{-# LANGUAGE CPP #-} {-# LANGUAGE FlexibleContexts #-} {-# LANGUAGE ScopedTypeVariables #-} module Armor ( Version(..) , Armored(..) , ArmorConfig(..) , defArmorConfig , testArmor , testArmorMany ) where ------------------------------------------------------------------------------ import Control.Lens import Control.Monad import Data.ByteString (ByteString) import qualified Data.ByteString as B import Data.Map (Map) import qualified Data.Map as M import Data.Typeable #if !MIN_VERSION_base(4,8,0) import Data.Word #endif import System.Directory import System.FilePath import Test.HUnit.Base import Text.Printf ------------------------------------------------------------------------------ ------------------------------------------------------------------------------ -- | Version numbers are simple monotonically increasing positive integers. newtype Version a = Version { unVersion :: Word } deriving (Eq,Ord,Show,Read) ------------------------------------------------------------------------------ -- | Core type class for armoring types. Includes a version and all the -- type's serializations that you want to armor. class Armored a where -- | Current version number for the data type. version :: Version a -- | Map of serializations keyed by a unique ID used to refer to each -- serialization. A serialization is a tuple of @(a -> ByteString)@ and -- @(ByteString -> Maybe a)@. Represented here as a prism. serializations :: Map String (APrism' ByteString a) ------------------------------------------------------------------------------ -- | The mode of operation for armor test cases. data ArmorMode = SaveOnly -- ^ Write test files for serializations that don't have them, but don't -- do any tests to verify that existing files are deserialized properly. | TestOnly -- ^ Run tests to verify that existing files are deserialized properly, -- but don't write any missing files. | SaveAndTest -- ^ Do both the save and test phases. deriving (Eq,Ord,Show,Read,Enum,Bounded) ------------------------------------------------------------------------------ -- | Config data for armor tests. data ArmorConfig = ArmorConfig { acArmorMode :: ArmorMode , acStoreDir :: FilePath -- ^ Directory where all the test serializations are stored. , acNumVersions :: Maybe Word -- ^ How many versions back to test for backwards compatibility. A value -- of @Just 0@ means that it only tests that the current version satisfies -- @parse . render == id@. @Just 1@ means that it will verify that the -- previous version can still be parse. @Just 2@ the previous two -- versions, etc. Nothing means that all versions will be tested. } ------------------------------------------------------------------------------ -- | Default value for ArmorConfig. defArmorConfig :: ArmorConfig defArmorConfig = ArmorConfig SaveAndTest "test-data" Nothing ------------------------------------------------------------------------------ -- | Tests the serialization backwards compatibility of a data type by storing -- serialized representations in .test files to be checked into your project's -- version control. -- -- First, this function checks the directory 'acStoreDir' for the existence of -- a file @foo-000.test@. If it doesn't exist, it creates it for each -- serialization with the serialized representation of the val parameter. -- -- Next, it checks that the serialized formats in the most recent -- 'acNumVersions' of the stored @.test@ files are parsable by the current -- version of the serialization. testArmor :: (Eq a, Show a, Typeable a, Armored a) => ArmorConfig -> String -> a -> Test testArmor ac valId val = TestList [ testIt s | s <- M.toList serializations ] where testIt s = test (testSerialization ac valId val s) ------------------------------------------------------------------------------ -- Same as 'testArmor', but more convenient for testing several values of the -- same type. testArmorMany :: (Eq a, Show a, Typeable a, Armored a) => ArmorConfig -> Map String a -> Test testArmorMany ac valMap = TestList $ map doOne $ M.toList valMap where doOne (k,v) = TestLabel k $ testArmor ac k v ------------------------------------------------------------------------------ testSerialization :: forall a. (Eq a, Show a, Typeable a, Armored a) => ArmorConfig -> String -> a -> (String, APrism' ByteString a) -> Assertion testSerialization ac valId val s@(_,p) = do let d = getVersionDir ac val s f = getVersionFilename valId curVer fp = d f when (acArmorMode ac /= TestOnly) $ do createDirectoryIfMissing True d fileExists <- doesFileExist fp when (not fileExists) $ B.writeFile fp (review (clonePrism p) val) when (acArmorMode ac /= SaveOnly) $ do mapM_ (assertVersionParses d . Version) vs where curVer :: Version a curVer = version vs = reverse [maybe 0 (unVersion curVer -) (acNumVersions ac) .. unVersion curVer] assertVersionParses d ver = do let f = getVersionFilename valId ver fp = d f exists <- doesFileExist fp if exists then do bs <- B.readFile fp case preview (clonePrism p) bs of Nothing -> assertFailure $ printf "Not backwards compatible with version %d: %s" (unVersion ver) fp Just v -> assertEqual ("File parsed but values didn't match: " ++ fp) val v else putStrLn $ "\nSkipping missing file " ++ fp ------------------------------------------------------------------------------ getVersionFilename :: String -> Version a -> String getVersionFilename valId ver = printf "%s-%03d.test" valId (unVersion ver) ------------------------------------------------------------------------------ getVersionDir :: Typeable a => ArmorConfig -> a -> (FilePath, t) -> FilePath getVersionDir ac val (nm,_) = acStoreDir ac show (typeOf val) nm