cabal-install-1.24.0.0: Distribution/Client/Install.hs
{-# LANGUAGE CPP #-}
-----------------------------------------------------------------------------
-- |
-- Module : Distribution.Client.Install
-- Copyright : (c) 2005 David Himmelstrup
-- 2007 Bjorn Bringert
-- 2007-2010 Duncan Coutts
-- License : BSD-like
--
-- Maintainer : cabal-devel@haskell.org
-- Stability : provisional
-- Portability : portable
--
-- High level interface to package installation.
-----------------------------------------------------------------------------
module Distribution.Client.Install (
-- * High-level interface
install,
-- * Lower-level interface that allows to manipulate the install plan
makeInstallContext,
makeInstallPlan,
processInstallPlan,
InstallArgs,
InstallContext,
-- * Prune certain packages from the install plan
pruneInstallPlan
) where
import Data.Foldable
( traverse_ )
import Data.List
( isPrefixOf, unfoldr, nub, sort, (\\) )
import qualified Data.Map as Map
import qualified Data.Set as S
import Data.Maybe
( catMaybes, isJust, isNothing, fromMaybe, mapMaybe )
import Control.Exception as Exception
( Exception(toException), bracket, catches
, Handler(Handler), handleJust, IOException, SomeException )
#ifndef mingw32_HOST_OS
import Control.Exception as Exception
( Exception(fromException) )
#endif
import System.Exit
( ExitCode(..) )
import Distribution.Compat.Exception
( catchIO, catchExit )
#if !MIN_VERSION_base(4,8,0)
import Control.Applicative
( (<$>) )
import Data.Traversable
( traverse )
#endif
import Control.Monad
( filterM, forM_, when, unless )
import System.Directory
( getTemporaryDirectory, doesDirectoryExist, doesFileExist,
createDirectoryIfMissing, removeFile, renameDirectory )
import System.FilePath
( (</>), (<.>), equalFilePath, takeDirectory )
import System.IO
( openFile, IOMode(AppendMode), hClose )
import System.IO.Error
( isDoesNotExistError, ioeGetFileName )
import Distribution.Client.Targets
import Distribution.Client.Configure
( chooseCabalVersion, configureSetupScript, checkConfigExFlags )
import Distribution.Client.Dependency
import Distribution.Client.Dependency.Types
( Solver(..), ConstraintSource(..), LabeledPackageConstraint(..) )
import Distribution.Client.FetchUtils
import Distribution.Client.HttpUtils
( HttpTransport (..) )
import qualified Distribution.Client.Haddock as Haddock (regenerateHaddockIndex)
import Distribution.Client.IndexUtils as IndexUtils
( getSourcePackages, getInstalledPackages )
import qualified Distribution.Client.InstallPlan as InstallPlan
import Distribution.Client.InstallPlan (InstallPlan)
import Distribution.Client.Setup
( GlobalFlags(..), RepoContext(..)
, ConfigFlags(..), configureCommand, filterConfigureFlags
, ConfigExFlags(..), InstallFlags(..) )
import Distribution.Client.Config
( defaultCabalDir, defaultUserInstall )
import Distribution.Client.Sandbox.Timestamp
( withUpdateTimestamps )
import Distribution.Client.Sandbox.Types
( SandboxPackageInfo(..), UseSandbox(..), isUseSandbox
, whenUsingSandbox )
import Distribution.Client.Tar (extractTarGzFile)
import Distribution.Client.Types as Source
import Distribution.Client.BuildReports.Types
( ReportLevel(..) )
import Distribution.Client.SetupWrapper
( setupWrapper, SetupScriptOptions(..), defaultSetupScriptOptions )
import qualified Distribution.Client.BuildReports.Anonymous as BuildReports
import qualified Distribution.Client.BuildReports.Storage as BuildReports
( storeAnonymous, storeLocal, fromInstallPlan, fromPlanningFailure )
import qualified Distribution.Client.InstallSymlink as InstallSymlink
( symlinkBinaries )
import qualified Distribution.Client.PackageIndex as SourcePackageIndex
import qualified Distribution.Client.Win32SelfUpgrade as Win32SelfUpgrade
import qualified Distribution.Client.World as World
import qualified Distribution.InstalledPackageInfo as Installed
import Distribution.Client.Compat.ExecutablePath
import Distribution.Client.JobControl
import qualified Distribution.Client.ComponentDeps as CD
import Distribution.Utils.NubList
import Distribution.Simple.Compiler
( CompilerId(..), Compiler(compilerId), compilerFlavor
, CompilerInfo(..), compilerInfo, PackageDB(..), PackageDBStack )
import Distribution.Simple.Program (ProgramConfiguration,
defaultProgramConfiguration)
import qualified Distribution.Simple.InstallDirs as InstallDirs
import qualified Distribution.Simple.PackageIndex as PackageIndex
import Distribution.Simple.PackageIndex (InstalledPackageIndex)
import Distribution.Simple.LocalBuildInfo (ComponentName(CLibName))
import qualified Distribution.Simple.Configure as Configure
import Distribution.Simple.Setup
( haddockCommand, HaddockFlags(..)
, buildCommand, BuildFlags(..), emptyBuildFlags
, AllowNewer(..)
, toFlag, fromFlag, fromFlagOrDefault, flagToMaybe, defaultDistPref )
import qualified Distribution.Simple.Setup as Cabal
( Flag(..)
, copyCommand, CopyFlags(..), emptyCopyFlags
, registerCommand, RegisterFlags(..), emptyRegisterFlags
, testCommand, TestFlags(..), emptyTestFlags )
import Distribution.Simple.Utils
( createDirectoryIfMissingVerbose, rawSystemExit, comparing
, writeFileAtomic, withTempFile , withUTF8FileContents )
import Distribution.Simple.InstallDirs as InstallDirs
( PathTemplate, fromPathTemplate, toPathTemplate, substPathTemplate
, initialPathTemplateEnv, installDirsTemplateEnv )
import Distribution.Package
( PackageIdentifier(..), PackageId, packageName, packageVersion
, Package(..)
, Dependency(..), thisPackageVersion
, UnitId(..), mkUnitId
, HasUnitId(..) )
import qualified Distribution.PackageDescription as PackageDescription
import Distribution.PackageDescription
( PackageDescription, GenericPackageDescription(..), Flag(..)
, FlagName(..), FlagAssignment )
import Distribution.PackageDescription.Configuration
( finalizePackageDescription )
import Distribution.Client.PkgConfigDb
( PkgConfigDb, readPkgConfigDb )
import Distribution.ParseUtils
( showPWarning )
import Distribution.Version
( Version, VersionRange, foldVersionRange )
import Distribution.Simple.Utils as Utils
( notice, info, warn, debug, debugNoWrap, die
, intercalate, withTempDirectory )
import Distribution.Client.Utils
( determineNumJobs, inDir, logDirChange, mergeBy, MergeResult(..)
, tryCanonicalizePath )
import Distribution.System
( Platform, OS(Windows), buildOS )
import Distribution.Text
( display )
import Distribution.Verbosity as Verbosity
( Verbosity, showForCabal, normal, verbose )
import Distribution.Simple.BuildPaths ( exeExtension )
--TODO:
-- * assign flags to packages individually
-- * complain about flags that do not apply to any package given as target
-- so flags do not apply to dependencies, only listed, can use flag
-- constraints for dependencies
-- * only record applicable flags in world file
-- * allow flag constraints
-- * allow installed constraints
-- * allow flag and installed preferences
-- * change world file to use cabal section syntax
-- * allow persistent configure flags for each package individually
-- ------------------------------------------------------------
-- * Top level user actions
-- ------------------------------------------------------------
-- | Installs the packages needed to satisfy a list of dependencies.
--
install
:: Verbosity
-> PackageDBStack
-> RepoContext
-> Compiler
-> Platform
-> ProgramConfiguration
-> UseSandbox
-> Maybe SandboxPackageInfo
-> GlobalFlags
-> ConfigFlags
-> ConfigExFlags
-> InstallFlags
-> HaddockFlags
-> [UserTarget]
-> IO ()
install verbosity packageDBs repos comp platform conf useSandbox mSandboxPkgInfo
globalFlags configFlags configExFlags installFlags haddockFlags
userTargets0 = do
installContext <- makeInstallContext verbosity args (Just userTargets0)
planResult <- foldProgress logMsg (return . Left) (return . Right) =<<
makeInstallPlan verbosity args installContext
case planResult of
Left message -> do
reportPlanningFailure verbosity args installContext message
die' message
Right installPlan ->
processInstallPlan verbosity args installContext installPlan
where
args :: InstallArgs
args = (packageDBs, repos, comp, platform, conf, useSandbox, mSandboxPkgInfo,
globalFlags, configFlags, configExFlags, installFlags,
haddockFlags)
die' message = die (message ++ if isUseSandbox useSandbox
then installFailedInSandbox else [])
-- TODO: use a better error message, remove duplication.
installFailedInSandbox =
"\nNote: when using a sandbox, all packages are required to have "
++ "consistent dependencies. "
++ "Try reinstalling/unregistering the offending packages or "
++ "recreating the sandbox."
logMsg message rest = debugNoWrap verbosity message >> rest
-- TODO: Make InstallContext a proper data type with documented fields.
-- | Common context for makeInstallPlan and processInstallPlan.
type InstallContext = ( InstalledPackageIndex, SourcePackageDb
, PkgConfigDb
, [UserTarget], [PackageSpecifier SourcePackage]
, HttpTransport )
-- TODO: Make InstallArgs a proper data type with documented fields or just get
-- rid of it completely.
-- | Initial arguments given to 'install' or 'makeInstallContext'.
type InstallArgs = ( PackageDBStack
, RepoContext
, Compiler
, Platform
, ProgramConfiguration
, UseSandbox
, Maybe SandboxPackageInfo
, GlobalFlags
, ConfigFlags
, ConfigExFlags
, InstallFlags
, HaddockFlags )
-- | Make an install context given install arguments.
makeInstallContext :: Verbosity -> InstallArgs -> Maybe [UserTarget]
-> IO InstallContext
makeInstallContext verbosity
(packageDBs, repoCtxt, comp, _, conf,_,_,
globalFlags, _, configExFlags, _, _) mUserTargets = do
installedPkgIndex <- getInstalledPackages verbosity comp packageDBs conf
sourcePkgDb <- getSourcePackages verbosity repoCtxt
pkgConfigDb <- readPkgConfigDb verbosity conf
checkConfigExFlags verbosity installedPkgIndex
(packageIndex sourcePkgDb) configExFlags
transport <- repoContextGetTransport repoCtxt
(userTargets, pkgSpecifiers) <- case mUserTargets of
Nothing ->
-- We want to distinguish between the case where the user has given an
-- empty list of targets on the command-line and the case where we
-- specifically want to have an empty list of targets.
return ([], [])
Just userTargets0 -> do
-- For install, if no target is given it means we use the current
-- directory as the single target.
let userTargets | null userTargets0 = [UserTargetLocalDir "."]
| otherwise = userTargets0
pkgSpecifiers <- resolveUserTargets verbosity repoCtxt
(fromFlag $ globalWorldFile globalFlags)
(packageIndex sourcePkgDb)
userTargets
return (userTargets, pkgSpecifiers)
return (installedPkgIndex, sourcePkgDb, pkgConfigDb, userTargets
,pkgSpecifiers, transport)
-- | Make an install plan given install context and install arguments.
makeInstallPlan :: Verbosity -> InstallArgs -> InstallContext
-> IO (Progress String String InstallPlan)
makeInstallPlan verbosity
(_, _, comp, platform, _, _, mSandboxPkgInfo,
_, configFlags, configExFlags, installFlags,
_)
(installedPkgIndex, sourcePkgDb, pkgConfigDb,
_, pkgSpecifiers, _) = do
solver <- chooseSolver verbosity (fromFlag (configSolver configExFlags))
(compilerInfo comp)
notice verbosity "Resolving dependencies..."
return $ planPackages comp platform mSandboxPkgInfo solver
configFlags configExFlags installFlags
installedPkgIndex sourcePkgDb pkgConfigDb pkgSpecifiers
-- | Given an install plan, perform the actual installations.
processInstallPlan :: Verbosity -> InstallArgs -> InstallContext
-> InstallPlan
-> IO ()
processInstallPlan verbosity
args@(_,_, _, _, _, _, _, _, _, _, installFlags, _)
(installedPkgIndex, sourcePkgDb, _,
userTargets, pkgSpecifiers, _) installPlan = do
checkPrintPlan verbosity installedPkgIndex installPlan sourcePkgDb
installFlags pkgSpecifiers
unless (dryRun || nothingToInstall) $ do
installPlan' <- performInstallations verbosity
args installedPkgIndex installPlan
postInstallActions verbosity args userTargets installPlan'
where
dryRun = fromFlag (installDryRun installFlags)
nothingToInstall = null (InstallPlan.ready installPlan)
-- ------------------------------------------------------------
-- * Installation planning
-- ------------------------------------------------------------
planPackages :: Compiler
-> Platform
-> Maybe SandboxPackageInfo
-> Solver
-> ConfigFlags
-> ConfigExFlags
-> InstallFlags
-> InstalledPackageIndex
-> SourcePackageDb
-> PkgConfigDb
-> [PackageSpecifier SourcePackage]
-> Progress String String InstallPlan
planPackages comp platform mSandboxPkgInfo solver
configFlags configExFlags installFlags
installedPkgIndex sourcePkgDb pkgConfigDb pkgSpecifiers =
resolveDependencies
platform (compilerInfo comp) pkgConfigDb
solver
resolverParams
>>= if onlyDeps then pruneInstallPlan pkgSpecifiers else return
where
resolverParams =
setMaxBackjumps (if maxBackjumps < 0 then Nothing
else Just maxBackjumps)
. setIndependentGoals independentGoals
. setReorderGoals reorderGoals
. setAvoidReinstalls avoidReinstalls
. setShadowPkgs shadowPkgs
. setStrongFlags strongFlags
. setPreferenceDefault (if upgradeDeps then PreferAllLatest
else PreferLatestForSelected)
. removeUpperBounds allowNewer
. addPreferences
-- preferences from the config file or command line
[ PackageVersionPreference name ver
| Dependency name ver <- configPreferences configExFlags ]
. addConstraints
-- version constraints from the config file or command line
[ LabeledPackageConstraint (userToPackageConstraint pc) src
| (pc, src) <- configExConstraints configExFlags ]
. addConstraints
--FIXME: this just applies all flags to all targets which
-- is silly. We should check if the flags are appropriate
[ let pc = PackageConstraintFlags
(pkgSpecifierTarget pkgSpecifier) flags
in LabeledPackageConstraint pc ConstraintSourceConfigFlagOrTarget
| let flags = configConfigurationsFlags configFlags
, not (null flags)
, pkgSpecifier <- pkgSpecifiers ]
. addConstraints
[ let pc = PackageConstraintStanzas
(pkgSpecifierTarget pkgSpecifier) stanzas
in LabeledPackageConstraint pc ConstraintSourceConfigFlagOrTarget
| pkgSpecifier <- pkgSpecifiers ]
. maybe id applySandboxInstallPolicy mSandboxPkgInfo
. (if reinstall then reinstallTargets else id)
$ standardInstallPolicy
installedPkgIndex sourcePkgDb pkgSpecifiers
stanzas = [ TestStanzas | testsEnabled ]
++ [ BenchStanzas | benchmarksEnabled ]
testsEnabled = fromFlagOrDefault False $ configTests configFlags
benchmarksEnabled = fromFlagOrDefault False $ configBenchmarks configFlags
reinstall = fromFlag (installOverrideReinstall installFlags) ||
fromFlag (installReinstall installFlags)
reorderGoals = fromFlag (installReorderGoals installFlags)
independentGoals = fromFlag (installIndependentGoals installFlags)
avoidReinstalls = fromFlag (installAvoidReinstalls installFlags)
shadowPkgs = fromFlag (installShadowPkgs installFlags)
strongFlags = fromFlag (installStrongFlags installFlags)
maxBackjumps = fromFlag (installMaxBackjumps installFlags)
upgradeDeps = fromFlag (installUpgradeDeps installFlags)
onlyDeps = fromFlag (installOnlyDeps installFlags)
allowNewer = fromMaybe AllowNewerNone (configAllowNewer configFlags)
-- | Remove the provided targets from the install plan.
pruneInstallPlan :: Package targetpkg
=> [PackageSpecifier targetpkg]
-> InstallPlan
-> Progress String String InstallPlan
pruneInstallPlan pkgSpecifiers =
-- TODO: this is a general feature and should be moved to D.C.Dependency
-- Also, the InstallPlan.remove should return info more precise to the
-- problem, rather than the very general PlanProblem type.
either (Fail . explain) Done
. InstallPlan.remove (\pkg -> packageName pkg `elem` targetnames)
where
explain :: [InstallPlan.PlanProblem ipkg srcpkg iresult ifailure] -> String
explain problems =
"Cannot select only the dependencies (as requested by the "
++ "'--only-dependencies' flag), "
++ (case pkgids of
[pkgid] -> "the package " ++ display pkgid ++ " is "
_ -> "the packages "
++ intercalate ", " (map display pkgids) ++ " are ")
++ "required by a dependency of one of the other targets."
where
pkgids =
nub [ depid
| InstallPlan.PackageMissingDeps _ depids <- problems
, depid <- depids
, packageName depid `elem` targetnames ]
targetnames = map pkgSpecifierTarget pkgSpecifiers
-- ------------------------------------------------------------
-- * Informational messages
-- ------------------------------------------------------------
-- | Perform post-solver checks of the install plan and print it if
-- either requested or needed.
checkPrintPlan :: Verbosity
-> InstalledPackageIndex
-> InstallPlan
-> SourcePackageDb
-> InstallFlags
-> [PackageSpecifier SourcePackage]
-> IO ()
checkPrintPlan verbosity installed installPlan sourcePkgDb
installFlags pkgSpecifiers = do
-- User targets that are already installed.
let preExistingTargets =
[ p | let tgts = map pkgSpecifierTarget pkgSpecifiers,
InstallPlan.PreExisting p <- InstallPlan.toList installPlan,
packageName p `elem` tgts ]
-- If there's nothing to install, we print the already existing
-- target packages as an explanation.
when nothingToInstall $
notice verbosity $ unlines $
"All the requested packages are already installed:"
: map (display . packageId) preExistingTargets
++ ["Use --reinstall if you want to reinstall anyway."]
let lPlan = linearizeInstallPlan installed installPlan
-- Are any packages classified as reinstalls?
let reinstalledPkgs = concatMap (extractReinstalls . snd) lPlan
-- Packages that are already broken.
let oldBrokenPkgs =
map Installed.installedUnitId
. PackageIndex.reverseDependencyClosure installed
. map (Installed.installedUnitId . fst)
. PackageIndex.brokenPackages
$ installed
let excluded = reinstalledPkgs ++ oldBrokenPkgs
-- Packages that are reverse dependencies of replaced packages are very
-- likely to be broken. We exclude packages that are already broken.
let newBrokenPkgs =
filter (\ p -> not (Installed.installedUnitId p `elem` excluded))
(PackageIndex.reverseDependencyClosure installed reinstalledPkgs)
let containsReinstalls = not (null reinstalledPkgs)
let breaksPkgs = not (null newBrokenPkgs)
let adaptedVerbosity
| containsReinstalls && not overrideReinstall = verbosity `max` verbose
| otherwise = verbosity
-- We print the install plan if we are in a dry-run or if we are confronted
-- with a dangerous install plan.
when (dryRun || containsReinstalls && not overrideReinstall) $
printPlan (dryRun || breaksPkgs && not overrideReinstall)
adaptedVerbosity lPlan sourcePkgDb
-- If the install plan is dangerous, we print various warning messages. In
-- particular, if we can see that packages are likely to be broken, we even
-- bail out (unless installation has been forced with --force-reinstalls).
when containsReinstalls $ do
if breaksPkgs
then do
(if dryRun || overrideReinstall then warn verbosity else die) $ unlines $
"The following packages are likely to be broken by the reinstalls:"
: map (display . Installed.sourcePackageId) newBrokenPkgs
++ if overrideReinstall
then if dryRun then [] else
["Continuing even though " ++
"the plan contains dangerous reinstalls."]
else
["Use --force-reinstalls if you want to install anyway."]
else unless dryRun $ warn verbosity
"Note that reinstalls are always dangerous. Continuing anyway..."
-- If we are explicitly told to not download anything, check that all packages
-- are already fetched.
let offline = fromFlagOrDefault False (installOfflineMode installFlags)
when offline $ do
let pkgs = [ sourcePkg
| InstallPlan.Configured (ConfiguredPackage sourcePkg _ _ _)
<- InstallPlan.toList installPlan ]
notFetched <- fmap (map packageInfoId)
. filterM (fmap isNothing . checkFetched . packageSource)
$ pkgs
unless (null notFetched) $
die $ "Can't download packages in offline mode. "
++ "Must download the following packages to proceed:\n"
++ intercalate ", " (map display notFetched)
++ "\nTry using 'cabal fetch'."
where
nothingToInstall = null (InstallPlan.ready installPlan)
dryRun = fromFlag (installDryRun installFlags)
overrideReinstall = fromFlag (installOverrideReinstall installFlags)
--TODO: this type is too specific
linearizeInstallPlan :: InstalledPackageIndex
-> InstallPlan
-> [(ReadyPackage, PackageStatus)]
linearizeInstallPlan installedPkgIndex plan =
unfoldr next plan
where
next plan' = case InstallPlan.ready plan' of
[] -> Nothing
(pkg:_) -> Just ((pkg, status), plan'')
where
pkgid = installedUnitId pkg
status = packageStatus installedPkgIndex pkg
ipkg = Installed.emptyInstalledPackageInfo {
Installed.sourcePackageId = packageId pkg,
Installed.installedUnitId = pkgid
}
plan'' = InstallPlan.completed pkgid (Just ipkg)
(BuildOk DocsNotTried TestsNotTried (Just ipkg))
(InstallPlan.processing [pkg] plan')
--FIXME: This is a bit of a hack,
-- pretending that each package is installed
-- It's doubly a hack because the installed package ID
-- didn't get updated...
data PackageStatus = NewPackage
| NewVersion [Version]
| Reinstall [UnitId] [PackageChange]
type PackageChange = MergeResult PackageIdentifier PackageIdentifier
extractReinstalls :: PackageStatus -> [UnitId]
extractReinstalls (Reinstall ipids _) = ipids
extractReinstalls _ = []
packageStatus :: InstalledPackageIndex
-> ReadyPackage
-> PackageStatus
packageStatus installedPkgIndex cpkg =
case PackageIndex.lookupPackageName installedPkgIndex
(packageName cpkg) of
[] -> NewPackage
ps -> case filter ((== packageId cpkg)
. Installed.sourcePackageId) (concatMap snd ps) of
[] -> NewVersion (map fst ps)
pkgs@(pkg:_) -> Reinstall (map Installed.installedUnitId pkgs)
(changes pkg cpkg)
where
changes :: Installed.InstalledPackageInfo
-> ReadyPackage
-> [MergeResult PackageIdentifier PackageIdentifier]
changes pkg pkg' = filter changed $
mergeBy (comparing packageName)
-- deps of installed pkg
(resolveInstalledIds $ Installed.depends pkg)
-- deps of configured pkg
(resolveInstalledIds $ CD.nonSetupDeps (depends pkg'))
-- convert to source pkg ids via index
resolveInstalledIds :: [UnitId] -> [PackageIdentifier]
resolveInstalledIds =
nub
. sort
. map Installed.sourcePackageId
. catMaybes
. map (PackageIndex.lookupUnitId installedPkgIndex)
changed (InBoth pkgid pkgid') = pkgid /= pkgid'
changed _ = True
printPlan :: Bool -- is dry run
-> Verbosity
-> [(ReadyPackage, PackageStatus)]
-> SourcePackageDb
-> IO ()
printPlan dryRun verbosity plan sourcePkgDb = case plan of
[] -> return ()
pkgs
| verbosity >= Verbosity.verbose -> putStr $ unlines $
("In order, the following " ++ wouldWill ++ " be installed:")
: map showPkgAndReason pkgs
| otherwise -> notice verbosity $ unlines $
("In order, the following " ++ wouldWill
++ " be installed (use -v for more details):")
: map showPkg pkgs
where
wouldWill | dryRun = "would"
| otherwise = "will"
showPkg (pkg, _) = display (packageId pkg) ++
showLatest (pkg)
showPkgAndReason (ReadyPackage pkg' _, pr) = display (packageId pkg') ++
showLatest pkg' ++
showFlagAssignment (nonDefaultFlags pkg') ++
showStanzas (stanzas pkg') ++
showDep pkg' ++
case pr of
NewPackage -> " (new package)"
NewVersion _ -> " (new version)"
Reinstall _ cs -> " (reinstall)" ++ case cs of
[] -> ""
diff -> " (changes: " ++ intercalate ", " (map change diff)
++ ")"
showLatest :: Package srcpkg => srcpkg -> String
showLatest pkg = case mLatestVersion of
Just latestVersion ->
if packageVersion pkg < latestVersion
then (" (latest: " ++ display latestVersion ++ ")")
else ""
Nothing -> ""
where
mLatestVersion :: Maybe Version
mLatestVersion = case SourcePackageIndex.lookupPackageName
(packageIndex sourcePkgDb)
(packageName pkg) of
[] -> Nothing
x -> Just $ packageVersion $ last x
toFlagAssignment :: [Flag] -> FlagAssignment
toFlagAssignment = map (\ f -> (flagName f, flagDefault f))
nonDefaultFlags :: ConfiguredPackage -> FlagAssignment
nonDefaultFlags (ConfiguredPackage spkg fa _ _) =
let defaultAssignment =
toFlagAssignment
(genPackageFlags (Source.packageDescription spkg))
in fa \\ defaultAssignment
stanzas :: ConfiguredPackage -> [OptionalStanza]
stanzas (ConfiguredPackage _ _ sts _) = sts
showStanzas :: [OptionalStanza] -> String
showStanzas = concatMap ((' ' :) . showStanza)
showStanza TestStanzas = "*test"
showStanza BenchStanzas = "*bench"
showFlagAssignment :: FlagAssignment -> String
showFlagAssignment = concatMap ((' ' :) . showFlagValue)
showFlagValue (f, True) = '+' : showFlagName f
showFlagValue (f, False) = '-' : showFlagName f
showFlagName (FlagName f) = f
change (OnlyInLeft pkgid) = display pkgid ++ " removed"
change (InBoth pkgid pkgid') = display pkgid ++ " -> "
++ display (packageVersion pkgid')
change (OnlyInRight pkgid') = display pkgid' ++ " added"
showDep pkg | Just rdeps <- Map.lookup (packageId pkg) revDeps
= " (via: " ++ unwords (map display rdeps) ++ ")"
| otherwise = ""
revDepGraphEdges :: [(PackageId, PackageId)]
revDepGraphEdges = [ (rpid, packageId pkg)
| (pkg@(ReadyPackage _ deps), _) <- plan
, rpid <- Installed.sourcePackageId <$> CD.flatDeps deps ]
revDeps :: Map.Map PackageId [PackageId]
revDeps = Map.fromListWith (++) (map (fmap (:[])) revDepGraphEdges)
-- ------------------------------------------------------------
-- * Post installation stuff
-- ------------------------------------------------------------
-- | Report a solver failure. This works slightly differently to
-- 'postInstallActions', as (by definition) we don't have an install plan.
reportPlanningFailure :: Verbosity -> InstallArgs -> InstallContext -> String
-> IO ()
reportPlanningFailure verbosity
(_, _, comp, platform, _, _, _
,_, configFlags, _, installFlags, _)
(_, sourcePkgDb, _, _, pkgSpecifiers, _)
message = do
when reportFailure $ do
-- Only create reports for explicitly named packages
let pkgids = filter
(SourcePackageIndex.elemByPackageId (packageIndex sourcePkgDb)) $
mapMaybe theSpecifiedPackage pkgSpecifiers
buildReports = BuildReports.fromPlanningFailure platform
(compilerId comp) pkgids
(configConfigurationsFlags configFlags)
when (not (null buildReports)) $
info verbosity $
"Solver failure will be reported for "
++ intercalate "," (map display pkgids)
-- Save reports
BuildReports.storeLocal (compilerInfo comp)
(fromNubList $ installSummaryFile installFlags)
buildReports platform
-- Save solver log
case logFile of
Nothing -> return ()
Just template -> forM_ pkgids $ \pkgid ->
let env = initialPathTemplateEnv pkgid dummyIpid
(compilerInfo comp) platform
path = fromPathTemplate $ substPathTemplate env template
in writeFile path message
where
reportFailure = fromFlag (installReportPlanningFailure installFlags)
logFile = flagToMaybe (installLogFile installFlags)
-- A IPID is calculated from the transitive closure of
-- dependencies, but when the solver fails we don't have that.
-- So we fail.
dummyIpid = error "reportPlanningFailure: installed package ID not available"
-- | If a 'PackageSpecifier' refers to a single package, return Just that
-- package.
theSpecifiedPackage :: Package pkg => PackageSpecifier pkg -> Maybe PackageId
theSpecifiedPackage pkgSpec =
case pkgSpec of
NamedPackage name [PackageConstraintVersion name' version]
| name == name' -> PackageIdentifier name <$> trivialRange version
NamedPackage _ _ -> Nothing
SpecificSourcePackage pkg -> Just $ packageId pkg
where
-- | If a range includes only a single version, return Just that version.
trivialRange :: VersionRange -> Maybe Version
trivialRange = foldVersionRange
Nothing
Just -- "== v"
(\_ -> Nothing)
(\_ -> Nothing)
(\_ _ -> Nothing)
(\_ _ -> Nothing)
-- | Various stuff we do after successful or unsuccessfully installing a bunch
-- of packages. This includes:
--
-- * build reporting, local and remote
-- * symlinking binaries
-- * updating indexes
-- * updating world file
-- * error reporting
--
postInstallActions :: Verbosity
-> InstallArgs
-> [UserTarget]
-> InstallPlan
-> IO ()
postInstallActions verbosity
(packageDBs, _, comp, platform, conf, useSandbox, mSandboxPkgInfo
,globalFlags, configFlags, _, installFlags, _)
targets installPlan = do
unless oneShot $
World.insert verbosity worldFile
--FIXME: does not handle flags
[ World.WorldPkgInfo dep []
| UserTargetNamed dep <- targets ]
let buildReports = BuildReports.fromInstallPlan platform (compilerId comp)
installPlan
BuildReports.storeLocal (compilerInfo comp)
(fromNubList $ installSummaryFile installFlags)
buildReports
platform
when (reportingLevel >= AnonymousReports) $
BuildReports.storeAnonymous buildReports
when (reportingLevel == DetailedReports) $
storeDetailedBuildReports verbosity logsDir buildReports
regenerateHaddockIndex verbosity packageDBs comp platform conf useSandbox
configFlags installFlags installPlan
symlinkBinaries verbosity platform comp configFlags installFlags installPlan
printBuildFailures installPlan
updateSandboxTimestampsFile useSandbox mSandboxPkgInfo
comp platform installPlan
where
reportingLevel = fromFlag (installBuildReports installFlags)
logsDir = fromFlag (globalLogsDir globalFlags)
oneShot = fromFlag (installOneShot installFlags)
worldFile = fromFlag $ globalWorldFile globalFlags
storeDetailedBuildReports :: Verbosity -> FilePath
-> [(BuildReports.BuildReport, Maybe Repo)] -> IO ()
storeDetailedBuildReports verbosity logsDir reports = sequence_
[ do dotCabal <- defaultCabalDir
let logFileName = display (BuildReports.package report) <.> "log"
logFile = logsDir </> logFileName
reportsDir = dotCabal </> "reports" </> remoteRepoName remoteRepo
reportFile = reportsDir </> logFileName
handleMissingLogFile $ do
buildLog <- readFile logFile
createDirectoryIfMissing True reportsDir -- FIXME
writeFile reportFile (show (BuildReports.show report, buildLog))
| (report, Just repo) <- reports
, Just remoteRepo <- [maybeRepoRemote repo]
, isLikelyToHaveLogFile (BuildReports.installOutcome report) ]
where
isLikelyToHaveLogFile BuildReports.ConfigureFailed {} = True
isLikelyToHaveLogFile BuildReports.BuildFailed {} = True
isLikelyToHaveLogFile BuildReports.InstallFailed {} = True
isLikelyToHaveLogFile BuildReports.InstallOk {} = True
isLikelyToHaveLogFile _ = False
handleMissingLogFile = Exception.handleJust missingFile $ \ioe ->
warn verbosity $ "Missing log file for build report: "
++ fromMaybe "" (ioeGetFileName ioe)
missingFile ioe
| isDoesNotExistError ioe = Just ioe
missingFile _ = Nothing
regenerateHaddockIndex :: Verbosity
-> [PackageDB]
-> Compiler
-> Platform
-> ProgramConfiguration
-> UseSandbox
-> ConfigFlags
-> InstallFlags
-> InstallPlan
-> IO ()
regenerateHaddockIndex verbosity packageDBs comp platform conf useSandbox
configFlags installFlags installPlan
| haddockIndexFileIsRequested && shouldRegenerateHaddockIndex = do
defaultDirs <- InstallDirs.defaultInstallDirs
(compilerFlavor comp)
(fromFlag (configUserInstall configFlags))
True
let indexFileTemplate = fromFlag (installHaddockIndex installFlags)
indexFile = substHaddockIndexFileName defaultDirs indexFileTemplate
notice verbosity $
"Updating documentation index " ++ indexFile
--TODO: might be nice if the install plan gave us the new InstalledPackageInfo
installedPkgIndex <- getInstalledPackages verbosity comp packageDBs conf
Haddock.regenerateHaddockIndex verbosity installedPkgIndex conf indexFile
| otherwise = return ()
where
haddockIndexFileIsRequested =
fromFlag (installDocumentation installFlags)
&& isJust (flagToMaybe (installHaddockIndex installFlags))
-- We want to regenerate the index if some new documentation was actually
-- installed. Since the index can be only per-user or per-sandbox (see
-- #1337), we don't do it for global installs or special cases where we're
-- installing into a specific db.
shouldRegenerateHaddockIndex = (isUseSandbox useSandbox || normalUserInstall)
&& someDocsWereInstalled installPlan
where
someDocsWereInstalled = any installedDocs . InstallPlan.toList
normalUserInstall = (UserPackageDB `elem` packageDBs)
&& all (not . isSpecificPackageDB) packageDBs
installedDocs (InstallPlan.Installed _ _ (BuildOk DocsOk _ _)) = True
installedDocs _ = False
isSpecificPackageDB (SpecificPackageDB _) = True
isSpecificPackageDB _ = False
substHaddockIndexFileName defaultDirs = fromPathTemplate
. substPathTemplate env
where
env = env0 ++ installDirsTemplateEnv absoluteDirs
env0 = InstallDirs.compilerTemplateEnv (compilerInfo comp)
++ InstallDirs.platformTemplateEnv platform
++ InstallDirs.abiTemplateEnv (compilerInfo comp) platform
absoluteDirs = InstallDirs.substituteInstallDirTemplates
env0 templateDirs
templateDirs = InstallDirs.combineInstallDirs fromFlagOrDefault
defaultDirs (configInstallDirs configFlags)
symlinkBinaries :: Verbosity
-> Platform -> Compiler
-> ConfigFlags
-> InstallFlags
-> InstallPlan
-> IO ()
symlinkBinaries verbosity platform comp configFlags installFlags plan = do
failed <- InstallSymlink.symlinkBinaries platform comp
configFlags installFlags
plan
case failed of
[] -> return ()
[(_, exe, path)] ->
warn verbosity $
"could not create a symlink in " ++ bindir ++ " for "
++ exe ++ " because the file exists there already but is not "
++ "managed by cabal. You can create a symlink for this executable "
++ "manually if you wish. The executable file has been installed at "
++ path
exes ->
warn verbosity $
"could not create symlinks in " ++ bindir ++ " for "
++ intercalate ", " [ exe | (_, exe, _) <- exes ]
++ " because the files exist there already and are not "
++ "managed by cabal. You can create symlinks for these executables "
++ "manually if you wish. The executable files have been installed at "
++ intercalate ", " [ path | (_, _, path) <- exes ]
where
bindir = fromFlag (installSymlinkBinDir installFlags)
printBuildFailures :: InstallPlan
-> IO ()
printBuildFailures plan =
case [ (pkg, reason)
| InstallPlan.Failed pkg reason <- InstallPlan.toList plan ] of
[] -> return ()
failed -> die . unlines
$ "Error: some packages failed to install:"
: [ display (packageId pkg) ++ printFailureReason reason
| (pkg, reason) <- failed ]
where
printFailureReason reason = case reason of
DependentFailed pkgid -> " depends on " ++ display pkgid
++ " which failed to install."
DownloadFailed e -> " failed while downloading the package."
++ showException e
UnpackFailed e -> " failed while unpacking the package."
++ showException e
ConfigureFailed e -> " failed during the configure step."
++ showException e
BuildFailed e -> " failed during the building phase."
++ showException e
TestsFailed e -> " failed during the tests phase."
++ showException e
InstallFailed e -> " failed during the final install step."
++ showException e
-- This will never happen, but we include it for completeness
PlanningFailed -> " failed during the planning phase."
showException e = " The exception was:\n " ++ show e ++ maybeOOM e
#ifdef mingw32_HOST_OS
maybeOOM _ = ""
#else
maybeOOM e = maybe "" onExitFailure (fromException e)
onExitFailure (ExitFailure n)
| n == 9 || n == -9 =
"\nThis may be due to an out-of-memory condition."
onExitFailure _ = ""
#endif
-- | If we're working inside a sandbox and some add-source deps were installed,
-- update the timestamps of those deps.
updateSandboxTimestampsFile :: UseSandbox -> Maybe SandboxPackageInfo
-> Compiler -> Platform
-> InstallPlan
-> IO ()
updateSandboxTimestampsFile (UseSandbox sandboxDir)
(Just (SandboxPackageInfo _ _ _ allAddSourceDeps))
comp platform installPlan =
withUpdateTimestamps sandboxDir (compilerId comp) platform $ \_ -> do
let allInstalled = [ pkg | InstallPlan.Installed pkg _ _
<- InstallPlan.toList installPlan ]
allSrcPkgs = [ pkg | ReadyPackage (ConfiguredPackage pkg _ _ _) _
<- allInstalled ]
allPaths = [ pth | LocalUnpackedPackage pth
<- map packageSource allSrcPkgs]
allPathsCanonical <- mapM tryCanonicalizePath allPaths
return $! filter (`S.member` allAddSourceDeps) allPathsCanonical
updateSandboxTimestampsFile _ _ _ _ _ = return ()
-- ------------------------------------------------------------
-- * Actually do the installations
-- ------------------------------------------------------------
data InstallMisc = InstallMisc {
rootCmd :: Maybe FilePath,
libVersion :: Maybe Version
}
-- | If logging is enabled, contains location of the log file and the verbosity
-- level for logging.
type UseLogFile = Maybe (PackageIdentifier -> UnitId -> FilePath, Verbosity)
performInstallations :: Verbosity
-> InstallArgs
-> InstalledPackageIndex
-> InstallPlan
-> IO InstallPlan
performInstallations verbosity
(packageDBs, repoCtxt, comp, platform, conf, useSandbox, _,
globalFlags, configFlags, configExFlags, installFlags, haddockFlags)
installedPkgIndex installPlan = do
-- With 'install -j' it can be a bit hard to tell whether a sandbox is used.
whenUsingSandbox useSandbox $ \sandboxDir ->
when parallelInstall $
notice verbosity $ "Notice: installing into a sandbox located at "
++ sandboxDir
jobControl <- if parallelInstall then newParallelJobControl
else newSerialJobControl
buildLimit <- newJobLimit numJobs
fetchLimit <- newJobLimit (min numJobs numFetchJobs)
installLock <- newLock -- serialise installation
cacheLock <- newLock -- serialise access to setup exe cache
executeInstallPlan verbosity comp jobControl useLogFile installPlan $ \rpkg ->
installReadyPackage platform cinfo configFlags
rpkg $ \configFlags' src pkg pkgoverride ->
fetchSourcePackage verbosity repoCtxt fetchLimit src $ \src' ->
installLocalPackage verbosity buildLimit
(packageId pkg) src' distPref $ \mpath ->
installUnpackedPackage verbosity buildLimit installLock numJobs
(setupScriptOptions installedPkgIndex
cacheLock rpkg)
miscOptions configFlags'
installFlags haddockFlags
cinfo platform pkg rpkg pkgoverride mpath useLogFile
where
cinfo = compilerInfo comp
numJobs = determineNumJobs (installNumJobs installFlags)
numFetchJobs = 2
parallelInstall = numJobs >= 2
distPref = fromFlagOrDefault (useDistPref defaultSetupScriptOptions)
(configDistPref configFlags)
setupScriptOptions index lock rpkg =
configureSetupScript
packageDBs
comp
platform
conf
distPref
(chooseCabalVersion configFlags (libVersion miscOptions))
(Just lock)
parallelInstall
index
(Just rpkg)
reportingLevel = fromFlag (installBuildReports installFlags)
logsDir = fromFlag (globalLogsDir globalFlags)
-- Should the build output be written to a log file instead of stdout?
useLogFile :: UseLogFile
useLogFile = fmap ((\f -> (f, loggingVerbosity)) . substLogFileName)
logFileTemplate
where
installLogFile' = flagToMaybe $ installLogFile installFlags
defaultTemplate = toPathTemplate $ logsDir </> "$pkgid" <.> "log"
-- If the user has specified --remote-build-reporting=detailed, use the
-- default log file location. If the --build-log option is set, use the
-- provided location. Otherwise don't use logging, unless building in
-- parallel (in which case the default location is used).
logFileTemplate :: Maybe PathTemplate
logFileTemplate
| useDefaultTemplate = Just defaultTemplate
| otherwise = installLogFile'
-- If the user has specified --remote-build-reporting=detailed or
-- --build-log, use more verbose logging.
loggingVerbosity :: Verbosity
loggingVerbosity | overrideVerbosity = max Verbosity.verbose verbosity
| otherwise = verbosity
useDefaultTemplate :: Bool
useDefaultTemplate
| reportingLevel == DetailedReports = True
| isJust installLogFile' = False
| parallelInstall = True
| otherwise = False
overrideVerbosity :: Bool
overrideVerbosity
| reportingLevel == DetailedReports = True
| isJust installLogFile' = True
| parallelInstall = False
| otherwise = False
substLogFileName :: PathTemplate -> PackageIdentifier -> UnitId -> FilePath
substLogFileName template pkg ipid = fromPathTemplate
. substPathTemplate env
$ template
where env = initialPathTemplateEnv (packageId pkg)
ipid
(compilerInfo comp) platform
miscOptions = InstallMisc {
rootCmd = if fromFlag (configUserInstall configFlags)
|| (isUseSandbox useSandbox)
then Nothing -- ignore --root-cmd if --user
-- or working inside a sandbox.
else flagToMaybe (installRootCmd installFlags),
libVersion = flagToMaybe (configCabalVersion configExFlags)
}
executeInstallPlan :: Verbosity
-> Compiler
-> JobControl IO (PackageId, UnitId, BuildResult)
-> UseLogFile
-> InstallPlan
-> (ReadyPackage -> IO BuildResult)
-> IO InstallPlan
executeInstallPlan verbosity _comp jobCtl useLogFile plan0 installPkg =
tryNewTasks 0 plan0
where
tryNewTasks taskCount plan = do
case InstallPlan.ready plan of
[] | taskCount == 0 -> return plan
| otherwise -> waitForTasks taskCount plan
pkgs -> do
sequence_
[ do info verbosity $ "Ready to install " ++ display pkgid
spawnJob jobCtl $ do
buildResult <- installPkg pkg
let ipid = case buildResult of
Right (BuildOk _ _ (Just ipi)) ->
Installed.installedUnitId ipi
_ -> mkUnitId (display (packageId pkg))
return (packageId pkg, ipid, buildResult)
| pkg <- pkgs
, let pkgid = packageId pkg ]
let taskCount' = taskCount + length pkgs
plan' = InstallPlan.processing pkgs plan
waitForTasks taskCount' plan'
waitForTasks taskCount plan = do
info verbosity $ "Waiting for install task to finish..."
(pkgid, ipid, buildResult) <- collectJob jobCtl
printBuildResult pkgid ipid buildResult
let taskCount' = taskCount-1
plan' = updatePlan pkgid buildResult plan
tryNewTasks taskCount' plan'
updatePlan :: PackageIdentifier -> BuildResult -> InstallPlan
-> InstallPlan
updatePlan pkgid (Right buildSuccess@(BuildOk _ _ mipkg)) =
InstallPlan.completed (Source.fakeUnitId pkgid)
mipkg buildSuccess
updatePlan pkgid (Left buildFailure) =
InstallPlan.failed (Source.fakeUnitId pkgid)
buildFailure depsFailure
where
depsFailure = DependentFailed pkgid
-- So this first pkgid failed for whatever reason (buildFailure).
-- All the other packages that depended on this pkgid, which we
-- now cannot build, we mark as failing due to 'DependentFailed'
-- which kind of means it was not their fault.
-- Print build log if something went wrong, and 'Installed $PKGID'
-- otherwise.
printBuildResult :: PackageId -> UnitId -> BuildResult -> IO ()
printBuildResult pkgid ipid buildResult = case buildResult of
(Right _) -> notice verbosity $ "Installed " ++ display pkgid
(Left _) -> do
notice verbosity $ "Failed to install " ++ display pkgid
when (verbosity >= normal) $
case useLogFile of
Nothing -> return ()
Just (mkLogFileName, _) -> do
let logName = mkLogFileName pkgid ipid
putStr $ "Build log ( " ++ logName ++ " ):\n"
printFile logName
printFile :: FilePath -> IO ()
printFile path = readFile path >>= putStr
-- | Call an installer for an 'SourcePackage' but override the configure
-- flags with the ones given by the 'ReadyPackage'. In particular the
-- 'ReadyPackage' specifies an exact 'FlagAssignment' and exactly
-- versioned package dependencies. So we ignore any previous partial flag
-- assignment or dependency constraints and use the new ones.
--
-- NB: when updating this function, don't forget to also update
-- 'configurePackage' in D.C.Configure.
installReadyPackage :: Platform -> CompilerInfo
-> ConfigFlags
-> ReadyPackage
-> (ConfigFlags -> PackageLocation (Maybe FilePath)
-> PackageDescription
-> PackageDescriptionOverride
-> a)
-> a
installReadyPackage platform cinfo configFlags
(ReadyPackage (ConfiguredPackage
(SourcePackage _ gpkg source pkgoverride)
flags stanzas _)
deps)
installPkg =
installPkg configFlags {
configConfigurationsFlags = flags,
-- We generate the legacy constraints as well as the new style precise deps.
-- In the end only one set gets passed to Setup.hs configure, depending on
-- the Cabal version we are talking to.
configConstraints = [ thisPackageVersion (packageId deppkg)
| deppkg <- CD.nonSetupDeps deps ],
configDependencies = [ (packageName (Installed.sourcePackageId deppkg),
Installed.installedUnitId deppkg)
| deppkg <- CD.nonSetupDeps deps ],
-- Use '--exact-configuration' if supported.
configExactConfiguration = toFlag True,
configBenchmarks = toFlag False,
configTests = toFlag (TestStanzas `elem` stanzas)
} source pkg pkgoverride
where
pkg = case finalizePackageDescription flags
(const True)
platform cinfo [] (enableStanzas stanzas gpkg) of
Left _ -> error "finalizePackageDescription ReadyPackage failed"
Right (desc, _) -> desc
fetchSourcePackage
:: Verbosity
-> RepoContext
-> JobLimit
-> PackageLocation (Maybe FilePath)
-> (PackageLocation FilePath -> IO BuildResult)
-> IO BuildResult
fetchSourcePackage verbosity repoCtxt fetchLimit src installPkg = do
fetched <- checkFetched src
case fetched of
Just src' -> installPkg src'
Nothing -> onFailure DownloadFailed $ do
loc <- withJobLimit fetchLimit $
fetchPackage verbosity repoCtxt src
installPkg loc
installLocalPackage
:: Verbosity
-> JobLimit
-> PackageIdentifier -> PackageLocation FilePath -> FilePath
-> (Maybe FilePath -> IO BuildResult)
-> IO BuildResult
installLocalPackage verbosity jobLimit pkgid location distPref installPkg =
case location of
LocalUnpackedPackage dir ->
installPkg (Just dir)
LocalTarballPackage tarballPath ->
installLocalTarballPackage verbosity jobLimit
pkgid tarballPath distPref installPkg
RemoteTarballPackage _ tarballPath ->
installLocalTarballPackage verbosity jobLimit
pkgid tarballPath distPref installPkg
RepoTarballPackage _ _ tarballPath ->
installLocalTarballPackage verbosity jobLimit
pkgid tarballPath distPref installPkg
installLocalTarballPackage
:: Verbosity
-> JobLimit
-> PackageIdentifier -> FilePath -> FilePath
-> (Maybe FilePath -> IO BuildResult)
-> IO BuildResult
installLocalTarballPackage verbosity jobLimit pkgid
tarballPath distPref installPkg = do
tmp <- getTemporaryDirectory
withTempDirectory verbosity tmp "cabal-tmp" $ \tmpDirPath ->
onFailure UnpackFailed $ do
let relUnpackedPath = display pkgid
absUnpackedPath = tmpDirPath </> relUnpackedPath
descFilePath = absUnpackedPath
</> display (packageName pkgid) <.> "cabal"
withJobLimit jobLimit $ do
info verbosity $ "Extracting " ++ tarballPath
++ " to " ++ tmpDirPath ++ "..."
extractTarGzFile tmpDirPath relUnpackedPath tarballPath
exists <- doesFileExist descFilePath
when (not exists) $
die $ "Package .cabal file not found: " ++ show descFilePath
maybeRenameDistDir absUnpackedPath
installPkg (Just absUnpackedPath)
where
-- 'cabal sdist' puts pre-generated files in the 'dist'
-- directory. This fails when a nonstandard build directory name
-- is used (as is the case with sandboxes), so we need to rename
-- the 'dist' dir here.
--
-- TODO: 'cabal get happy && cd sandbox && cabal install ../happy' still
-- fails even with this workaround. We probably can live with that.
maybeRenameDistDir :: FilePath -> IO ()
maybeRenameDistDir absUnpackedPath = do
let distDirPath = absUnpackedPath </> defaultDistPref
distDirPathTmp = absUnpackedPath </> (defaultDistPref ++ "-tmp")
distDirPathNew = absUnpackedPath </> distPref
distDirExists <- doesDirectoryExist distDirPath
when (distDirExists
&& (not $ distDirPath `equalFilePath` distDirPathNew)) $ do
-- NB: we need to handle the case when 'distDirPathNew' is a
-- subdirectory of 'distDirPath' (e.g. the former is
-- 'dist/dist-sandbox-3688fbc2' and the latter is 'dist').
debug verbosity $ "Renaming '" ++ distDirPath ++ "' to '"
++ distDirPathTmp ++ "'."
renameDirectory distDirPath distDirPathTmp
when (distDirPath `isPrefixOf` distDirPathNew) $
createDirectoryIfMissingVerbose verbosity False distDirPath
debug verbosity $ "Renaming '" ++ distDirPathTmp ++ "' to '"
++ distDirPathNew ++ "'."
renameDirectory distDirPathTmp distDirPathNew
installUnpackedPackage
:: Verbosity
-> JobLimit
-> Lock
-> Int
-> SetupScriptOptions
-> InstallMisc
-> ConfigFlags
-> InstallFlags
-> HaddockFlags
-> CompilerInfo
-> Platform
-> PackageDescription
-> ReadyPackage
-> PackageDescriptionOverride
-> Maybe FilePath -- ^ Directory to change to before starting the installation.
-> UseLogFile -- ^ File to log output to (if any)
-> IO BuildResult
installUnpackedPackage verbosity buildLimit installLock numJobs
scriptOptions miscOptions
configFlags installFlags haddockFlags
cinfo platform pkg rpkg pkgoverride workingDir useLogFile = do
-- Override the .cabal file if necessary
case pkgoverride of
Nothing -> return ()
Just pkgtxt -> do
let descFilePath = fromMaybe "." workingDir
</> display (packageName pkgid) <.> "cabal"
info verbosity $
"Updating " ++ display (packageName pkgid) <.> "cabal"
++ " with the latest revision from the index."
writeFileAtomic descFilePath pkgtxt
-- Compute the IPID
let flags (ReadyPackage (ConfiguredPackage _ x _ _) _) = x
cid = Configure.computeComponentId (PackageDescription.package pkg) CLibName
(map (\(SimpleUnitId cid0) -> cid0) (CD.libraryDeps (depends rpkg))) (flags rpkg)
ipid = SimpleUnitId cid
-- Make sure that we pass --libsubdir etc to 'setup configure' (necessary if
-- the setup script was compiled against an old version of the Cabal lib).
configFlags' <- addDefaultInstallDirs ipid configFlags
-- Filter out flags not supported by the old versions of the Cabal lib.
let configureFlags :: Version -> ConfigFlags
configureFlags = filterConfigureFlags configFlags' {
configVerbosity = toFlag verbosity'
}
-- Path to the optional log file.
mLogPath <- maybeLogPath ipid
logDirChange (maybe putStr appendFile mLogPath) workingDir $ do
-- Configure phase
onFailure ConfigureFailed $ withJobLimit buildLimit $ do
when (numJobs > 1) $ notice verbosity $
"Configuring " ++ display pkgid ++ "..."
setup configureCommand configureFlags mLogPath
-- Build phase
onFailure BuildFailed $ do
when (numJobs > 1) $ notice verbosity $
"Building " ++ display pkgid ++ "..."
setup buildCommand' buildFlags mLogPath
-- Doc generation phase
docsResult <- if shouldHaddock
then (do setup haddockCommand haddockFlags' mLogPath
return DocsOk)
`catchIO` (\_ -> return DocsFailed)
`catchExit` (\_ -> return DocsFailed)
else return DocsNotTried
-- Tests phase
onFailure TestsFailed $ do
when (testsEnabled && PackageDescription.hasTests pkg) $
setup Cabal.testCommand testFlags mLogPath
let testsResult | testsEnabled = TestsOk
| otherwise = TestsNotTried
-- Install phase
onFailure InstallFailed $ criticalSection installLock $ do
-- Capture installed package configuration file
maybePkgConf <- maybeGenPkgConf mLogPath
-- Actual installation
withWin32SelfUpgrade verbosity ipid configFlags
cinfo platform pkg $ do
case rootCmd miscOptions of
(Just cmd) -> reexec cmd
Nothing -> do
setup Cabal.copyCommand copyFlags mLogPath
when shouldRegister $ do
setup Cabal.registerCommand registerFlags mLogPath
return (Right (BuildOk docsResult testsResult maybePkgConf))
where
pkgid = packageId pkg
buildCommand' = buildCommand defaultProgramConfiguration
buildFlags _ = emptyBuildFlags {
buildDistPref = configDistPref configFlags,
buildVerbosity = toFlag verbosity'
}
shouldHaddock = fromFlag (installDocumentation installFlags)
haddockFlags' _ = haddockFlags {
haddockVerbosity = toFlag verbosity',
haddockDistPref = configDistPref configFlags
}
testsEnabled = fromFlag (configTests configFlags)
&& fromFlagOrDefault False (installRunTests installFlags)
testFlags _ = Cabal.emptyTestFlags {
Cabal.testDistPref = configDistPref configFlags
}
copyFlags _ = Cabal.emptyCopyFlags {
Cabal.copyDistPref = configDistPref configFlags,
Cabal.copyDest = toFlag InstallDirs.NoCopyDest,
Cabal.copyVerbosity = toFlag verbosity'
}
shouldRegister = PackageDescription.hasLibs pkg
registerFlags _ = Cabal.emptyRegisterFlags {
Cabal.regDistPref = configDistPref configFlags,
Cabal.regVerbosity = toFlag verbosity'
}
verbosity' = maybe verbosity snd useLogFile
tempTemplate name = name ++ "-" ++ display pkgid
addDefaultInstallDirs :: UnitId -> ConfigFlags -> IO ConfigFlags
addDefaultInstallDirs ipid configFlags' = do
defInstallDirs <- InstallDirs.defaultInstallDirs flavor userInstall False
return $ configFlags' {
configInstallDirs = fmap Cabal.Flag .
InstallDirs.substituteInstallDirTemplates env $
InstallDirs.combineInstallDirs fromFlagOrDefault
defInstallDirs (configInstallDirs configFlags)
}
where
CompilerId flavor _ = compilerInfoId cinfo
env = initialPathTemplateEnv pkgid ipid cinfo platform
userInstall = fromFlagOrDefault defaultUserInstall
(configUserInstall configFlags')
maybeGenPkgConf :: Maybe FilePath
-> IO (Maybe Installed.InstalledPackageInfo)
maybeGenPkgConf mLogPath =
if shouldRegister then do
tmp <- getTemporaryDirectory
withTempFile tmp (tempTemplate "pkgConf") $ \pkgConfFile handle -> do
hClose handle
let registerFlags' version = (registerFlags version) {
Cabal.regGenPkgConf = toFlag (Just pkgConfFile)
}
setup Cabal.registerCommand registerFlags' mLogPath
withUTF8FileContents pkgConfFile $ \pkgConfText ->
case Installed.parseInstalledPackageInfo pkgConfText of
Installed.ParseFailed perror -> pkgConfParseFailed perror
Installed.ParseOk warns pkgConf -> do
unless (null warns) $
warn verbosity $ unlines (map (showPWarning pkgConfFile) warns)
return (Just pkgConf)
else return Nothing
pkgConfParseFailed :: Installed.PError -> IO a
pkgConfParseFailed perror =
die $ "Couldn't parse the output of 'setup register --gen-pkg-config':"
++ show perror
maybeLogPath :: UnitId -> IO (Maybe FilePath)
maybeLogPath ipid =
case useLogFile of
Nothing -> return Nothing
Just (mkLogFileName, _) -> do
let logFileName = mkLogFileName (packageId pkg) ipid
logDir = takeDirectory logFileName
unless (null logDir) $ createDirectoryIfMissing True logDir
logFileExists <- doesFileExist logFileName
when logFileExists $ removeFile logFileName
return (Just logFileName)
setup cmd flags mLogPath =
Exception.bracket
(traverse (\path -> openFile path AppendMode) mLogPath)
(traverse_ hClose)
(\logFileHandle ->
setupWrapper verbosity
scriptOptions { useLoggingHandle = logFileHandle
, useWorkingDir = workingDir }
(Just pkg)
cmd flags [])
reexec cmd = do
-- look for our own executable file and re-exec ourselves using a helper
-- program like sudo to elevate privileges:
self <- getExecutablePath
weExist <- doesFileExist self
if weExist
then inDir workingDir $
rawSystemExit verbosity cmd
[self, "install", "--only"
,"--verbose=" ++ showForCabal verbosity]
else die $ "Unable to find cabal executable at: " ++ self
-- helper
onFailure :: (SomeException -> BuildFailure) -> IO BuildResult -> IO BuildResult
onFailure result action =
action `catches`
[ Handler $ \ioe -> handler (ioe :: IOException)
, Handler $ \exit -> handler (exit :: ExitCode)
]
where
handler :: Exception e => e -> IO BuildResult
handler = return . Left . result . toException
-- ------------------------------------------------------------
-- * Weird windows hacks
-- ------------------------------------------------------------
withWin32SelfUpgrade :: Verbosity
-> UnitId
-> ConfigFlags
-> CompilerInfo
-> Platform
-> PackageDescription
-> IO a -> IO a
withWin32SelfUpgrade _ _ _ _ _ _ action | buildOS /= Windows = action
withWin32SelfUpgrade verbosity ipid configFlags cinfo platform pkg action = do
defaultDirs <- InstallDirs.defaultInstallDirs
compFlavor
(fromFlag (configUserInstall configFlags))
(PackageDescription.hasLibs pkg)
Win32SelfUpgrade.possibleSelfUpgrade verbosity
(exeInstallPaths defaultDirs) action
where
pkgid = packageId pkg
(CompilerId compFlavor _) = compilerInfoId cinfo
exeInstallPaths defaultDirs =
[ InstallDirs.bindir absoluteDirs </> exeName <.> exeExtension
| exe <- PackageDescription.executables pkg
, PackageDescription.buildable (PackageDescription.buildInfo exe)
, let exeName = prefix ++ PackageDescription.exeName exe ++ suffix
prefix = substTemplate prefixTemplate
suffix = substTemplate suffixTemplate ]
where
fromFlagTemplate = fromFlagOrDefault (InstallDirs.toPathTemplate "")
prefixTemplate = fromFlagTemplate (configProgPrefix configFlags)
suffixTemplate = fromFlagTemplate (configProgSuffix configFlags)
templateDirs = InstallDirs.combineInstallDirs fromFlagOrDefault
defaultDirs (configInstallDirs configFlags)
absoluteDirs = InstallDirs.absoluteInstallDirs
pkgid ipid
cinfo InstallDirs.NoCopyDest
platform templateDirs
substTemplate = InstallDirs.fromPathTemplate
. InstallDirs.substPathTemplate env
where env = InstallDirs.initialPathTemplateEnv pkgid ipid
cinfo platform