{- git cat-file interface - - Copyright 2011-2021 Joey Hess - - Licensed under the GNU AGPL version 3 or higher. -} {-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE BangPatterns #-} module Git.CatFile ( CatFileHandle, CatFileMetaDataHandle, catFileStart, catFileMetaDataStart, catFileStart', catFileMetaDataStart', catFileStop, catFileMetaDataStop, catFile, catFileDetails, catTree, catCommit, catObject, catObjectDetails, catObjectMetaData, catObjectStreamLsTree, catObjectStream, catObjectMetaDataStream, ) where import System.IO import qualified Data.ByteString as S import qualified Data.ByteString.Lazy as L import qualified Data.ByteString.Char8 as S8 import qualified Data.Attoparsec.ByteString as A import qualified Data.Attoparsec.ByteString.Char8 as A8 import qualified Data.Map.Strict as M import Data.String import Data.Char import Numeric import System.Posix.Types import Text.Read import Control.Concurrent.Async import Control.Concurrent.Chan import Control.Monad.IO.Class (MonadIO) import Common import Git import Git.Sha import qualified Git.Ref import Git.Command import Git.Types import Git.HashObject import qualified Git.LsTree as LsTree import qualified Utility.CoProcess as CoProcess import qualified Git.BuildVersion as BuildVersion import Utility.Tuple data CatFileHandle = CatFileHandle { catFileProcess :: CoProcess.CoProcessHandle , catFileGitRepo :: Repo } data CatFileMetaDataHandle = CatFileMetaDataHandle { checkFileProcess :: CoProcess.CoProcessHandle , checkFileGitRepo :: Repo } catFileStart :: Repo -> IO CatFileHandle catFileStart = catFileStart' True catFileStart' :: Bool -> Repo -> IO CatFileHandle catFileStart' restartable repo = CatFileHandle <$> startcat restartable repo "--batch" <*> pure repo catFileMetaDataStart :: Repo -> IO CatFileMetaDataHandle catFileMetaDataStart = catFileMetaDataStart' True catFileMetaDataStart' :: Bool -> Repo -> IO CatFileMetaDataHandle catFileMetaDataStart' restartable repo = CatFileMetaDataHandle <$> startcat restartable repo ("--batch-check=" ++ batchFormat) <*> pure repo batchFormat :: String batchFormat = "%(objectname) %(objecttype) %(objectsize)" startcat :: Bool -> Repo -> String -> IO CoProcess.CoProcessHandle startcat restartable repo p = gitCoProcessStart restartable [ Param "cat-file" , Param p ] repo catFileStop :: CatFileHandle -> IO () catFileStop = CoProcess.stop . catFileProcess catFileMetaDataStop :: CatFileMetaDataHandle -> IO () catFileMetaDataStop = CoProcess.stop . checkFileProcess {- Reads a file from a specified branch. -} catFile :: CatFileHandle -> Branch -> RawFilePath -> IO L.ByteString catFile h branch file = catObject h $ Git.Ref.branchFileRef branch file catFileDetails :: CatFileHandle -> Branch -> RawFilePath -> IO (Maybe (L.ByteString, Sha, ObjectType)) catFileDetails h branch file = catObjectDetails h $ Git.Ref.branchFileRef branch file {- Uses a running git cat-file read the content of an object. - Objects that do not exist will have "" returned. -} catObject :: CatFileHandle -> Ref -> IO L.ByteString catObject h object = maybe L.empty fst3 <$> catObjectDetails h object catObjectDetails :: CatFileHandle -> Ref -> IO (Maybe (L.ByteString, Sha, ObjectType)) catObjectDetails h object = query (catFileProcess h) object newlinefallback $ \from -> do header <- S8.hGetLine from case parseResp object header of Just r@(ParsedResp sha objtype _size) -> do content <- readObjectContent from r return $ Just (content, sha, objtype) Just DNE -> return Nothing Nothing -> giveup $ "unknown response from git cat-file " ++ show (header, object) where -- Slow fallback path for filenames containing newlines. newlinefallback = queryObjectType object (catFileGitRepo h) >>= \case Nothing -> return Nothing Just objtype -> queryContent object (catFileGitRepo h) >>= \case Nothing -> return Nothing Just content -> do -- only the --batch interface allows getting -- the sha, so have to re-hash the object sha <- hashObject' objtype (flip L.hPut content) (catFileGitRepo h) return (Just (content, sha, objtype)) readObjectContent :: Handle -> ParsedResp -> IO L.ByteString readObjectContent h (ParsedResp _ _ size) = do content <- S.hGet h (fromIntegral size) eatchar '\n' return (L.fromChunks [content]) where eatchar expected = do c <- hGetChar h when (c /= expected) $ giveup $ "missing " ++ (show expected) ++ " from git cat-file" readObjectContent _ DNE = error "internal" {- Gets the size and type of an object, without reading its content. -} catObjectMetaData :: CatFileMetaDataHandle -> Ref -> IO (Maybe (Sha, FileSize, ObjectType)) catObjectMetaData h object = query (checkFileProcess h) object newlinefallback $ \from -> do resp <- S8.hGetLine from case parseResp object resp of Just (ParsedResp sha objtype size) -> return $ Just (sha, size, objtype) Just DNE -> return Nothing Nothing -> error $ "unknown response from git cat-file " ++ show (resp, object) where -- Slow fallback path for filenames containing newlines. newlinefallback = do sha <- Git.Ref.sha object (checkFileGitRepo h) sz <- querySize object (checkFileGitRepo h) objtype <- queryObjectType object (checkFileGitRepo h) return $ (,,) <$> sha <*> sz <*> objtype data ParsedResp = ParsedResp Sha ObjectType FileSize | DNE deriving (Show) query :: CoProcess.CoProcessHandle -> Ref -> IO a -> (Handle -> IO a) -> IO a query hdl object newlinefallback receive -- git cat-file --batch uses a line based protocol, so when the -- filename itself contains a newline, have to fall back to another -- method of getting the information. | '\n' `S8.elem` s = newlinefallback -- git strips carriage return from the end of a line, out of some -- misplaced desire to support windows, so also use the newline -- fallback for those. | "\r" `S8.isSuffixOf` s = newlinefallback | otherwise = CoProcess.query hdl send receive where send to = S8.hPutStrLn to s s = fromRef' object parseResp :: Ref -> S.ByteString -> Maybe ParsedResp parseResp object s | " missing" `S.isSuffixOf` s -- less expensive than full check && s == fromRef' object <> " missing" = Just DNE | otherwise = eitherToMaybe $ A.parseOnly respParser s respParser :: A.Parser ParsedResp respParser = ParsedResp <$> (maybe (fail "bad sha") return . extractSha =<< nextword) <* A8.char ' ' <*> (maybe (fail "bad object type") return . readObjectType =<< nextword) <* A8.char ' ' <*> A8.decimal where nextword = A8.takeTill (== ' ') querySingle :: CommandParam -> Ref -> Repo -> (Handle -> IO a) -> IO (Maybe a) querySingle o r repo reader = assertLocal repo $ -- In non-batch mode, git cat-file warns on stderr when -- asked for an object that does not exist. -- Squelch that warning to behave the same as batch mode. withNullHandle $ \nullh -> do let p = gitCreateProcess [ Param "cat-file" , o , Param (fromRef r) ] repo let p' = p { std_err = UseHandle nullh , std_in = Inherit , std_out = CreatePipe } withCreateProcess p' go where go _ (Just outh) _ pid = do output <- reader outh hClose outh ifM (checkSuccessProcess pid) ( return (Just output) , return Nothing ) go _ _ _ _ = error "internal" querySize :: Ref -> Repo -> IO (Maybe FileSize) querySize r repo = maybe Nothing (readMaybe . takeWhile (/= '\n')) <$> querySingle (Param "-s") r repo hGetContentsStrict queryObjectType :: Ref -> Repo -> IO (Maybe ObjectType) queryObjectType r repo = maybe Nothing (readObjectType . encodeBS . takeWhile (/= '\n')) <$> querySingle (Param "-t") r repo hGetContentsStrict queryContent :: Ref -> Repo -> IO (Maybe L.ByteString) queryContent r repo = fmap (\b -> L.fromChunks [b]) <$> querySingle (Param "-p") r repo S.hGetContents {- Gets a list of files and directories in a tree. (Not recursive.) -} catTree :: CatFileHandle -> Ref -> IO [(FilePath, FileMode)] catTree h treeref = go <$> catObjectDetails h treeref where go (Just (b, _, TreeObject)) = parsetree [] b go _ = [] parsetree c b = case L.break (== 0) b of (modefile, rest) | L.null modefile -> c | otherwise -> parsetree (parsemodefile modefile:c) (dropsha rest) -- these 20 bytes after the NUL hold the file's sha dropsha = L.drop 21 parsemodefile b = let (modestr, file) = separate (== ' ') (decodeBL b) in (file, readmode modestr) readmode = fromMaybe 0 . fmap fst . headMaybe . readOct catCommit :: CatFileHandle -> Ref -> IO (Maybe Commit) catCommit h commitref = go <$> catObjectDetails h commitref where go (Just (b, _, CommitObject)) = parseCommit (L.toStrict b) go _ = Nothing parseCommit :: S.ByteString -> Maybe Commit parseCommit b = Commit <$> (extractSha =<< field "tree") <*> Just (maybe [] (mapMaybe extractSha) (fields "parent")) <*> (parsemetadata <$> field "author") <*> (parsemetadata <$> field "committer") <*> Just (decodeBS $ S.intercalate (S.singleton nl) message) where field n = headMaybe =<< fields n fields n = M.lookup (fromString n) fieldmap fieldmap = M.fromListWith (++) ((map breakfield) header) breakfield l = let (k, sp_v) = S.break (== sp) l in (k, [S.drop 1 sp_v]) (header, message) = separate S.null ls ls = S.split nl b -- author and committer lines have the form: "name date" -- The email is always present, even if empty "<>" parsemetadata l = CommitMetaData { commitName = whenset $ S.init name_sp , commitEmail = whenset email , commitDate = whenset $ S.drop 2 gt_sp_date } where (name_sp, rest) = S.break (== lt) l (email, gt_sp_date) = S.break (== gt) (S.drop 1 rest) whenset v | S.null v = Nothing | otherwise = Just (decodeBS v) nl = fromIntegral (ord '\n') sp = fromIntegral (ord ' ') lt = fromIntegral (ord '<') gt = fromIntegral (ord '>') {- Uses cat-file to stream the contents of the files as efficiently - as possible. This is much faster than querying it repeatedly per file. -} catObjectStreamLsTree :: (MonadMask m, MonadIO m) => [LsTree.TreeItem] -> (LsTree.TreeItem -> Maybe v) -> Repo -> (IO (Maybe (v, Maybe L.ByteString)) -> m a) -> m a catObjectStreamLsTree l want repo reader = withCatFileStream False repo $ \c hin hout -> bracketIO (async $ feeder c hin) cancel (const (reader (catObjectReader readObjectContent c hout))) where feeder c h = do forM_ l $ \ti -> case want ti of Nothing -> return () Just v -> do let sha = LsTree.sha ti liftIO $ writeChan c (sha, v) S8.hPutStrLn h (fromRef' sha) hClose h catObjectStream :: (MonadMask m, MonadIO m) => Repo -> ( ((v, Ref) -> IO ()) -- ^ call to feed values in -> IO () -- ^ call once all values are fed in -> IO (Maybe (v, Maybe L.ByteString)) -- ^ call to read results -> m a ) -> m a catObjectStream repo a = withCatFileStream False repo go where go c hin hout = a (feeder c hin) (hClose hin) (catObjectReader readObjectContent c hout) feeder c h (v, ref) = do writeChan c (ref, v) S8.hPutStrLn h (fromRef' ref) catObjectMetaDataStream :: (MonadMask m, MonadIO m) => Repo -> ( ((v, Ref) -> IO ()) -- ^ call to feed values in -> IO () -- ^ call once all values are fed in -> IO (Maybe (v, Maybe (Sha, FileSize, ObjectType))) -- ^ call to read results -> m a ) -> m a catObjectMetaDataStream repo a = withCatFileStream True repo go where go c hin hout = a (feeder c hin) (hClose hin) (catObjectReader (\_h r -> pure (conv r)) c hout) feeder c h (v, ref) = do liftIO $ writeChan c (ref, v) S8.hPutStrLn h (fromRef' ref) conv (ParsedResp sha ty sz) = (sha, sz, ty) conv DNE = error "internal" catObjectReader :: (Handle -> ParsedResp -> IO t) -> Chan (Ref, a) -> Handle -> IO (Maybe (a, Maybe t)) catObjectReader getv c h = ifM (hIsEOF h) ( return Nothing , do (ref, f) <- liftIO $ readChan c resp <- S8.hGetLine h case parseResp ref resp of Just r@(ParsedResp {}) -> do v <- getv h r return (Just (f, Just v)) Just DNE -> return (Just (f, Nothing)) Nothing -> error $ "unknown response from git cat-file " ++ show resp ) withCatFileStream :: (MonadMask m, MonadIO m) => Bool -> Repo -> (Chan v -> Handle -> Handle -> m a) -> m a withCatFileStream check repo reader = assertLocal repo $ bracketIO start stop $ \(c, hin, hout, _) -> reader c hin hout where params = catMaybes [ Just $ Param "cat-file" , Just $ Param ("--batch" ++ (if check then "-check" else "") ++ "=" ++ batchFormat) -- This option makes it faster, but is not present in -- older versions of git. , if BuildVersion.older "2.4.3" then Nothing else Just $ Param "--buffer" ] start = do let p = gitCreateProcess params repo (Just hin, Just hout, _, pid) <- createProcess p { std_in = CreatePipe , std_out = CreatePipe } c <- newChan return (c, hin, hout, pid) stop (_, hin, hout, pid) = do hClose hin hClose hout void $ checkSuccessProcess pid