once we configure a source package we know it's UnitId -- (at least, in principle, even if we have to fake it currently). It is still -- however useful in lots of places to also know the source ID for the package. -- We therefore bundle the two. -- -- An already installed package of course is also "configured" (all it's -- configuration parameters and dependencies have been specified). -- -- TODO: I wonder if it would make sense to promote this datatype to Cabal -- and use it consistently instead of UnitIds? data ConfiguredId = ConfiguredId { confSrcId :: PackageId , confInstId :: UnitId } deriving (Eq, Generic) instance Binary ConfiguredId instance Show ConfiguredId where show = show . confSrcId instance Package ConfiguredId where packageId = confSrcId instance HasUnitId ConfiguredId where installedUnitId = confInstId instance Package ConfiguredPackage where packageId (ConfiguredPackage pkg _ _ _) = packageId pkg instance PackageFixedDeps ConfiguredPackage where depends (ConfiguredPackage _ _ _ deps) = fmap (map confInstId) deps instance HasUnitId ConfiguredPackage where installedUnitId = fakeUnitId . packageId -- | Like 'ConfiguredPackage', but with all dependencies guaranteed to be -- installed already, hence itself ready to be installed. data GenericReadyPackage srcpkg ipkg = ReadyPackage srcpkg -- see 'ConfiguredPackage'. (ComponentDeps [ipkg]) -- Installed dependencies. deriving (Eq, Show, Generic) type ReadyPackage = GenericReadyPackage ConfiguredPackage InstalledPackageInfo instance Package srcpkg => Package (GenericReadyPackage srcpkg ipkg) where packageId (ReadyPackage srcpkg _deps) = packageId srcpkg instance (Package srcpkg, HasUnitId ipkg) => PackageFixedDeps (GenericReadyPackage srcpkg ipkg) where depends (ReadyPackage _ deps) = fmap (map installedUnitId) deps instance HasUnitId srcpkg => HasUnitId (GenericReadyPackage srcpkg ipkg) where installedUnitId (ReadyPackage pkg _) = installedUnitId pkg instance (Binary srcpkg, Binary ipkg) => Binary (GenericReadyPackage srcpkg ipkg) -- | A package description along with the location of the package sources. -- data SourcePackage = SourcePackage { packageInfoId :: PackageId, packageDescription :: GenericPackageDescription, packageSource :: PackageLocation (Maybe FilePath), packageDescrOverride :: PackageDescriptionOverride } deriving (Eq, Show, Generic) instance Binary SourcePackage -- | We sometimes need to override the .cabal file in the tarball with -- the newer one from the package index. type PackageDescriptionOverride = Maybe ByteString instance Package SourcePackage where packageId = packageInfoId data OptionalStanza = TestStanzas | BenchStanzas deriving (Eq, Ord, Enum, Bounded, Show, Generic) instance Binary OptionalStanza enableStanzas :: [OptionalStanza] -> GenericPackageDescription -> GenericPackageDescription enableStanzas stanzas gpkg = gpkg { condBenchmarks = flagBenchmarks $ condBenchmarks gpkg , condTestSuites = flagTests $ condTestSuites gpkg } where enableTest t = t { testEnabled = TestStanzas `elem` stanzas } enableBenchmark bm = bm { benchmarkEnabled = BenchStanzas `elem` stanzas } flagBenchmarks = map (\(n, bm) -> (n, mapTreeData enableBenchmark bm)) flagTests = map (\(n, t) -> (n, mapTreeData enableTest t)) -- ------------------------------------------------------------ -- * Package locations and repositories -- ------------------------------------------------------------ data PackageLocation local = -- | An unpacked package in the given dir, or current dir LocalUnpackedPackage FilePath -- | A package as a tarball that's available as a local tarball | LocalTarballPackage FilePath -- | A package as a tarball from a remote URI | RemoteTarballPackage URI local -- | A package available as a tarball from a repository. -- -- It may be from a local repository or from a remote repository, with a -- locally cached copy. ie a package available from hackage | RepoTarballPackage Repo PackageId local --TODO: -- * add support for darcs and other SCM style remote repos with a local cache -- | ScmPackage deriving (Show, Functor, Eq, Ord, Generic) instance Binary local => Binary (PackageLocation local) -- note, network-uri-2.6.0.3+ provide a Generic instance but earlier -- versions do not, so we use manual Binary instances here instance Binary URI where put (URI a b c d e) = do put a; put b; put c; put d; put e get = do !a <- get; !b <- get; !c <- get; !d <- get; !e <- get return (URI a b c d e) instance Binary URIAuth where put (URIAuth a b c) = do put a; put b; put c get = do !a <- get; !b <- get; !c <- get; return (URIAuth a b c) data RemoteRepo = RemoteRepo { remoteRepoName :: String, remoteRepoURI :: URI, -- | Enable secure access? -- -- 'Nothing' here represents "whatever the default is"; this is important -- to allow for a smooth transition from opt-in to opt-out security -- (once we switch to opt-out, all access to the central Hackage -- repository should be secure by default) remoteRepoSecure :: Maybe Bool, -- | Root key IDs (for bootstrapping) remoteRepoRootKeys :: [String], -- | Threshold for verification during bootstrapping remoteRepoKeyThreshold :: Int, -- | Normally a repo just specifies an HTTP or HTTPS URI, but as a -- special case we may know a repo supports both and want to try HTTPS -- if we can, but still allow falling back to HTTP. -- -- This field is not currently stored in the config file, but is filled -- in automagically for known repos. remoteRepoShouldTryHttps :: Bool } deriving (Show, Eq, Ord, Generic) instance Binary RemoteRepo -- | Construct a partial 'RemoteRepo' value to fold the field parser list over. emptyRemoteRepo :: String -> RemoteRepo emptyRemoteRepo name = RemoteRepo name nullURI Nothing [] 0 False -- | Different kinds of repositories -- -- NOTE: It is important that this type remains serializable. data Repo = -- | Local repositories RepoLocal { repoLocalDir :: FilePath } -- | Standard (unsecured) remote repositores | RepoRemote { repoRemote :: RemoteRepo , repoLocalDir :: FilePath } -- | Secure repositories -- -- Although this contains the same fields as 'RepoRemote', we use a separate -- constructor to avoid confusing the two. -- -- Not all access to a secure repo goes through the hackage-security -- library currently; code paths that do not still make use of the -- 'repoRemote' and 'repoLocalDir' fields directly. | RepoSecure { repoRemote :: RemoteRepo , repoLocalDir :: FilePath } deriving (Show, Eq, Ord, Generic) instance Binary Repo -- | Check if this is a remote repo maybeRepoRemote :: Repo -> Maybe RemoteRepo maybeRepoRemote (RepoLocal _localDir) = Nothing maybeRepoRemote (RepoRemote r _localDir) = Just r maybeRepoRemote (RepoSecure r _localDir) = Just r -- ------------------------------------------------------------ -- * Build results -- ------------------------------------------------------------ type BuildResult = Either BuildFailure BuildSuccess data BuildFailure = PlanningFailed | DependentFailed PackageId | DownloadFailed SomeException | UnpackFailed SomeException | ConfigureFailed SomeException | BuildFailed SomeException | TestsFailed SomeException | InstallFailed SomeException deriving (Show, Generic) data BuildSuccess = BuildOk DocsResult TestsResult (Maybe InstalledPackageInfo) deriving (Show, Generic) data DocsResult = DocsNotTried | DocsFailed | DocsOk deriving (Show, Generic) data TestsResult = TestsNotTried | TestsOk deriving (Show, Generic) instance Binary BuildFailure instance Binary BuildSuccess instance Binary DocsResult instance Binary TestsResult --FIXME: this is a total cheat instance Binary SomeException where put _ = return () get = fail "cannot serialise exceptions"