{- A "remote" that is just a filesystem directory. - - Copyright 2011-2021 Joey Hess - - Licensed under the GNU AGPL version 3 or higher. -} {-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE RankNTypes #-} {-# LANGUAGE CPP #-} module Remote.Directory ( remote, finalizeStoreGeneric, removeDirGeneric, ) where import qualified Data.ByteString.Lazy as L import qualified Data.Map as M import qualified System.FilePath.ByteString as P import Data.Default import Annex.Common import Types.Remote import Types.Export import Types.Creds import qualified Git import Config.Cost import Config import Annex.SpecialRemote.Config import Remote.Helper.Special import Remote.Helper.ExportImport import Types.Import import qualified Remote.Directory.LegacyChunked as Legacy import Annex.CopyFile import Annex.Content import Annex.Perms import Annex.UUID import Backend import Types.KeySource import Types.ProposedAccepted import Utility.Metered import Utility.Tmp import Utility.InodeCache import Utility.FileMode import Utility.Directory.Create import qualified Utility.RawFilePath as R remote :: RemoteType remote = specialRemoteType $ RemoteType { typename = "directory" , enumerate = const (findSpecialRemotes "directory") , generate = gen , configParser = mkRemoteConfigParser [ optionalStringParser directoryField (FieldDesc "(required) where the special remote stores data") ] , setup = directorySetup , exportSupported = exportIsSupported , importSupported = importIsSupported , thirdPartyPopulated = False } directoryField :: RemoteConfigField directoryField = Accepted "directory" gen :: Git.Repo -> UUID -> RemoteConfig -> RemoteGitConfig -> RemoteStateHandle -> Annex (Maybe Remote) gen r u rc gc rs = do c <- parsedRemoteConfig remote rc cst <- remoteCost gc cheapRemoteCost let chunkconfig = getChunkConfig c cow <- liftIO newCopyCoWTried return $ Just $ specialRemote c (storeKeyM dir chunkconfig cow) (retrieveKeyFileM dir chunkconfig cow) (removeKeyM dir) (checkPresentM dir chunkconfig) Remote { uuid = u , cost = cst , name = Git.repoDescribe r , storeKey = storeKeyDummy , retrieveKeyFile = retrieveKeyFileDummy , retrieveKeyFileCheap = retrieveKeyFileCheapM dir chunkconfig , retrievalSecurityPolicy = RetrievalAllKeysSecure , removeKey = removeKeyDummy , lockContent = Nothing , checkPresent = checkPresentDummy , checkPresentCheap = True , exportActions = ExportActions { storeExport = storeExportM dir cow , retrieveExport = retrieveExportM dir cow , removeExport = removeExportM dir , versionedExport = False , checkPresentExport = checkPresentExportM dir -- Not needed because removeExportLocation -- auto-removes empty directories. , removeExportDirectory = Nothing , renameExport = renameExportM dir } , importActions = ImportActions { listImportableContents = listImportableContentsM dir , importKey = Just (importKeyM dir) , retrieveExportWithContentIdentifier = retrieveExportWithContentIdentifierM dir cow , storeExportWithContentIdentifier = storeExportWithContentIdentifierM dir cow , removeExportWithContentIdentifier = removeExportWithContentIdentifierM dir -- Not needed because removeExportWithContentIdentifier -- auto-removes empty directories. , removeExportDirectoryWhenEmpty = Nothing , checkPresentExportWithContentIdentifier = checkPresentExportWithContentIdentifierM dir } , whereisKey = Nothing , remoteFsck = Nothing , repairRepo = Nothing , config = c , getRepo = return r , gitconfig = gc , localpath = Just dir' , readonly = False , appendonly = False , untrustworthy = False , availability = LocallyAvailable , remotetype = remote , mkUnavailable = gen r u rc (gc { remoteAnnexDirectory = Just "/dev/null" }) rs , getInfo = return [("directory", dir')] , claimUrl = Nothing , checkUrl = Nothing , remoteStateHandle = rs } where dir = toRawFilePath dir' dir' = fromMaybe (giveup "missing directory") (remoteAnnexDirectory gc) directorySetup :: SetupStage -> Maybe UUID -> Maybe CredPair -> RemoteConfig -> RemoteGitConfig -> Annex (RemoteConfig, UUID) directorySetup _ mu _ c gc = do u <- maybe (liftIO genUUID) return mu -- verify configuration is sane let dir = maybe (giveup "Specify directory=") fromProposedAccepted $ M.lookup directoryField c absdir <- liftIO $ fromRawFilePath <$> absPath (toRawFilePath dir) liftIO $ unlessM (doesDirectoryExist absdir) $ giveup $ "Directory does not exist: " ++ absdir (c', _encsetup) <- encryptionSetup c gc -- The directory is stored in git config, not in this remote's -- persistant state, so it can vary between hosts. gitConfigSpecialRemote u c' [("directory", absdir)] return (M.delete directoryField c', u) {- Locations to try to access a given Key in the directory. - We try more than one since we used to write to different hash - directories. -} locations :: RawFilePath -> Key -> [RawFilePath] locations d k = map (d P.) (keyPaths k) {- Returns the location off a Key in the directory. If the key is - present, returns the location that is actually used, otherwise - returns the first, default location. -} getLocation :: RawFilePath -> Key -> IO RawFilePath getLocation d k = do let locs = locations d k fromMaybe (Prelude.head locs) <$> firstM (doesFileExist . fromRawFilePath) locs {- Directory where the file(s) for a key are stored. -} storeDir :: RawFilePath -> Key -> RawFilePath storeDir d k = P.addTrailingPathSeparator $ d P. hashDirLower def k P. keyFile k {- Check if there is enough free disk space in the remote's directory to - store the key. Note that the unencrypted key size is checked. -} storeKeyM :: RawFilePath -> ChunkConfig -> CopyCoWTried -> Storer storeKeyM d chunkconfig cow k c m = ifM (checkDiskSpaceDirectory d k) ( do void $ liftIO $ tryIO $ createDirectoryUnder d tmpdir store , giveup "Not enough free disk space." ) where store = case chunkconfig of LegacyChunks chunksize -> let go _k b p = liftIO $ Legacy.store (fromRawFilePath d) chunksize (finalizeStoreGeneric d) k b p (fromRawFilePath tmpdir) (fromRawFilePath destdir) in byteStorer go k c m NoChunks -> let go _k src p = do fileCopierUnVerified cow src tmpf k p liftIO $ finalizeStoreGeneric d tmpdir destdir in fileStorer go k c m _ -> let go _k b p = liftIO $ do meteredWriteFile p tmpf b finalizeStoreGeneric d tmpdir destdir in byteStorer go k c m tmpdir = P.addTrailingPathSeparator $ d P. "tmp" P. kf tmpf = fromRawFilePath tmpdir fromRawFilePath kf kf = keyFile k destdir = storeDir d k fileCopierUnVerified :: CopyCoWTried -> FilePath -> FilePath -> Key -> MeterUpdate -> Annex () fileCopierUnVerified cow src dest k p = do (ok, _verification) <- fileCopier cow src dest k p (return True) NoVerify unless ok $ giveup "failed to copy file" checkDiskSpaceDirectory :: RawFilePath -> Key -> Annex Bool checkDiskSpaceDirectory d k = do annexdir <- fromRepo gitAnnexObjectDir samefilesystem <- liftIO $ catchDefaultIO False $ (\a b -> deviceID a == deviceID b) <$> R.getFileStatus d <*> R.getFileStatus annexdir checkDiskSpace (Just d) k 0 samefilesystem {- Passed a temp directory that contains the files that should be placed - in the dest directory, moves it into place. Anything already existing - in the dest directory will be deleted. File permissions will be locked - down. -} finalizeStoreGeneric :: RawFilePath -> RawFilePath -> RawFilePath -> IO () finalizeStoreGeneric d tmp dest = do removeDirGeneric (fromRawFilePath d) dest' createDirectoryUnder d (parentDir dest) renameDirectory (fromRawFilePath tmp) dest' -- may fail on some filesystems void $ tryIO $ do mapM_ (preventWrite . toRawFilePath) =<< dirContents dest' preventWrite dest where dest' = fromRawFilePath dest retrieveKeyFileM :: RawFilePath -> ChunkConfig -> CopyCoWTried -> Retriever retrieveKeyFileM d (LegacyChunks _) _ = Legacy.retrieve locations d retrieveKeyFileM d NoChunks cow = fileRetriever $ \dest k p -> do src <- liftIO $ fromRawFilePath <$> getLocation d k fileCopierUnVerified cow src dest k p retrieveKeyFileM d _ _ = byteRetriever $ \k sink -> sink =<< liftIO (L.readFile . fromRawFilePath =<< getLocation d k) retrieveKeyFileCheapM :: RawFilePath -> ChunkConfig -> Maybe (Key -> AssociatedFile -> FilePath -> Annex ()) -- no cheap retrieval possible for chunks retrieveKeyFileCheapM _ (UnpaddedChunks _) = Nothing retrieveKeyFileCheapM _ (LegacyChunks _) = Nothing #ifndef mingw32_HOST_OS retrieveKeyFileCheapM d NoChunks = Just $ \k _af f -> liftIO $ do file <- fromRawFilePath <$> (absPath =<< getLocation d k) ifM (doesFileExist file) ( createSymbolicLink file f , giveup "content file not present in remote" ) #else retrieveKeyFileCheapM _ _ = Nothing #endif removeKeyM :: RawFilePath -> Remover removeKeyM d k = liftIO $ removeDirGeneric (fromRawFilePath d) (fromRawFilePath (storeDir d k)) {- Removes the directory, which must be located under the topdir. - - Succeeds even on directories and contents that do not have write - permission, if it's possible to turn the write bit on. - - If the directory does not exist, succeeds as long as the topdir does - exist. If the topdir does not exist, fails, because in this case the - remote is not currently accessible and probably still has the content - we were supposed to remove from it. -} removeDirGeneric :: FilePath -> FilePath -> IO () removeDirGeneric topdir dir = do void $ tryIO $ allowWrite (toRawFilePath dir) #ifdef mingw32_HOST_OS {- Windows needs the files inside the directory to be writable - before it can delete them. -} void $ tryIO $ mapM_ (allowWrite . toRawFilePath) =<< dirContents dir #endif tryNonAsync (removeDirectoryRecursive dir) >>= \case Right () -> return () Left e -> unlessM (doesDirectoryExist topdir <&&> (not <$> doesDirectoryExist dir)) $ throwM e checkPresentM :: RawFilePath -> ChunkConfig -> CheckPresent checkPresentM d (LegacyChunks _) k = Legacy.checkKey d locations k checkPresentM d _ k = checkPresentGeneric d (locations d k) checkPresentGeneric :: RawFilePath -> [RawFilePath] -> Annex Bool checkPresentGeneric d ps = checkPresentGeneric' d $ liftIO $ anyM (doesFileExist . fromRawFilePath) ps checkPresentGeneric' :: RawFilePath -> Annex Bool -> Annex Bool checkPresentGeneric' d check = ifM check ( return True , ifM (liftIO $ doesDirectoryExist (fromRawFilePath d)) ( return False , giveup $ "directory " ++ fromRawFilePath d ++ " is not accessible" ) ) storeExportM :: RawFilePath -> CopyCoWTried -> FilePath -> Key -> ExportLocation -> MeterUpdate -> Annex () storeExportM d cow src k loc p = do liftIO $ createDirectoryUnder d (P.takeDirectory dest) -- Write via temp file so that checkPresentGeneric will not -- see it until it's fully stored. viaTmp go (fromRawFilePath dest) () where dest = exportPath d loc go tmp () = fileCopierUnVerified cow src tmp k p retrieveExportM :: RawFilePath -> CopyCoWTried -> Key -> ExportLocation -> FilePath -> MeterUpdate -> Annex () retrieveExportM d cow k loc dest p = fileCopierUnVerified cow src dest k p where src = fromRawFilePath $ exportPath d loc removeExportM :: RawFilePath -> Key -> ExportLocation -> Annex () removeExportM d _k loc = liftIO $ do removeWhenExistsWith R.removeLink src removeExportLocation d loc where src = exportPath d loc checkPresentExportM :: RawFilePath -> Key -> ExportLocation -> Annex Bool checkPresentExportM d _k loc = checkPresentGeneric d [exportPath d loc] renameExportM :: RawFilePath -> Key -> ExportLocation -> ExportLocation -> Annex (Maybe ()) renameExportM d _k oldloc newloc = liftIO $ do createDirectoryUnder d (P.takeDirectory dest) renameFile (fromRawFilePath src) (fromRawFilePath dest) removeExportLocation d oldloc return (Just ()) where src = exportPath d oldloc dest = exportPath d newloc exportPath :: RawFilePath -> ExportLocation -> RawFilePath exportPath d loc = d P. fromExportLocation loc {- Removes the ExportLocation's parent directory and its parents, so long as - they're empty, up to but not including the topdir. -} removeExportLocation :: RawFilePath -> ExportLocation -> IO () removeExportLocation topdir loc = go (Just $ P.takeDirectory $ fromExportLocation loc) (Right ()) where go _ (Left _e) = return () go Nothing _ = return () go (Just loc') _ = let p = fromRawFilePath $ exportPath topdir $ mkExportLocation loc' in go (upFrom loc') =<< tryIO (removeDirectory p) listImportableContentsM :: RawFilePath -> Annex (Maybe (ImportableContents (ContentIdentifier, ByteSize))) listImportableContentsM dir = liftIO $ do l <- dirContentsRecursive (fromRawFilePath dir) l' <- mapM (go . toRawFilePath) l return $ Just $ ImportableContents (catMaybes l') [] where go f = do st <- R.getFileStatus f mkContentIdentifier f st >>= \case Nothing -> return Nothing Just cid -> do relf <- relPathDirToFile dir f sz <- getFileSize' f st return $ Just (mkImportLocation relf, (cid, sz)) -- Make a ContentIdentifier that contains the size and mtime of the file. -- If the file is not a regular file, this will return Nothing. -- -- The inode is zeroed because often this is used for import from a -- FAT filesystem, whose inodes change each time it's mounted, and -- including inodes would cause repeated re-hashing of files, and -- bloat the git-annex branch with changes to content identifier logs. -- -- This does mean that swaps of two files with the same size and -- mtime won't be noticed, nor will modifications to files that -- preserve the size and mtime. Both very unlikely so acceptable. mkContentIdentifier :: RawFilePath -> FileStatus -> IO (Maybe ContentIdentifier) mkContentIdentifier f st = fmap (ContentIdentifier . encodeBS . showInodeCache) <$> toInodeCache' noTSDelta f st 0 guardSameContentIdentifiers :: a -> ContentIdentifier -> Maybe ContentIdentifier -> a guardSameContentIdentifiers cont old new | new == Just old = cont | otherwise = giveup "file content has changed" importKeyM :: RawFilePath -> ExportLocation -> ContentIdentifier -> ByteSize -> MeterUpdate -> Annex (Maybe Key) importKeyM dir loc cid sz p = do backend <- chooseBackend f unsizedk <- fst <$> genKey ks p backend let k = alterKey unsizedk $ \kd -> kd { keySize = keySize kd <|> Just sz } currcid <- liftIO $ mkContentIdentifier absf =<< R.getFileStatus absf guardSameContentIdentifiers (return (Just k)) cid currcid where f = fromExportLocation loc absf = dir P. f ks = KeySource { keyFilename = f , contentLocation = absf , inodeCache = Nothing } retrieveExportWithContentIdentifierM :: RawFilePath -> CopyCoWTried -> ExportLocation -> ContentIdentifier -> FilePath -> Annex Key -> MeterUpdate -> Annex Key retrieveExportWithContentIdentifierM dir cow loc cid dest mkkey p = precheck docopy where f = exportPath dir loc f' = fromRawFilePath f docopy = ifM (liftIO $ tryCopyCoW cow f' dest p) ( do k <- mkkey postcheckcow (return k) , docopynoncow ) docopynoncow = do #ifndef mingw32_HOST_OS let open = do -- Need a duplicate fd for the post check, since -- hGetContentsMetered closes its handle. fd <- openFd f' ReadOnly Nothing defaultFileFlags dupfd <- dup fd h <- fdToHandle fd return (h, dupfd) let close (h, dupfd) = do hClose h closeFd dupfd bracketIO open close $ \(h, dupfd) -> do #else let open = openBinaryFile f' ReadMode let close = hClose bracketIO open close $ \h -> do #endif liftIO $ hGetContentsMetered h p >>= L.writeFile dest k <- mkkey #ifndef mingw32_HOST_OS postchecknoncow dupfd (return k) #else postchecknoncow (return k) #endif -- Check before copy, to avoid expensive copy of wrong file -- content. precheck cont = guardSameContentIdentifiers cont cid =<< liftIO . mkContentIdentifier f =<< liftIO (R.getFileStatus f) -- Check after copy, in case the file was changed while it was -- being copied. -- -- When possible (not on Windows), check the same handle -- that the file was copied from. Avoids some race cases where -- the file is modified while it's copied but then gets restored -- to the original content afterwards. -- -- This does not guard against every possible race, but neither -- can InodeCaches detect every possible modification to a file. -- It's probably as good or better than git's handling of similar -- situations with files being modified while it's updating the -- working tree for a merge. #ifndef mingw32_HOST_OS postchecknoncow fd cont = do #else postchecknoncow cont = do #endif currcid <- liftIO $ mkContentIdentifier f #ifndef mingw32_HOST_OS =<< getFdStatus fd #else =<< R.getFileStatus f #endif guardSameContentIdentifiers cont cid currcid -- When copy-on-write was done, cannot check the handle that was -- copied from, but such a copy should run very fast, so -- it's very unlikely that the file changed after precheck, -- the modified version was copied CoW, and then the file was -- restored to the original content before this check. postcheckcow cont = do currcid <- liftIO $ mkContentIdentifier f =<< R.getFileStatus f guardSameContentIdentifiers cont cid currcid storeExportWithContentIdentifierM :: RawFilePath -> CopyCoWTried -> FilePath -> Key -> ExportLocation -> [ContentIdentifier] -> MeterUpdate -> Annex ContentIdentifier storeExportWithContentIdentifierM dir cow src k loc overwritablecids p = do liftIO $ createDirectoryUnder dir (toRawFilePath destdir) withTmpFileIn destdir template $ \tmpf tmph -> do liftIO $ hClose tmph fileCopierUnVerified cow src tmpf k p let tmpf' = toRawFilePath tmpf resetAnnexFilePerm tmpf' liftIO (getFileStatus tmpf) >>= liftIO . mkContentIdentifier tmpf' >>= \case Nothing -> giveup "unable to generate content identifier" Just newcid -> do checkExportContent dir loc overwritablecids (giveup "unsafe to overwrite file") (const $ liftIO $ rename tmpf dest) return newcid where dest = fromRawFilePath $ exportPath dir loc (destdir, base) = splitFileName dest template = relatedTemplate (base ++ ".tmp") removeExportWithContentIdentifierM :: RawFilePath -> Key -> ExportLocation -> [ContentIdentifier] -> Annex () removeExportWithContentIdentifierM dir k loc removeablecids = checkExportContent dir loc removeablecids (giveup "unsafe to remove modified file") $ \case DoesNotExist -> return () KnownContentIdentifier -> removeExportM dir k loc checkPresentExportWithContentIdentifierM :: RawFilePath -> Key -> ExportLocation -> [ContentIdentifier] -> Annex Bool checkPresentExportWithContentIdentifierM dir _k loc knowncids = checkPresentGeneric' dir $ checkExportContent dir loc knowncids (return False) $ \case DoesNotExist -> return False KnownContentIdentifier -> return True data CheckResult = DoesNotExist | KnownContentIdentifier -- Checks if the content at an ExportLocation is in the knowncids, -- and only runs the callback that modifies it if it's safe to do so. -- -- This should avoid races to the extent possible. However, -- if something has the file open for write, it could write to the handle -- after the callback has overwritten or deleted it, and its write would -- be lost, and we don't need to detect that. -- (In similar situations, git doesn't either!) -- -- It follows that if something is written to the destination file -- shortly before, it's acceptable to run the callback anyway, as that's -- nearly indistinguishable from the above case. -- -- So, it suffices to check if the destination file's current -- content is known, and immediately run the callback. checkExportContent :: RawFilePath -> ExportLocation -> [ContentIdentifier] -> Annex a -> (CheckResult -> Annex a) -> Annex a checkExportContent dir loc knowncids unsafe callback = tryWhenExists (liftIO $ R.getFileStatus dest) >>= \case Just destst | not (isRegularFile destst) -> unsafe | otherwise -> catchDefaultIO Nothing (liftIO $ mkContentIdentifier dest destst) >>= \case Just destcid | destcid `elem` knowncids -> callback KnownContentIdentifier -- dest exists with other content | otherwise -> unsafe -- should never happen Nothing -> unsafe -- dest does not exist Nothing -> callback DoesNotExist where dest = exportPath dir loc