stack-0.1.3.0: src/Stack/Build/Execute.hs
{-# LANGUAGE ConstraintKinds #-}
{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE MultiParamTypeClasses #-}
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE RecordWildCards #-}
{-# LANGUAGE TemplateHaskell #-}
-- | Perform a build
module Stack.Build.Execute
( printPlan
, preFetch
, executePlan
-- * Running Setup.hs
, ExecuteEnv
, withExecuteEnv
, withSingleContext
) where
import Control.Applicative ((<$>))
import Control.Concurrent.Execute
import Control.Concurrent.Lifted (fork)
import Control.Concurrent.MVar.Lifted
import Control.Concurrent.STM
import Control.Exception.Enclosed (tryIO)
import Control.Exception.Lifted
import Control.Monad (liftM, when, unless, void, join, guard)
import Control.Monad.Catch (MonadCatch, MonadMask)
import Control.Monad.IO.Class
import Control.Monad.Logger
import Control.Monad.Reader (MonadReader, asks)
import Control.Monad.Trans.Control (liftBaseWith)
import Control.Monad.Trans.Resource
import qualified Data.ByteString as S
import Data.ByteString (ByteString)
import qualified Data.ByteString.Char8 as S8
import Data.Conduit
import qualified Data.Conduit.Binary as CB
import qualified Data.Conduit.List as CL
import Data.Foldable (forM_)
import Data.Function
import Data.List
import Data.Map.Strict (Map)
import qualified Data.Map.Strict as Map
import Data.Maybe
import Data.Monoid ((<>))
import Data.Set (Set)
import qualified Data.Set as Set
import Data.Streaming.Process hiding (callProcess, env)
import qualified Data.Streaming.Process as Process
import Data.Traversable (forM)
import Data.Text (Text)
import qualified Data.Text as T
import Data.Text.Encoding (encodeUtf8)
import Data.Word8 (_colon)
import Distribution.System (OS (Windows),
Platform (Platform))
import Language.Haskell.TH as TH (location)
import Network.HTTP.Client.Conduit (HasHttpManager)
import Path
import Path.IO
import Prelude hiding (FilePath, writeFile)
import Stack.Build.Cache
import Stack.Build.Coverage
import Stack.Build.Haddock
import Stack.Build.Installed
import Stack.Build.Source
import Stack.Types.Build
import Stack.Fetch as Fetch
import Stack.GhcPkg
import Stack.Package
import Stack.Constants
import Stack.Types
import Stack.Types.StackT
import Stack.Types.Internal
import qualified System.Directory as D
import System.Environment (getExecutablePath)
import System.Exit (ExitCode (ExitSuccess))
import qualified System.FilePath as FP
import System.IO
import System.IO.Temp (withSystemTempDirectory)
import System.Process.Internals (createProcess_)
import System.Process.Read
import System.Process.Run
import System.Process.Log (showProcessArgDebug)
type M env m = (MonadIO m,MonadReader env m,HasHttpManager env,HasBuildConfig env,MonadLogger m,MonadBaseControl IO m,MonadCatch m,MonadMask m,HasLogLevel env,HasEnvConfig env,HasTerminal env)
preFetch :: M env m => Plan -> m ()
preFetch plan
| Set.null idents = $logDebug "Nothing to fetch"
| otherwise = do
$logDebug $ T.pack $
"Prefetching: " ++
intercalate ", " (map packageIdentifierString $ Set.toList idents)
menv <- getMinimalEnvOverride
fetchPackages menv idents
where
idents = Set.unions $ map toIdent $ Map.toList $ planTasks plan
toIdent (name, task) =
case taskType task of
TTLocal _ -> Set.empty
TTUpstream package _ -> Set.singleton $ PackageIdentifier
name
(packageVersion package)
printPlan :: M env m
=> Plan
-> m ()
printPlan plan = do
case Map.toList $ planUnregisterLocal plan of
[] -> $logInfo "No packages would be unregistered."
xs -> do
$logInfo "Would unregister locally:"
forM_ xs $ \(gid, reason) -> $logInfo $ T.concat
[ T.pack $ ghcPkgIdString gid
, " ("
, reason
, ")"
]
$logInfo ""
case Map.elems $ planTasks plan of
[] -> $logInfo "Nothing to build."
xs -> do
$logInfo "Would build:"
mapM_ ($logInfo . displayTask) xs
let hasTests = not . Set.null . lptbTests
hasBenches = not . Set.null . lptbBenches
tests = Map.elems $ fmap fst $ Map.filter (hasTests . snd) $ planFinals plan
benches = Map.elems $ fmap fst $ Map.filter (hasBenches . snd) $ planFinals plan
unless (null tests) $ do
$logInfo ""
$logInfo "Would test:"
mapM_ ($logInfo . displayTask) tests
unless (null benches) $ do
$logInfo ""
$logInfo "Would benchmark:"
mapM_ ($logInfo . displayTask) benches
$logInfo ""
case Map.toList $ planInstallExes plan of
[] -> $logInfo "No executables to be installed."
xs -> do
$logInfo "Would install executables:"
forM_ xs $ \(name, loc) -> $logInfo $ T.concat
[ name
, " from "
, case loc of
Snap -> "snapshot"
Local -> "local"
, " database"
]
-- | For a dry run
displayTask :: Task -> Text
displayTask task = T.pack $ concat
[ packageIdentifierString $ taskProvides task
, ": database="
, case taskLocation task of
Snap -> "snapshot"
Local -> "local"
, ", source="
, case taskType task of
TTLocal lp -> concat
[ toFilePath $ lpDir lp
]
TTUpstream _ _ -> "package index"
, if Set.null missing
then ""
else ", after: " ++ intercalate "," (map packageIdentifierString $ Set.toList missing)
]
where
missing = tcoMissing $ taskConfigOpts task
data ExecuteEnv = ExecuteEnv
{ eeEnvOverride :: !EnvOverride
, eeConfigureLock :: !(MVar ())
, eeInstallLock :: !(MVar ())
, eeBuildOpts :: !BuildOpts
, eeBaseConfigOpts :: !BaseConfigOpts
, eeGhcPkgIds :: !(TVar (Map PackageIdentifier Installed))
, eeTempDir :: !(Path Abs Dir)
, eeSetupHs :: !(Path Abs File)
, eeCabalPkgVer :: !Version
, eeTotalWanted :: !Int
, eeWanted :: !(Set PackageName)
, eeLocals :: ![LocalPackage]
, eeSourceMap :: !SourceMap
, eeGlobalDB :: !(Path Abs Dir)
}
withExecuteEnv :: M env m
=> EnvOverride
-> BuildOpts
-> BaseConfigOpts
-> [LocalPackage]
-> SourceMap
-> (ExecuteEnv -> m a)
-> m a
withExecuteEnv menv bopts baseConfigOpts locals sourceMap inner = do
withSystemTempDirectory stackProgName $ \tmpdir -> do
tmpdir' <- parseAbsDir tmpdir
configLock <- newMVar ()
installLock <- newMVar ()
idMap <- liftIO $ newTVarIO Map.empty
let setupHs = tmpdir' </> $(mkRelFile "Setup.hs")
liftIO $ writeFile (toFilePath setupHs) "import Distribution.Simple\nmain = defaultMain"
cabalPkgVer <- asks (envConfigCabalVersion . getEnvConfig)
globalDB <- getGlobalDB menv
inner ExecuteEnv
{ eeEnvOverride = menv
, eeBuildOpts = bopts
-- Uncertain as to why we cannot run configures in parallel. This appears
-- to be a Cabal library bug. Original issue:
-- https://github.com/fpco/stack/issues/84. Ideally we'd be able to remove
-- this.
, eeConfigureLock = configLock
, eeInstallLock = installLock
, eeBaseConfigOpts = baseConfigOpts
, eeGhcPkgIds = idMap
, eeTempDir = tmpdir'
, eeSetupHs = setupHs
, eeCabalPkgVer = cabalPkgVer
, eeTotalWanted = length $ filter lpWanted locals
, eeWanted = wantedLocalPackages locals
, eeLocals = locals
, eeSourceMap = sourceMap
, eeGlobalDB = globalDB
}
-- | Perform the actual plan
executePlan :: M env m
=> EnvOverride
-> BuildOpts
-> BaseConfigOpts
-> [LocalPackage]
-> SourceMap
-> Plan
-> m ()
executePlan menv bopts baseConfigOpts locals sourceMap plan = do
withExecuteEnv menv bopts baseConfigOpts locals sourceMap (executePlan' plan)
unless (Map.null $ planInstallExes plan) $ do
snapBin <- (</> bindirSuffix) `liftM` installationRootDeps
localBin <- (</> bindirSuffix) `liftM` installationRootLocal
destDir <- asks $ configLocalBin . getConfig
createTree destDir
let destDir' = toFilePath destDir
when (not $ any (FP.equalFilePath destDir') (envSearchPath menv)) $
$logWarn $ T.concat
[ "Installation path "
, T.pack destDir'
, " not found in PATH environment variable"
]
platform <- asks getPlatform
let ext =
case platform of
Platform _ Windows -> ".exe"
_ -> ""
currExe <- liftIO getExecutablePath -- needed for windows, see below
installed <- forM (Map.toList $ planInstallExes plan) $ \(name, loc) -> do
let bindir =
case loc of
Snap -> snapBin
Local -> localBin
mfp <- resolveFileMaybe bindir $ T.unpack name ++ ext
case mfp of
Nothing -> do
$logWarn $ T.concat
[ "Couldn't find executable "
, name
, " in directory "
, T.pack $ toFilePath bindir
]
return Nothing
Just file -> do
let destFile = destDir' FP.</> T.unpack name ++ ext
$logInfo $ T.concat
[ "Copying from "
, T.pack $ toFilePath file
, " to "
, T.pack destFile
]
liftIO $ case platform of
Platform _ Windows | FP.equalFilePath destFile currExe ->
windowsRenameCopy (toFilePath file) destFile
_ -> D.copyFile (toFilePath file) destFile
return $ Just (destDir', [T.append name (T.pack ext)])
let destToInstalled = Map.fromListWith (++) (catMaybes installed)
unless (Map.null destToInstalled) $ $logInfo ""
forM_ (Map.toList destToInstalled) $ \(dest, executables) -> do
$logInfo $ T.concat
[ "Copied executables to "
, T.pack dest
, ":"]
forM_ executables $ \exe -> $logInfo $ T.append "- " exe
forM_ (boptsExec bopts) $ \(cmd, args) -> do
$logProcessRun cmd args
callProcess Nothing menv cmd args
-- | Windows can't write over the current executable. Instead, we rename the
-- current executable to something else and then do the copy.
windowsRenameCopy :: FilePath -> FilePath -> IO ()
windowsRenameCopy src dest = do
D.copyFile src new
D.renameFile dest old
D.renameFile new dest
where
new = dest ++ ".new"
old = dest ++ ".old"
-- | Perform the actual plan (internal)
executePlan' :: M env m
=> Plan
-> ExecuteEnv
-> m ()
executePlan' plan ee@ExecuteEnv {..} = do
case Map.toList $ planUnregisterLocal plan of
[] -> return ()
ids -> do
localDB <- packageDatabaseLocal
forM_ ids $ \(id', reason) -> do
$logInfo $ T.concat
[ T.pack $ ghcPkgIdString id'
, ": unregistering ("
, reason
, ")"
]
unregisterGhcPkgId eeEnvOverride localDB id'
-- Yes, we're explicitly discarding result values, which in general would
-- be bad. monad-unlift does this all properly at the type system level,
-- but I don't want to pull it in for this one use case, when we know that
-- stack always using transformer stacks that are safe for this use case.
runInBase <- liftBaseWith $ \run -> return (void . run)
let actions = concatMap (toActions runInBase ee) $ Map.elems $ Map.mergeWithKey
(\_ b f -> Just (Just b, Just f))
(fmap (\b -> (Just b, Nothing)))
(fmap (\f -> (Nothing, Just f)))
(planTasks plan)
(planFinals plan)
threads <- asks $ configJobs . getConfig
concurrentTests <- asks $ configConcurrentTests . getConfig
let keepGoing =
case boptsKeepGoing eeBuildOpts of
Just kg -> kg
Nothing -> boptsTests eeBuildOpts || boptsBenchmarks eeBuildOpts
concurrentFinal =
-- TODO it probably makes more sense to use a lock for test suites
-- and just have the execution blocked. Turning off all concurrency
-- on finals based on the --test option doesn't fit in well.
if boptsTests eeBuildOpts
then concurrentTests
else True
terminal <- asks getTerminal
errs <- liftIO $ runActions threads keepGoing concurrentFinal actions $ \doneVar -> do
let total = length actions
loop prev
| prev == total =
runInBase $ $logStickyDone ("Completed all " <> T.pack (show total) <> " actions.")
| otherwise = do
when terminal $ runInBase $
$logSticky ("Progress: " <> T.pack (show prev) <> "/" <> T.pack (show total))
done <- atomically $ do
done <- readTVar doneVar
check $ done /= prev
return done
loop done
if total > 1
then loop 0
else return ()
unless (null errs) $ throwM $ ExecutionFailure errs
when (boptsHaddock eeBuildOpts) $ do
generateLocalHaddockIndex eeEnvOverride eeBaseConfigOpts eeLocals
generateDepsHaddockIndex eeEnvOverride eeBaseConfigOpts eeLocals
generateSnapHaddockIndex eeEnvOverride eeBaseConfigOpts eeGlobalDB
when (toCoverage $ boptsTestOpts eeBuildOpts) generateHpcMarkupIndex
toActions :: M env m
=> (m () -> IO ())
-> ExecuteEnv
-> (Maybe Task, Maybe (Task, LocalPackageTB)) -- build and final
-> [Action]
toActions runInBase ee (mbuild, mfinal) =
abuild ++ afinal
where
abuild =
case mbuild of
Nothing -> []
Just task@Task {..} ->
[ Action
{ actionId = ActionId taskProvides ATBuild
, actionDeps =
(Set.map (\ident -> ActionId ident ATBuild) (tcoMissing taskConfigOpts))
, actionDo = \ac -> runInBase $ singleBuild ac ee task
}
]
afinal =
case mfinal of
Nothing -> []
Just (task@Task {..}, lptb) ->
[ Action
{ actionId = ActionId taskProvides ATFinal
, actionDeps = addBuild taskProvides $
(Set.map (\ident -> ActionId ident ATBuild) (tcoMissing taskConfigOpts))
, actionDo = \ac -> runInBase $ do
unless (Set.null $ lptbTests lptb) $ do
singleTest topts lptb ac ee task
unless (Set.null $ lptbBenches lptb) $ do
singleBench beopts lptb ac ee task
}
]
where
addBuild ident =
case mbuild of
Nothing -> id
Just _ -> Set.insert $ ActionId ident ATBuild
bopts = eeBuildOpts ee
topts = boptsTestOpts bopts
beopts = boptsBenchmarkOpts bopts
-- | Ensure that the configuration for the package matches what is given
ensureConfig :: M env m
=> Path Abs Dir -- ^ package directory
-> ExecuteEnv
-> Task
-> m () -- ^ announce
-> (Bool -> [String] -> m ()) -- ^ cabal
-> Path Abs File -- ^ .cabal file
-> [Text]
-> m (ConfigCache, Bool)
ensureConfig pkgDir ExecuteEnv {..} Task {..} announce cabal cabalfp extra = do
-- Determine the old and new configuration in the local directory, to
-- determine if we need to reconfigure.
mOldConfigCache <- tryGetConfigCache pkgDir
mOldCabalMod <- tryGetCabalMod pkgDir
newCabalMod <- liftIO (fmap modTime (D.getModificationTime (toFilePath cabalfp)))
idMap <- liftIO $ readTVarIO eeGhcPkgIds
let getMissing ident =
case Map.lookup ident idMap of
Nothing -> error "singleBuild: invariant violated, missing package ID missing"
Just (Library x) -> Just x
Just (Executable _) -> Nothing
missing' = Set.fromList $ mapMaybe getMissing $ Set.toList missing
TaskConfigOpts missing mkOpts = taskConfigOpts
configOpts = mkOpts missing' ++ extra
allDeps = Set.union missing' taskPresent
newConfigCache = ConfigCache
{ configCacheOpts = map encodeUtf8 configOpts
, configCacheDeps = allDeps
, configCacheComponents =
case taskType of
TTLocal lp -> Set.map renderComponent $ lpComponents lp
TTUpstream _ _ -> Set.empty
, configCacheHaddock =
shouldHaddockPackage eeBuildOpts eeWanted (packageIdentifierName taskProvides)
}
let needConfig = mOldConfigCache /= Just newConfigCache
|| mOldCabalMod /= Just newCabalMod
when needConfig $ withMVar eeConfigureLock $ \_ -> do
deleteCaches pkgDir
announce
cabal False $ "configure" : map T.unpack configOpts
writeConfigCache pkgDir newConfigCache
writeCabalMod pkgDir newCabalMod
return (newConfigCache, needConfig)
withSingleContext :: M env m
=> ActionContext
-> ExecuteEnv
-> Task
-> Maybe String
-> ( Package
-> Path Abs File
-> Path Abs Dir
-> (Bool -> [String] -> m ())
-> (Text -> m ())
-> Bool
-> Maybe (Path Abs File, Handle)
-> m a)
-> m a
withSingleContext ActionContext {..} ExecuteEnv {..} task@Task {..} msuffix inner0 =
withPackage $ \package cabalfp pkgDir ->
withLogFile package $ \mlogFile ->
withCabal package pkgDir mlogFile $ \cabal ->
inner0 package cabalfp pkgDir cabal announce console mlogFile
where
announce x = $logInfo $ T.concat
[ T.pack $ packageIdentifierString taskProvides
, ": "
, x
]
wanted =
case taskType of
TTLocal lp -> lpWanted lp
TTUpstream _ _ -> False
console = wanted
&& all (\(ActionId ident _) -> ident == taskProvides) (Set.toList acRemaining)
&& eeTotalWanted == 1
withPackage inner =
case taskType of
TTLocal lp -> inner (lpPackage lp) (lpCabalFile lp) (lpDir lp)
TTUpstream package _ -> do
mdist <- liftM Just distRelativeDir
m <- unpackPackageIdents eeEnvOverride eeTempDir mdist $ Set.singleton taskProvides
case Map.toList m of
[(ident, dir)]
| ident == taskProvides -> do
let name = packageIdentifierName taskProvides
cabalfpRel <- parseRelFile $ packageNameString name ++ ".cabal"
let cabalfp = dir </> cabalfpRel
inner package cabalfp dir
_ -> error $ "withPackage: invariant violated: " ++ show m
withLogFile package inner
| console = inner Nothing
| otherwise = do
logPath <- buildLogPath package msuffix
createTree (parent logPath)
let fp = toFilePath logPath
bracket
(liftIO $ openBinaryFile fp WriteMode)
(liftIO . hClose)
$ \h -> inner (Just (logPath, h))
withCabal package pkgDir mlogFile inner = do
config <- asks getConfig
menv <- liftIO $ configEnvOverride config EnvSettings
{ esIncludeLocals = taskLocation task == Local
, esIncludeGhcPackagePath = False
, esStackExe = False
}
exeName <- liftIO $ join $ findExecutable menv "runhaskell"
distRelativeDir' <- distRelativeDir
setuphs <-
-- Avoid broken Setup.hs files causing problems for simple build
-- types, see:
-- https://github.com/commercialhaskell/stack/issues/370
if packageSimpleType package
then return eeSetupHs
else liftIO $ getSetupHs pkgDir
inner $ \stripTHLoading args -> do
let fullArgs =
("-package=" ++
packageIdentifierString
(PackageIdentifier cabalPackageName
eeCabalPkgVer))
: "-clear-package-db"
: "-global-package-db"
-- This next line is debatable. It adds access to the
-- snapshot package database for Cabal. There are two
-- possible objections:
--
-- 1. This doesn't isolate the build enough; arbitrary
-- other packages available could cause the build to
-- succeed or fail.
--
-- 2. This doesn't provide enough packages: we should also
-- include the local database when building local packages.
--
-- One possible solution to these points would be to use
-- -hide-all-packages and explicitly list which packages
-- can be used by Setup.hs, and have that based on the
-- dependencies of the package itself.
: ("-package-db=" ++ toFilePath (bcoSnapDB eeBaseConfigOpts))
: toFilePath setuphs
: ("--builddir=" ++ toFilePath distRelativeDir')
: args
cp0 = proc (toFilePath exeName) fullArgs
cp = cp0
{ cwd = Just $ toFilePath pkgDir
, Process.env = envHelper menv
-- Ideally we'd create a new pipe here and then close it
-- below to avoid the child process from taking from our
-- stdin. However, if we do this, the child process won't
-- be able to get the codepage on Windows that we want.
-- See:
-- https://github.com/commercialhaskell/stack/issues/738
-- , std_in = CreatePipe
, std_out =
case mlogFile of
Nothing -> CreatePipe
Just (_, h) -> UseHandle h
, std_err =
case mlogFile of
Nothing -> CreatePipe
Just (_, h) -> UseHandle h
}
$logProcessRun (toFilePath exeName) fullArgs
-- Use createProcess_ to avoid the log file being closed afterwards
(Nothing, moutH, merrH, ph) <- liftIO $ createProcess_ "singleBuild" cp
let makeAbsolute = stripTHLoading -- If users want control, we should add a config option for this
maybePrintBuildOutput stripTHLoading makeAbsolute LevelInfo mlogFile moutH
maybePrintBuildOutput False makeAbsolute LevelWarn mlogFile merrH
ec <- liftIO $ waitForProcess ph
case ec of
ExitSuccess -> return ()
_ -> do
bs <- liftIO $
case mlogFile of
Nothing -> return ""
Just (logFile, h) -> do
hClose h
S.readFile $ toFilePath logFile
throwM $ CabalExitedUnsuccessfully
ec
taskProvides
exeName
fullArgs
(fmap fst mlogFile)
bs
maybePrintBuildOutput stripTHLoading makeAbsolute level mlogFile mh =
case mh of
Just h ->
case mlogFile of
Just{} -> return ()
Nothing -> printBuildOutput stripTHLoading makeAbsolute level h
Nothing -> return ()
singleBuild :: M env m
=> ActionContext
-> ExecuteEnv
-> Task
-> m ()
singleBuild ac@ActionContext {..} ee@ExecuteEnv {..} task@Task {..} =
withSingleContext ac ee task Nothing $ \package cabalfp pkgDir cabal announce console _mlogFile -> do
(cache, _neededConfig) <- ensureConfig pkgDir ee task (announce "configure") cabal cabalfp []
markExeNotInstalled (taskLocation task) taskProvides
case taskType of
TTLocal lp -> writeBuildCache pkgDir $ lpNewBuildCache lp
TTUpstream _ _ -> return ()
announce "build"
config <- asks getConfig
extraOpts <- extraBuildOptions
cabal (console && configHideTHLoading config) $
(case taskType of
TTLocal lp -> "build"
-- Cabal... There doesn't seem to be a way to call out the library component...
-- : "lib"
: map (T.unpack . T.append "exe:")
(maybe [] Set.toList $ lpExeComponents lp)
TTUpstream _ _ -> ["build"]) ++ extraOpts
let doHaddock = shouldHaddockPackage eeBuildOpts eeWanted (packageName package) &&
-- Works around haddock failing on bytestring-builder since it has no modules
-- when bytestring is new enough.
packageHasExposedModules package
when doHaddock $ do
announce "haddock"
hscolourExists <- doesExecutableExist eeEnvOverride "HsColour"
unless hscolourExists $ $logWarn
("Warning: haddock not generating hyperlinked sources because 'HsColour' not\n" <>
"found on PATH (use 'stack build hscolour --copy-bins' to install).")
cabal False (concat [["haddock", "--html", "--hoogle", "--html-location=../$pkg-$version/"]
,["--hyperlink-source" | hscolourExists]])
withMVar eeInstallLock $ \() -> do
announce "install"
cabal False ["install"]
let pkgDbs =
case taskLocation task of
Snap -> [bcoSnapDB eeBaseConfigOpts]
Local ->
[ bcoSnapDB eeBaseConfigOpts
, bcoLocalDB eeBaseConfigOpts
]
mpkgid <- findGhcPkgId eeEnvOverride pkgDbs (packageName package)
mpkgid' <- case (packageHasLibrary package, mpkgid) of
(False, _) -> assert (isNothing mpkgid) $ do
markExeInstalled (taskLocation task) taskProvides -- TODO unify somehow with writeFlagCache?
return $ Executable $ PackageIdentifier
(packageName package)
(packageVersion package)
(True, Nothing) -> throwM $ Couldn'tFindPkgId $ packageName package
(True, Just pkgid) -> return $ Library pkgid
writeFlagCache mpkgid' cache
liftIO $ atomically $ modifyTVar eeGhcPkgIds $ Map.insert taskProvides mpkgid'
when (doHaddock && shouldHaddockDeps eeBuildOpts) $
withMVar eeInstallLock $ \() ->
copyDepHaddocks
eeEnvOverride
eeBaseConfigOpts
(pkgDbs ++ [eeGlobalDB])
(PackageIdentifier (packageName package) (packageVersion package))
Set.empty
singleTest :: M env m
=> TestOpts
-> LocalPackageTB
-> ActionContext
-> ExecuteEnv
-> Task
-> m ()
singleTest topts lptb ac ee task =
withSingleContext ac ee task (Just "test") $ \package cabalfp pkgDir cabal announce console mlogFile -> do
(_cache, neededConfig) <- ensureConfig pkgDir ee task (announce "configure (test)") cabal cabalfp ["--enable-tests"]
config <- asks getConfig
testBuilt <- checkTestBuilt pkgDir
let needBuild = neededConfig ||
(case taskType task of
TTLocal lp -> lpDirtyFiles lp
_ -> assert False True) ||
not testBuilt
needHpc = toCoverage topts
testsToRun = Set.toList $ lptbTests lptb
components = map (T.unpack . T.append "test:") testsToRun
when needBuild $ do
announce "build (test)"
unsetTestBuilt pkgDir
unsetTestSuccess pkgDir
case taskType task of
TTLocal lp -> writeBuildCache pkgDir $ lpNewBuildCache lp
TTUpstream _ _ -> assert False $ return ()
extraOpts <- extraBuildOptions
cabal (console && configHideTHLoading config) $
"build" : (components ++ extraOpts)
setTestBuilt pkgDir
toRun <-
if toDisableRun topts
then do
announce "Test running disabled by --no-run-tests flag."
return False
else if toRerunTests topts
then return True
else do
success <- checkTestSuccess pkgDir
if success
then do
unless (null testsToRun) $ announce "skipping already passed test"
return False
else return True
when toRun $ do
bconfig <- asks getBuildConfig
buildDir <- distDirFromDir pkgDir
hpcDir <- hpcDirFromDir pkgDir
when needHpc (createTree hpcDir)
let exeExtension =
case configPlatform $ getConfig bconfig of
Platform _ Windows -> ".exe"
_ -> ""
errs <- liftM Map.unions $ forM testsToRun $ \testName -> do
nameDir <- parseRelDir $ T.unpack testName
nameExe <- parseRelFile $ T.unpack testName ++ exeExtension
nameTix <- liftM (pkgDir </>) $ parseRelFile $ T.unpack testName ++ ".tix"
let exeName = buildDir </> $(mkRelDir "build") </> nameDir </> nameExe
exists <- fileExists exeName
menv <- liftIO $ configEnvOverride config EnvSettings
{ esIncludeLocals = taskLocation task == Local
, esIncludeGhcPackagePath = True
, esStackExe = True
}
if exists
then do
-- We clear out the .tix files before doing a run.
when needHpc $ do
tixexists <- fileExists nameTix
when tixexists $
$logWarn ("Removing HPC file " <> T.pack (toFilePath nameTix))
removeFileIfExists nameTix
let args = toAdditionalArgs topts
argsDisplay = case args of
[] -> ""
_ -> ", args: " <> T.intercalate " " (map showProcessArgDebug args)
announce $ "test (suite: " <> testName <> argsDisplay <> ")"
let cp = (proc (toFilePath exeName) args)
{ cwd = Just $ toFilePath pkgDir
, Process.env = envHelper menv
, std_in = CreatePipe
, std_out =
case mlogFile of
Nothing -> Inherit
Just (_, h) -> UseHandle h
, std_err =
case mlogFile of
Nothing -> Inherit
Just (_, h) -> UseHandle h
}
-- Use createProcess_ to avoid the log file being closed afterwards
(Just inH, Nothing, Nothing, ph) <- liftIO $ createProcess_ "singleBuild.runTests" cp
liftIO $ hClose inH
ec <- liftIO $ waitForProcess ph
-- Move the .tix file out of the package directory
-- into the hpc work dir, for tidiness.
when needHpc $
moveFileIfExists nameTix hpcDir
return $ case ec of
ExitSuccess -> Map.empty
_ -> Map.singleton testName $ Just ec
else do
$logError $ T.concat
[ "Test suite "
, testName
, " executable not found for "
, packageNameText $ packageName package
]
return $ Map.singleton testName Nothing
when needHpc $ forM_ testsToRun $ \testName -> do
let pkgName = packageNameText (packageName package)
pkgId = packageIdentifierText (packageIdentifier package)
generateHpcReport pkgDir pkgName pkgId testName
bs <- liftIO $
case mlogFile of
Nothing -> return ""
Just (logFile, h) -> do
hClose h
S.readFile $ toFilePath logFile
unless (Map.null errs) $ throwM $ TestSuiteFailure
(taskProvides task)
errs
(fmap fst mlogFile)
bs
setTestSuccess pkgDir
singleBench :: M env m
=> BenchmarkOpts
-> LocalPackageTB
-> ActionContext
-> ExecuteEnv
-> Task
-> m ()
singleBench beopts _lptb ac ee task =
withSingleContext ac ee task (Just "bench") $ \_package cabalfp pkgDir cabal announce console _mlogFile -> do
(_cache, neededConfig) <- ensureConfig pkgDir ee task (announce "configure (benchmarks)") cabal cabalfp ["--enable-benchmarks"]
benchBuilt <- checkBenchBuilt pkgDir
let needBuild = neededConfig ||
(case taskType task of
TTLocal lp -> lpDirtyFiles lp
_ -> assert False True) ||
not benchBuilt
when needBuild $ do
announce "build (benchmarks)"
unsetBenchBuilt pkgDir
case taskType task of
TTLocal lp -> writeBuildCache pkgDir $ lpNewBuildCache lp
TTUpstream _ _ -> assert False $ return ()
config <- asks getConfig
extraOpts <- extraBuildOptions
cabal (console && configHideTHLoading config) ("build" : extraOpts)
setBenchBuilt pkgDir
let args = maybe []
((:[]) . ("--benchmark-options=" <>))
(beoAdditionalArgs beopts)
announce "benchmarks"
cabal False ("bench" : args)
-- | Grab all output from the given @Handle@ and print it to stdout, stripping
-- Template Haskell "Loading package" lines. Does work in a separate thread.
printBuildOutput :: (MonadIO m, MonadBaseControl IO m, MonadLogger m)
=> Bool -- ^ exclude TH loading?
-> Bool -- ^ convert paths to absolute?
-> LogLevel
-> Handle -> m ()
printBuildOutput excludeTHLoading makeAbsolute level outH = void $ fork $
CB.sourceHandle outH
$$ CB.lines
=$ CL.map stripCarriageReturn
=$ CL.filter (not . isTHLoading)
=$ CL.mapM toAbsolutePath
=$ CL.mapM_ (monadLoggerLog $(TH.location >>= liftLoc) "" level)
where
-- | Is this line a Template Haskell "Loading package" line
-- ByteString
isTHLoading :: S8.ByteString -> Bool
isTHLoading _ | not excludeTHLoading = False
isTHLoading bs =
"Loading package " `S8.isPrefixOf` bs &&
("done." `S8.isSuffixOf` bs || "done.\r" `S8.isSuffixOf` bs)
-- | Convert GHC error lines with file paths to have absolute file paths
toAbsolutePath bs | not makeAbsolute = return bs
toAbsolutePath bs = do
let (x, y) = S.break (== _colon) bs
mabs <-
if isValidSuffix y
then do
efp <- liftIO $ tryIO $ D.canonicalizePath $ S8.unpack x
case efp of
Left _ -> return Nothing
Right fp -> return $ Just $ S8.pack fp
else return Nothing
case mabs of
Nothing -> return bs
Just fp -> return $ fp `S.append` y
-- | Match the line:column format at the end of lines
isValidSuffix bs0 = maybe False (const True) $ do
guard $ not $ S.null bs0
guard $ S.head bs0 == _colon
(_, bs1) <- S8.readInt $ S.drop 1 bs0
guard $ not $ S.null bs1
guard $ S.head bs1 == _colon
(_, bs2) <- S8.readInt $ S.drop 1 bs1
guard $ bs2 == ":"
-- | Strip @\r@ characters from the byte vector. Used because Windows.
stripCarriageReturn :: ByteString -> ByteString
stripCarriageReturn = S8.filter (not . (=='\r'))
-- | Find the Setup.hs or Setup.lhs in the given directory. If none exists,
-- throw an exception.
getSetupHs :: Path Abs Dir -- ^ project directory
-> IO (Path Abs File)
getSetupHs dir = do
exists1 <- fileExists fp1
if exists1
then return fp1
else do
exists2 <- fileExists fp2
if exists2
then return fp2
else throwM $ NoSetupHsFound dir
where
fp1 = dir </> $(mkRelFile "Setup.hs")
fp2 = dir </> $(mkRelFile "Setup.lhs")
extraBuildOptions :: M env m => m [String]
extraBuildOptions = do
hpcIndexDir <- toFilePath . (</> dotHpc) <$> hpcRelativeDir
return ["--ghc-options", "-hpcdir " ++ hpcIndexDir ++ " -ddump-hi -ddump-to-file"]