module Data.Store.Version
( StoreVersion(..)
, VersionConfig(..)
, hashedVersionConfig
, namedVersionConfig
, encodeWithVersionQ
, decodeWithVersionQ
) where
import Control.Monad
import Control.Monad.Trans.State
import qualified Crypto.Hash.SHA1 as SHA1
import qualified Data.ByteString as BS
import qualified Data.ByteString.Base64.URL as B64Url
import qualified Data.ByteString.Char8 as BS8
import Data.Generics hiding (DataType, Generic)
import qualified Data.Map as M
import qualified Data.Set as S
import Data.Store.Internal
import qualified Data.Text as T
import Data.Text.Encoding (encodeUtf8, decodeUtf8, decodeUtf8With)
import Data.Text.Encoding.Error (lenientDecode)
import qualified Data.Text.IO as T
import Data.Word (Word32)
import GHC.Generics (Generic)
import Language.Haskell.TH
import System.Directory
import System.Environment
import System.FilePath
import TH.RelativePaths
import TH.Utilities
newtype StoreVersion = StoreVersion { unStoreVersion :: BS.ByteString }
deriving (Eq, Show, Ord, Data, Typeable, Generic, Store)
data VersionConfig a = VersionConfig
{ vcExpectedHash :: Maybe String
, vcManualName :: Maybe String
, vcIgnore :: S.Set String
, vcRenames :: M.Map String String
} deriving (Eq, Show, Data, Typeable, Generic)
hashedVersionConfig :: String -> VersionConfig a
hashedVersionConfig hash = VersionConfig
{ vcExpectedHash = Just hash
, vcManualName = Nothing
, vcIgnore = S.empty
, vcRenames = M.empty
}
namedVersionConfig :: String -> String -> VersionConfig a
namedVersionConfig name hash = VersionConfig
{ vcExpectedHash = Just hash
, vcManualName = Just name
, vcIgnore = S.empty
, vcRenames = M.empty
}
encodeWithVersionQ :: Data a => VersionConfig a -> Q Exp
encodeWithVersionQ = impl Encode
decodeWithVersionQ :: Data a => VersionConfig a -> Q Exp
decodeWithVersionQ = impl Decode
data WhichFunc = Encode | Decode
impl :: forall a. Data a => WhichFunc -> VersionConfig a -> Q Exp
impl wf vc = do
let proxy = Proxy :: Proxy a
info = encodeUtf8 (T.pack (getStructureInfo (vcIgnore vc) (vcRenames vc) proxy))
hash = SHA1.hash info
hashb64 = BS8.unpack (B64Url.encode hash)
version = case vcManualName vc of
Nothing -> [e| StoreVersion hash |]
Just name -> [e| StoreVersion name |]
case vcExpectedHash vc of
Nothing -> return ()
Just expectedHash -> do
let shownType = showsQualTypeRep (vcRenames vc) 0 (typeRep proxy) ""
path <- storeVersionedPath expectedHash
if hashb64 == expectedHash
then writeVersionInfo path shownType info
else do
newPath <- storeVersionedPath hashb64
writeVersionInfo newPath shownType info
exists <- runIO $ doesFileExist path
extraMsg <- if not exists
then return ", but no file found with previously stored structural info."
else return (", use something like the following to compare with the old structural info:\n\n" ++
"diff -u " ++ show path ++ " " ++ show newPath)
error $
"For " ++ shownType ++ ",\n" ++
"Data.Store.Version expected hash " ++ show hashb64 ++
", but " ++ show expectedHash ++ " is specified.\n" ++
"The data used to construct the hash has been written to " ++ show newPath ++
extraMsg ++ "\n"
let atype = typeRepToType (typeRep proxy)
case wf of
Encode -> [e| \x -> ( getSize markEncodedVersion + getSize $(version) + getSize x
, poke markEncodedVersion >> poke $(version) >> poke (x :: $(atype))) |]
Decode -> [e| do
peekMagic "version tag" markEncodedVersion
gotVersion <- peek
if gotVersion /= $(version)
then fail (displayVersionError $(version) gotVersion)
else peek :: Peek $(atype) |]
writeVersionInfo :: FilePath -> String -> BS.ByteString -> Q ()
writeVersionInfo path shownType info = runIO $ do
createDirectoryIfMissing True (takeDirectory path)
T.writeFile path $ T.unlines $
[ T.pack ("-- Structural info for type " ++ shownType)
, "-- Generated by an invocation of functions in Data.Store.Version"
] ++ T.lines (decodeUtf8 info)
storeVersionedPath :: String -> Q FilePath
storeVersionedPath filename = do
mstack <- runIO (lookupEnv "STACK_EXE")
let dirName = case mstack of
Just _ -> ".stack-work"
Nothing -> "dist"
pathRelativeToCabalPackage (dirName </> "store-versioned" </> filename)
data S = S
{ sResults :: M.Map String String
, sCurResult :: String
, sFieldNames :: [String]
}
getStructureInfo :: forall a. Data a => S.Set String -> M.Map String String -> Proxy a -> String
getStructureInfo ignore renames = renderResults . sResults . flip execState (S M.empty "" []) . getStructureInfo' ignore renames
where
renderResults = unlines . map (\(k, v) -> k ++ v) . M.toAscList
getStructureInfo' :: forall a. Data a => S.Set String -> M.Map String String -> Proxy a -> State S ()
getStructureInfo' ignore renames _ = do
s0 <- get
when (M.notMember label (sResults s0)) $
if S.member shownType ignore
then setResult " ignored\n"
else case dataTypeRep (dataTypeOf (undefined :: a)) of
AlgRep cs -> do
setResult ""
mapM_ goConstr (zip (True : repeat False) cs)
result <- gets sCurResult
setResult (if null cs then result ++ "\n" else result)
IntRep -> setResult " has IntRep\n"
FloatRep -> setResult " has FloatRep\n"
CharRep -> setResult " has CharRep\n"
NoRep
| S.member shownType ignore -> setResult " has NoRep\n"
| otherwise -> error $
"\nNoRep in Data.Store.Version for " ++ show shownType ++
".\nIn the future it will be possible to statically " ++
"declare a global serialization version for this type. " ++
"\nUntil then you will need to use 'vcIgnore', and " ++
"understand that serialization changes for affected types " ++
"will not be detected.\n"
where
setResult x =
modify (\s -> S
{ sResults = M.insert label x (sResults s)
, sCurResult = ""
, sFieldNames = []
})
label = "data-type " ++ shownType
shownType = showsQualTypeRep renames 0 (typeRep (Proxy :: Proxy a)) ""
goConstr :: (Bool, Constr) -> State S ()
goConstr (isFirst, c) = do
modify (\s -> s
{ sFieldNames = constrFields c ++ map (\ix -> "slot " ++ show (ix :: Int)) [0..]
, sCurResult = sCurResult s ++ (if isFirst then "\n = " else " | ") ++ showConstr c ++ " {\n"
})
void (fromConstrM goField c :: State S a)
modify (\s -> s { sCurResult = sCurResult s ++ " }\n" })
goField :: forall b. Data b => State S b
goField = do
s <- get
case sFieldNames s of
[] -> fail "impossible case in getStructureInfo'"
(name:names) -> do
getStructureInfo' ignore renames (Proxy :: Proxy b)
s' <- get
put s
{ sResults = sResults s'
, sCurResult = sCurResult s ++ " " ++ name ++ " :: " ++ showsQualTypeRep renames 0 (typeRep (Proxy :: Proxy b)) "\n"
, sFieldNames = names
}
return (error "unexpected evaluation")
showsQualTypeRep :: M.Map String String -> Int -> TypeRep -> ShowS
showsQualTypeRep renames p tyrep =
let (tycon, tys) = splitTyConApp tyrep
in case tys of
[] -> showsQualTyCon renames tycon
[x] | tycon == tcList -> showChar '[' . showsQualTypeRep renames 0 x . showChar ']'
where
[a,r] | tycon == tcFun -> showParen (p > 8) $
showsQualTypeRep renames 9 a .
showString " -> " .
showsQualTypeRep renames 8 r
xs | isTupleTyCon tycon -> showTuple renames xs
| otherwise ->
showParen (p > 9) $
showsQualTyCon renames tycon .
showChar ' ' .
showArgs renames (showChar ' ') tys
showsQualTyCon :: M.Map String String -> TyCon -> ShowS
showsQualTyCon renames tc = showString (M.findWithDefault name name renames)
where
name = tyConModule tc ++ "." ++ tyConName tc
isTupleTyCon :: TyCon -> Bool
isTupleTyCon tc
| ('(':',':_) <- tyConName tc = True
| otherwise = False
showArgs :: M.Map String String -> ShowS -> [TypeRep] -> ShowS
showArgs _ _ [] = id
showArgs renames _ [a] = showsQualTypeRep renames 10 a
showArgs renames sep (a:as) = showsQualTypeRep renames 10 a . sep . showArgs renames sep as
showTuple :: M.Map String String -> [TypeRep] -> ShowS
showTuple renames args
= showChar '('
. showArgs renames (showChar ',') args
. showChar ')'
tcList :: TyCon
tcList = tyConOf (Proxy :: Proxy [()])
tcFun :: TyCon
tcFun = tyConOf (Proxy :: Proxy (Int -> Int))
tyConOf :: Typeable a => Proxy a -> TyCon
tyConOf = typeRepTyCon . typeRep
displayVersionError :: StoreVersion -> StoreVersion -> String
displayVersionError expectedVersion receivedVersion =
"Mismatch detected by Data.Store.Version - expected " ++
T.unpack (decodeUtf8With lenientDecode (unStoreVersion expectedVersion)) ++ " but got " ++
T.unpack (decodeUtf8With lenientDecode (unStoreVersion receivedVersion))
markEncodedVersion :: Word32
markEncodedVersion = 3908297288