{- git-annex test suite framework - - Copyright 2010-2022 Joey Hess - - Licensed under the GNU AGPL version 3 or higher. -} {-# LANGUAGE CPP #-} module Test.Framework where import Test.Tasty import Test.Tasty.Runners import Test.Tasty.HUnit import Test.Tasty.QuickCheck import Test.Tasty.Options import Test.Tasty.Ingredients.Rerun import Options.Applicative.Types import Control.Concurrent import Control.Concurrent.Async import System.Environment (getArgs) import Common import Types.Test import qualified Annex import qualified Annex.UUID import qualified Types.RepoVersion import qualified Backend import qualified Git.CurrentRepo import qualified Git.Construct import qualified Git.Types import qualified Git.Branch import qualified Git.Ref import qualified Types.KeySource import qualified Types.Backend import qualified Types import qualified Remote import qualified Key import qualified Types.Key import qualified Types.Messages import qualified Config import qualified Annex.WorkTree import qualified Annex.Link import qualified Annex.Path import qualified Annex.Action import qualified Annex.AdjustedBranch import qualified Annex.Init import qualified Utility.Process import qualified Utility.Process.Transcript import qualified Utility.Env import qualified Utility.Env.Set import qualified Utility.Exception import qualified Utility.ThreadScheduler import qualified Utility.Tmp.Dir import qualified Utility.Metered import qualified Command.Uninit -- Run a process. The output and stderr is captured, and is only -- displayed if the process does not return the expected value. testProcess :: String -> [String] -> (Bool -> Bool) -> String -> Assertion testProcess command params expectedret faildesc = do (transcript, ret) <- Utility.Process.Transcript.processTranscript command params Nothing (expectedret ret) @? (faildesc ++ " failed (transcript follows)\n" ++ transcript) -- Run git. (Do not use to run git-annex as the one being tested -- may not be in path.) git :: String -> [String] -> String -> Assertion git command params = testProcess "git" (command:params) (== True) -- For when git is expected to fail. git_shouldfail :: String -> [String] -> String -> Assertion git_shouldfail command params = testProcess "git" (command:params) (== False) -- Run git-annex. git_annex :: String -> [String] -> String -> Assertion git_annex = git_annex' (== True) -- For when git-annex is expected to fail. git_annex_shouldfail :: String -> [String] -> String -> Assertion git_annex_shouldfail = git_annex' (== False) git_annex' :: (Bool -> Bool) -> String -> [String] -> String -> Assertion git_annex' expectedret command params faildesc = do pp <- Annex.Path.programPath testProcess pp (command:params) expectedret faildesc {- Runs git-annex and returns its standard output. -} git_annex_output :: String -> [String] -> IO String git_annex_output command params = do pp <- Annex.Path.programPath Utility.Process.readProcess pp (command:params) git_annex_expectoutput :: String -> [String] -> [String] -> Assertion git_annex_expectoutput command params expected = do got <- lines <$> git_annex_output command params got == expected @? ("unexpected value running " ++ command ++ " " ++ show params ++ " -- got: " ++ show got ++ " expected: " ++ show expected) -- Runs an action in the current annex. Note that shutdown actions -- are not run; this should only be used for actions that query state. annexeval :: Types.Annex a -> IO a annexeval a = do s <- Annex.new =<< Git.CurrentRepo.get Annex.eval s $ do Annex.setOutput Types.Messages.QuietOutput a `finally` Annex.Action.stopCoProcesses innewrepo :: IO () -> IO () innewrepo a = withgitrepo $ \r -> indir r a inmainrepo :: IO a -> IO a inmainrepo a = do d <- mainrepodir indir d a with_ssh_origin :: (Assertion -> Assertion) -> (Assertion -> Assertion) with_ssh_origin cloner a = cloner $ do let k = Git.Types.ConfigKey (encodeBS config) let v = Git.Types.ConfigValue (toRawFilePath "/dev/null") origindir <- absPath . Git.Types.fromConfigValue =<< annexeval (Config.getConfig k v) let originurl = "localhost:" ++ fromRawFilePath origindir git "config" [config, originurl] "git config failed" a where config = "remote.origin.url" intmpclonerepo :: Assertion -> Assertion intmpclonerepo a = withtmpclonerepo $ \r -> indir r a checkRepo :: Types.Annex a -> FilePath -> IO a checkRepo getval d = do s <- Annex.new =<< Git.Construct.fromPath (toRawFilePath d) Annex.eval s $ getval `finally` Annex.Action.stopCoProcesses intmpbareclonerepo :: Assertion -> Assertion intmpbareclonerepo a = withtmpclonerepo' (newCloneRepoConfig { bareClone = True } ) $ \r -> indir r a intmpsharedclonerepo :: Assertion -> Assertion intmpsharedclonerepo a = withtmpclonerepo' (newCloneRepoConfig { sharedClone = True } ) $ \r -> indir r a withtmpclonerepo :: (FilePath -> Assertion) -> Assertion withtmpclonerepo = withtmpclonerepo' newCloneRepoConfig withtmpclonerepo' :: CloneRepoConfig -> (FilePath -> Assertion) -> Assertion withtmpclonerepo' cfg a = do dir <- tmprepodir maindir <- mainrepodir clone <- clonerepo maindir dir cfg r <- tryNonAsync (a clone) case r of Right () -> return () Left e -> do whenM (keepFailures <$> getTestMode) $ putStrLn $ "** Preserving repo for failure analysis in " ++ clone throwM e disconnectOrigin :: Assertion disconnectOrigin = git "remote" ["rm", "origin"] "remote rm" withgitrepo :: (FilePath -> Assertion) -> Assertion withgitrepo a = do maindir <- mainrepodir bracket (setuprepo maindir) return a indir :: FilePath -> IO a -> IO a indir dir a = do currdir <- getCurrentDirectory -- Assertion failures throw non-IO errors; catch -- any type of error and change back to currdir before -- rethrowing. r <- bracket_ (changeToTopDir dir) (setCurrentDirectory currdir) (tryNonAsync a) case r of Right v -> return v Left e -> throwM e adjustedbranchsupported :: FilePath -> IO Bool adjustedbranchsupported repo = indir repo $ Annex.AdjustedBranch.isGitVersionSupported setuprepo :: FilePath -> IO FilePath setuprepo dir = do cleanup dir git "init" ["-q", dir] "git init" configrepo dir return dir data CloneRepoConfig = CloneRepoConfig { bareClone :: Bool , sharedClone :: Bool } newCloneRepoConfig :: CloneRepoConfig newCloneRepoConfig = CloneRepoConfig { bareClone = False , sharedClone = False } -- clones are always done as local clones; we cannot test ssh clones clonerepo :: FilePath -> FilePath -> CloneRepoConfig -> IO FilePath clonerepo old new cfg = do cleanup new let cloneparams = catMaybes [ Just "-q" , if bareClone cfg then Just "--bare" else Nothing , if sharedClone cfg then Just "--shared" else Nothing , Just old , Just new ] git "clone" cloneparams "git clone" configrepo new indir new $ do ver <- annexVersion <$> getTestMode git_annex "init" [ "-q" , new, "--version" , show (Types.RepoVersion.fromRepoVersion ver) ] "git annex init" unless (bareClone cfg) $ indir new $ setupTestMode return new configrepo :: FilePath -> IO () configrepo dir = indir dir $ do -- ensure git is set up to let commits happen git "config" ["user.name", "Test User"] "git config" git "config" ["user.email", "test@example.com"] "git config" -- avoid signed commits by test suite git "config" ["commit.gpgsign", "false"] "git config" -- tell git-annex to not annex the ingitfile git "config" ["annex.largefiles", "exclude=" ++ ingitfile] "git config annex.largefiles" ensuredir :: FilePath -> IO () ensuredir d = do e <- doesDirectoryExist d unless e $ createDirectory d {- Prevent global git configs from affecting the test suite. -} isolateGitConfig :: IO a -> IO a isolateGitConfig a = Utility.Tmp.Dir.withTmpDir "testhome" $ \tmphome -> do tmphomeabs <- fromRawFilePath <$> absPath (toRawFilePath tmphome) Utility.Env.Set.setEnv "HOME" tmphomeabs True Utility.Env.Set.setEnv "XDG_CONFIG_HOME" tmphomeabs True Utility.Env.Set.setEnv "GIT_CONFIG_NOSYSTEM" "1" True a removeDirectoryForCleanup :: FilePath -> IO () #if MIN_VERSION_directory(1,2,7) removeDirectoryForCleanup = removePathForcibly #else removeDirectoryForCleanup = removeDirectoryRecursive #endif cleanup :: FilePath -> IO () cleanup dir = whenM (doesDirectoryExist dir) $ do Command.Uninit.prepareRemoveAnnexDir' dir -- This can fail if files in the directory are still open by a -- subprocess. void $ tryIO $ removeDirectoryForCleanup dir finalCleanup :: IO () finalCleanup = whenM (doesDirectoryExist tmpdir) $ do Command.Uninit.prepareRemoveAnnexDir' tmpdir catchIO (removeDirectoryForCleanup tmpdir) $ \e -> do print e putStrLn "sleeping 10 seconds and will retry directory cleanup" Utility.ThreadScheduler.threadDelaySeconds $ Utility.ThreadScheduler.Seconds 10 whenM (doesDirectoryExist tmpdir) $ removeDirectoryForCleanup tmpdir checklink :: FilePath -> Assertion checklink f = ifM (annexeval Config.crippledFileSystem) ( (isJust <$> annexeval (Annex.Link.getAnnexLinkTarget (toRawFilePath f))) @? f ++ " is not a (crippled) symlink" , do s <- getSymbolicLinkStatus f isSymbolicLink s @? f ++ " is not a symlink" ) checkregularfile :: FilePath -> Assertion checkregularfile f = do s <- getSymbolicLinkStatus f isRegularFile s @? f ++ " is not a normal file" return () checkdoesnotexist :: FilePath -> Assertion checkdoesnotexist f = (either (const True) (const False) <$> Utility.Exception.tryIO (getSymbolicLinkStatus f)) @? f ++ " exists unexpectedly" checkexists :: FilePath -> Assertion checkexists f = (either (const False) (const True) <$> Utility.Exception.tryIO (getSymbolicLinkStatus f)) @? f ++ " does not exist" checkcontent :: FilePath -> Assertion checkcontent f = do c <- Utility.Exception.catchDefaultIO "could not read file" $ readFile f assertEqual ("checkcontent " ++ f) (content f) c checkunwritable :: FilePath -> Assertion checkunwritable f = do -- Look at permissions bits rather than trying to write or -- using fileAccess because if run as root, any file can be -- modified despite permissions. s <- getFileStatus f let mode = fileMode s when (mode == mode `unionFileModes` ownerWriteMode) $ assertFailure $ "able to modify annexed file's " ++ f ++ " content" checkwritable :: FilePath -> Assertion checkwritable f = do s <- getFileStatus f let mode = fileMode s unless (mode == mode `unionFileModes` ownerWriteMode) $ assertFailure $ "unable to modify " ++ f checkdangling :: FilePath -> Assertion checkdangling f = ifM (annexeval Config.crippledFileSystem) ( return () -- probably no real symlinks to test , do r <- tryIO $ readFile f case r of Left _ -> return () -- expected; dangling link Right _ -> assertFailure $ f ++ " was not a dangling link as expected" ) checklocationlog :: FilePath -> Bool -> Assertion checklocationlog f expected = do thisuuid <- annexeval Annex.UUID.getUUID r <- annexeval $ Annex.WorkTree.lookupKey (toRawFilePath f) case r of Just k -> do uuids <- annexeval $ Remote.keyLocations k assertEqual ("bad content in location log for " ++ f ++ " key " ++ Key.serializeKey k ++ " uuid " ++ show thisuuid) expected (thisuuid `elem` uuids) _ -> assertFailure $ f ++ " failed to look up key" checkbackend :: FilePath -> Types.Backend -> Assertion checkbackend file expected = do b <- annexeval $ maybe (return Nothing) (Backend.getBackend file) =<< Annex.WorkTree.lookupKey (toRawFilePath file) assertEqual ("backend for " ++ file) (Just expected) b checkispointerfile :: FilePath -> Assertion checkispointerfile f = unlessM (isJust <$> Annex.Link.isPointerFile (toRawFilePath f)) $ assertFailure $ f ++ " is not a pointer file" inlocationlog :: FilePath -> Assertion inlocationlog f = checklocationlog f True notinlocationlog :: FilePath -> Assertion notinlocationlog f = checklocationlog f False runchecks :: [FilePath -> Assertion] -> FilePath -> Assertion runchecks [] _ = return () runchecks (a:as) f = do a f runchecks as f annexed_notpresent :: FilePath -> Assertion annexed_notpresent f = ifM (hasUnlockedFiles <$> getTestMode) ( annexed_notpresent_unlocked f , annexed_notpresent_locked f ) annexed_notpresent_locked :: FilePath -> Assertion annexed_notpresent_locked = runchecks [checklink, checkdangling, notinlocationlog] annexed_notpresent_unlocked :: FilePath -> Assertion annexed_notpresent_unlocked = runchecks [checkregularfile, checkispointerfile, notinlocationlog] annexed_present :: FilePath -> Assertion annexed_present f = ifM (hasUnlockedFiles <$> getTestMode) ( annexed_present_unlocked f , annexed_present_locked f ) annexed_present_locked :: FilePath -> Assertion annexed_present_locked f = ifM (annexeval Config.crippledFileSystem) ( runchecks [checklink, inlocationlog] f , runchecks [checklink, checkcontent, checkunwritable, inlocationlog] f ) annexed_present_unlocked :: FilePath -> Assertion annexed_present_unlocked = runchecks [checkregularfile, checkcontent, checkwritable, inlocationlog] annexed_present_imported :: FilePath -> Assertion annexed_present_imported f = ifM (annexeval Config.crippledFileSystem) ( annexed_present_unlocked f , ifM (adjustedUnlockedBranch <$> getTestMode) ( annexed_present_unlocked f , annexed_present_locked f ) ) annexed_notpresent_imported :: FilePath -> Assertion annexed_notpresent_imported f = ifM (annexeval Config.crippledFileSystem) ( annexed_notpresent_unlocked f , ifM (adjustedUnlockedBranch <$> getTestMode) ( annexed_notpresent_unlocked f , annexed_notpresent_locked f ) ) unannexed :: FilePath -> Assertion unannexed = runchecks [checkregularfile, checkcontent, checkwritable] -- Check that a file is unannexed, but also that what's recorded in git -- is not an annexed file. unannexed_in_git :: FilePath -> Assertion unannexed_in_git f = do unannexed f r <- annexeval $ Annex.WorkTree.lookupKey (toRawFilePath f) case r of Just _k -> assertFailure $ f ++ " is annexed in git" Nothing -> return () add_annex :: FilePath -> String -> Assertion add_annex f faildesc = ifM (unlockedFiles <$> getTestMode) ( git "add" [f] faildesc , git_annex "add" [f] faildesc ) data TestMode = TestMode { unlockedFiles :: Bool , adjustedUnlockedBranch :: Bool , annexVersion :: Types.RepoVersion.RepoVersion , keepFailures :: Bool } deriving (Read, Show) testMode :: TestOptions -> Types.RepoVersion.RepoVersion -> TestMode testMode opts v = TestMode { unlockedFiles = False , adjustedUnlockedBranch = False , annexVersion = v , keepFailures = keepFailuresOption opts } hasUnlockedFiles :: TestMode -> Bool hasUnlockedFiles m = unlockedFiles m || adjustedUnlockedBranch m withTestMode :: TestMode -> Maybe TestTree -> TestTree -> TestTree withTestMode testmode minittests = withResource prepare release . const where prepare = do setTestMode testmode setmainrepodir =<< newmainrepodir case minittests of Just inittests -> case tryIngredients [consoleTestReporter] mempty inittests of Nothing -> error "No tests found!?" Just act -> unlessM act $ error "init tests failed! cannot continue" Nothing -> return () release _ = noop setTestMode :: TestMode -> IO () setTestMode testmode = do currdir <- getCurrentDirectory p <- Utility.Env.getEnvDefault "PATH" "" pp <- Annex.Path.programPath mapM_ (\(var, val) -> Utility.Env.Set.setEnv var val True) -- Ensure that the same git-annex binary that is running -- git-annex test is at the front of the PATH. [ ("PATH", takeDirectory pp ++ [searchPathSeparator] ++ p) , ("TOPDIR", currdir) -- Avoid git complaining if it cannot determine the user's -- email address, or exploding if it doesn't know the user's -- name. , ("GIT_AUTHOR_EMAIL", "test@example.com") , ("GIT_AUTHOR_NAME", "git-annex test") , ("GIT_COMMITTER_EMAIL", "test@example.com") , ("GIT_COMMITTER_NAME", "git-annex test") -- force gpg into batch mode for the tests , ("GPG_BATCH", "1") -- Make git and git-annex access ssh remotes on the local -- filesystem, without using ssh at all. , ("GIT_SSH_COMMAND", "git-annex test --fakessh --") , ("GIT_ANNEX_USE_GIT_SSH", "1") , ("TESTMODE", show testmode) ] runFakeSsh :: [String] -> IO () runFakeSsh ("-n":ps) = runFakeSsh ps runFakeSsh (_host:cmd:[]) = withCreateProcess (shell cmd) $ \_ _ _ pid -> exitWith =<< waitForProcess pid runFakeSsh ps = error $ "fake ssh option parse error: " ++ show ps getTestMode :: IO TestMode getTestMode = Prelude.read <$> Utility.Env.getEnvDefault "TESTMODE" "" setupTestMode :: IO () setupTestMode = do testmode <- getTestMode when (adjustedUnlockedBranch testmode) $ do git "commit" ["--allow-empty", "-m", "empty"] "git commit failed" git_annex "adjust" ["--unlock"] "git annex adjust failed" changeToTopDir :: FilePath -> IO () changeToTopDir t = do topdir <- Utility.Env.getEnvDefault "TOPDIR" (error "TOPDIR not set") setCurrentDirectory $ topdir ++ "/" ++ t tmpdir :: String tmpdir = ".t" mainrepodir :: IO FilePath mainrepodir = Utility.Env.getEnvDefault "MAINREPODIR" (giveup "MAINREPODIR not set") setmainrepodir :: FilePath -> IO () setmainrepodir d = Utility.Env.Set.setEnv "MAINREPODIR" d True newmainrepodir :: IO FilePath newmainrepodir = go (0 :: Int) where go n = do let d = "main" ++ show n ifM (doesDirectoryExist d) ( go $ n + 1 , do createDirectory d return d ) tmprepodir :: IO FilePath tmprepodir = go (0 :: Int) where go n = do let d = "tmprepo" ++ show n ifM (doesDirectoryExist d) ( go $ n + 1 , return d ) annexedfile :: String annexedfile = "foo" annexedfiledup :: String annexedfiledup = "foodup" wormannexedfile :: String wormannexedfile = "apple" sha1annexedfile :: String sha1annexedfile = "sha1foo" sha1annexedfiledup :: String sha1annexedfiledup = "sha1foodup" ingitfile :: String ingitfile = "bar.c" content :: FilePath -> String content f | f == annexedfile = "annexed file content" | f == ingitfile = "normal file content" | f == sha1annexedfile ="sha1 annexed file content" | f == annexedfiledup = content annexedfile | f == sha1annexedfiledup = content sha1annexedfile | f == wormannexedfile = "worm annexed file content" | "import" `isPrefixOf` f = "imported content" | otherwise = "unknown file " ++ f -- Writes new content to a file, and makes sure that it has a different -- mtime than it did before writecontent :: FilePath -> String -> IO () writecontent f c = go (10000000 :: Integer) where go ticsleft = do oldmtime <- catchMaybeIO $ getModificationTime f writeFile f c newmtime <- getModificationTime f if Just newmtime == oldmtime then do threadDelay 100000 let ticsleft' = ticsleft - 100000 if ticsleft' > 0 then go ticsleft' else do hPutStrLn stderr "file mtimes do not seem to be changing (tried for 10 seconds)" hFlush stderr return () else return () changecontent :: FilePath -> IO () changecontent f = writecontent f $ changedcontent f changedcontent :: FilePath -> String changedcontent f = content f ++ " (modified)" backendSHA1 :: Types.Backend backendSHA1 = backend_ "SHA1" backendSHA256 :: Types.Backend backendSHA256 = backend_ "SHA256" backendSHA256E :: Types.Backend backendSHA256E = backend_ "SHA256E" backendWORM :: Types.Backend backendWORM = backend_ "WORM" backend_ :: String -> Types.Backend backend_ = Backend.lookupBuiltinBackendVariety . Types.Key.parseKeyVariety . encodeBS getKey :: Types.Backend -> FilePath -> IO Types.Key getKey b f = case Types.Backend.genKey b of Just a -> annexeval $ a ks Utility.Metered.nullMeterUpdate Nothing -> error "internal" where ks = Types.KeySource.KeySource { Types.KeySource.keyFilename = toRawFilePath f , Types.KeySource.contentLocation = toRawFilePath f , Types.KeySource.inodeCache = Nothing } {- Get the name of the original branch, eg the current branch, or - if in an adjusted branch, the parent branch. -} origBranch :: Types.Annex String origBranch = maybe "foo" (Git.Types.fromRef . Git.Ref.base . Annex.AdjustedBranch.fromAdjustedBranch) <$> Annex.inRepo Git.Branch.current {- Set up repos as remotes of each other. -} pair :: FilePath -> FilePath -> Assertion pair r1 r2 = forM_ [r1, r2] $ \r -> indir r $ do when (r /= r1) $ git "remote" ["add", "r1", "../" ++ r1] "remote add" when (r /= r2) $ git "remote" ["add", "r2", "../" ++ r2] "remote add" {- Runs a query in the current repository, but first makes the repository - read-only. The write bit is added back at the end, so when possible, - include multiple tests within a single call for efficiency. -} readonly_query :: Assertion -> Assertion readonly_query = bracket_ (make_readonly ".") (make_writeable ".") {- Not guaranteed to do anything: - chmod may fail, or not be available, or the filesystem not support - permissions. -} make_readonly :: FilePath -> IO () make_readonly d = void $ Utility.Process.Transcript.processTranscript "chmod" ["-R", "-w", d] Nothing {- The write bit is added back for the current user, but not for other - users, even though make_readonly removes any other user's write bits. -} make_writeable :: FilePath -> IO () make_writeable d = void $ Utility.Process.Transcript.processTranscript "chmod" ["-R", "u+w", d] Nothing {- Tests each TestTree in parallel, and exits with succcess/failure. - - Tasty supports parallel tests, but this does not use it, because - many tests need to be run in test repos, and chdir would not be - thread safe. Instead, this starts one child process for each TestTree. - - An added benefit of using child processes is that any files they may - leave open are closed before finalCleanup is run at the end. This - prevents some failures to clean up after the test suite. -} parallelTestRunner :: TestOptions -> (Int -> Bool -> Bool -> TestOptions -> [TestTree]) -> IO () parallelTestRunner opts mkts | fakeSsh opts = runFakeSsh (internalData opts) | otherwise = go =<< Utility.Env.getEnv subenv where numparts = 1 subenv = "GIT_ANNEX_TEST_SUBPROCESS" go Nothing = do ensuredir tmpdir crippledfilesystem <- fst <$> Annex.Init.probeCrippledFileSystem' (toRawFilePath tmpdir) Nothing Nothing False adjustedbranchok <- Annex.AdjustedBranch.isGitVersionSupported let ts = mkts numparts crippledfilesystem adjustedbranchok opts let warnings = fst (tastyParser ts) unless (null warnings) $ do hPutStrLn stderr "warnings from tasty:" mapM_ (hPutStrLn stderr) warnings environ <- Utility.Env.getEnvironment ps <- getArgs pp <- Annex.Path.programPath exitcodes <- forConcurrently [1..length ts] $ \n -> do let subdir = tmpdir show n ensuredir subdir let p = (proc pp ps) { env = Just ((subenv, show (n, crippledfilesystem, adjustedbranchok)):environ) , cwd = Just subdir } withCreateProcess p $ \_ _ _ pid -> waitForProcess pid unless (keepFailuresOption opts) finalCleanup if all (== ExitSuccess) exitcodes then exitSuccess else case (filter (/= ExitFailure 1) exitcodes) of [] -> do putStrLn " (Failures above could be due to a bug in git-annex, or an incompatibility" putStrLn " with utilities, such as git, installed on this system.)" exitFailure v -> do putStrLn $ " Test subprocesses exited with unexpected exit codes: " ++ show v exitFailure go (Just subenvval) = case readish subenvval of Nothing -> error ("Bad " ++ subenv) Just (n, crippledfilesystem, adjustedbranchok) -> isolateGitConfig $ do let ts = mkts numparts crippledfilesystem adjustedbranchok opts let t = topLevelTestGroup -- This group is needed to avoid what -- seems to be a tasty bug which causes a -- segfault. [ testGroup "Tasty" [ testProperty "tasty self-check" True ] , ts !! (n - 1) ] case tryIngredients ingredients (tastyOptionSet opts) t of Nothing -> error "No tests found!?" Just act -> ifM act ( exitSuccess , exitFailure ) topLevelTestGroup :: [TestTree] -> TestTree topLevelTestGroup = testGroup "Tests" tastyParser :: [TestTree] -> ([String], Parser Test.Tasty.Options.OptionSet) #if MIN_VERSION_tasty(1,3,0) tastyParser ts = go #else tastyParser ts = ([], go) #endif where go = suiteOptionParser ingredients (topLevelTestGroup ts) ingredients :: [Ingredient] ingredients = [ listingTests , rerunningTests [consoleTestReporter] ]