{- git-annex file content managing - - Copyright 2010-2013 Joey Hess - - Licensed under the GNU GPL version 3 or higher. -} {-# LANGUAGE CPP #-} module Annex.Content ( inAnnex, inAnnexSafe, inAnnexCheck, lockContent, getViaTmp, getViaTmpChecked, getViaTmpUnchecked, withTmp, checkDiskSpace, moveAnnex, sendAnnex, prepSendAnnex, removeAnnex, fromAnnex, moveBad, getKeysPresent, saveState, downloadUrl, preseedTmp, freezeContent, thawContent, dirKeys, withObjectLoc, ) where import System.IO.Unsafe (unsafeInterleaveIO) import System.PosixCompat.Files import Common.Annex import Logs.Location import qualified Git import qualified Annex import qualified Annex.Queue import qualified Annex.Branch import Utility.DiskFree import Utility.FileMode import qualified Annex.Url as Url import Types.Key import Utility.DataUnits import Utility.CopyFile import Config import Git.SharedRepository import Annex.Perms import Annex.Link import Annex.Content.Direct import Annex.ReplaceFile import Annex.Exception {- Checks if a given key's content is currently present. -} inAnnex :: Key -> Annex Bool inAnnex key = inAnnexCheck key $ liftIO . doesFileExist {- Runs an arbitrary check on a key's content. -} inAnnexCheck :: Key -> (FilePath -> Annex Bool) -> Annex Bool inAnnexCheck key check = inAnnex' id False check key {- Generic inAnnex, handling both indirect and direct mode. - - In direct mode, at least one of the associated files must pass the - check. Additionally, the file must be unmodified. -} inAnnex' :: (a -> Bool) -> a -> (FilePath -> Annex a) -> Key -> Annex a inAnnex' isgood bad check key = withObjectLoc key checkindirect checkdirect where checkindirect loc = do whenM (fromRepo Git.repoIsUrl) $ error "inAnnex cannot check remote repo" check loc checkdirect [] = return bad checkdirect (loc:locs) = do r <- check loc if isgood r then ifM (goodContent key loc) ( return r , checkdirect locs ) else checkdirect locs {- A safer check; the key's content must not only be present, but - is not in the process of being removed. -} inAnnexSafe :: Key -> Annex (Maybe Bool) inAnnexSafe = inAnnex' (fromMaybe False) (Just False) go where go f = liftIO $ openforlock f >>= check #ifndef mingw32_HOST_OS openforlock f = catchMaybeIO $ openFd f ReadOnly Nothing defaultFileFlags #else openforlock _ = return $ Just () #endif check Nothing = return is_missing #ifndef mingw32_HOST_OS check (Just h) = do v <- getLock h (ReadLock, AbsoluteSeek, 0, 0) closeFd h return $ case v of Just _ -> is_locked Nothing -> is_unlocked #else check (Just _) = return is_unlocked #endif #ifndef mingw32_HOST_OS is_locked = Nothing #endif is_unlocked = Just True is_missing = Just False {- Content is exclusively locked while running an action that might remove - it. (If the content is not present, no locking is done.) -} lockContent :: Key -> Annex a -> Annex a #ifndef mingw32_HOST_OS lockContent key a = do file <- calcRepo $ gitAnnexLocation key bracketIO (openforlock file >>= lock) unlock (const a) where {- Since files are stored with the write bit disabled, have - to fiddle with permissions to open for an exclusive lock. -} openforlock f = catchMaybeIO $ ifM (doesFileExist f) ( withModifiedFileMode f (`unionFileModes` ownerWriteMode) open , open ) where open = openFd f ReadWrite Nothing defaultFileFlags lock Nothing = return Nothing lock (Just fd) = do v <- tryIO $ setLock fd (WriteLock, AbsoluteSeek, 0, 0) case v of Left _ -> error "content is locked" Right _ -> return $ Just fd unlock Nothing = noop unlock (Just l) = closeFd l #else lockContent _key a = a -- no locking for Windows! #endif {- Runs an action, passing it a temporary filename to get, - and if the action succeeds, moves the temp file into - the annex as a key's content. -} getViaTmp :: Key -> (FilePath -> Annex Bool) -> Annex Bool getViaTmp = getViaTmpChecked (return True) {- Like getViaTmp, but does not check that there is enough disk space - for the incoming key. For use when the key content is already on disk - and not being copied into place. -} getViaTmpUnchecked :: Key -> (FilePath -> Annex Bool) -> Annex Bool getViaTmpUnchecked = finishGetViaTmp (return True) getViaTmpChecked :: Annex Bool -> Key -> (FilePath -> Annex Bool) -> Annex Bool getViaTmpChecked check key action = do tmp <- fromRepo $ gitAnnexTmpLocation key -- Check that there is enough free disk space. -- When the temp file already exists, count the space -- it is using as free. e <- liftIO $ doesFileExist tmp alreadythere <- if e then fromIntegral . fileSize <$> liftIO (getFileStatus tmp) else return 0 ifM (checkDiskSpace Nothing key alreadythere) ( do when e $ thawContent tmp finishGetViaTmp check key action , return False ) finishGetViaTmp :: Annex Bool -> Key -> (FilePath -> Annex Bool) -> Annex Bool finishGetViaTmp check key action = do tmpfile <- prepTmp key ifM (action tmpfile <&&> check) ( do moveAnnex key tmpfile logStatus key InfoPresent return True , do -- the tmp file is left behind, in case caller wants -- to resume its transfer return False ) prepTmp :: Key -> Annex FilePath prepTmp key = do tmp <- fromRepo $ gitAnnexTmpLocation key createAnnexDirectory (parentDir tmp) return tmp {- Creates a temp file, runs an action on it, and cleans up the temp file. -} withTmp :: Key -> (FilePath -> Annex a) -> Annex a withTmp key action = do tmp <- prepTmp key res <- action tmp liftIO $ nukeFile tmp return res {- Checks that there is disk space available to store a given key, - in a destination (or the annex) printing a warning if not. -} checkDiskSpace :: Maybe FilePath -> Key -> Integer -> Annex Bool checkDiskSpace destination key alreadythere = do reserve <- annexDiskReserve <$> Annex.getGitConfig free <- liftIO . getDiskFree =<< dir force <- Annex.getState Annex.force case (free, keySize key) of (Just have, Just need) -> do let ok = (need + reserve <= have + alreadythere) || force unless ok $ needmorespace (need + reserve - have - alreadythere) return ok _ -> return True where dir = maybe (fromRepo gitAnnexDir) return destination needmorespace n = warning $ "not enough free space, need " ++ roughSize storageUnits True n ++ " more" ++ forcemsg forcemsg = " (use --force to override this check or adjust annex.diskreserve)" {- Moves a key's content into .git/annex/objects/ - - In direct mode, moves it to the associated file, or files. - - What if the key there already has content? This could happen for - various reasons; perhaps the same content is being annexed again. - Perhaps there has been a hash collision generating the keys. - - The current strategy is to assume that in this case it's safe to delete - one of the two copies of the content; and the one already in the annex - is left there, assuming it's the original, canonical copy. - - I considered being more paranoid, and checking that both files had - the same content. Decided against it because A) users explicitly choose - a backend based on its hashing properties and so if they're dealing - with colliding files it's their own fault and B) adding such a check - would not catch all cases of colliding keys. For example, perhaps - a remote has a key; if it's then added again with different content then - the overall system now has two different peices of content for that - key, and one of them will probably get deleted later. So, adding the - check here would only raise expectations that git-annex cannot truely - meet. -} moveAnnex :: Key -> FilePath -> Annex () moveAnnex key src = withObjectLoc key storeobject storedirect where storeobject dest = ifM (liftIO $ doesFileExist dest) ( alreadyhave , modifyContent dest $ do liftIO $ moveFile src dest freezeContent dest ) storeindirect = storeobject =<< calcRepo (gitAnnexLocation key) {- In direct mode, the associated file's content may be locally - modified. In that case, it's preserved. However, the content - we're moving into the annex may be the only extant copy, so - it's important we not lose it. So, when the key's content - cannot be moved to any associated file, it's stored in indirect - mode. -} storedirect = storedirect' storeindirect storedirect' fallback [] = fallback storedirect' fallback (f:fs) = do thawContent src v <- isAnnexLink f if Just key == v then do updateInodeCache key src replaceFile f $ liftIO . moveFile src chmodContent f forM_ fs $ addContentWhenNotPresent key f else ifM (goodContent key f) ( storedirect' alreadyhave fs , storedirect' fallback fs ) alreadyhave = liftIO $ removeFile src {- Runs an action to transfer an object's content. - - In direct mode, it's possible for the file to change as it's being sent. - If this happens, runs the rollback action and returns False. The - rollback action should remove the data that was transferred. -} sendAnnex :: Key -> Annex () -> (FilePath -> Annex Bool) -> Annex Bool sendAnnex key rollback sendobject = go =<< prepSendAnnex key where go Nothing = return False go (Just (f, checksuccess)) = do r <- sendobject f ifM checksuccess ( return r , do rollback return False ) {- Returns a file that contains an object's content, - and an check to run after the transfer is complete. - - In direct mode, it's possible for the file to change as it's being sent, - and the check detects this case and returns False. - - Note that the returned check action is, in some cases, run in the - Annex monad of the remote that is receiving the object, rather than - the sender. So it cannot rely on Annex state. -} prepSendAnnex :: Key -> Annex (Maybe (FilePath, Annex Bool)) prepSendAnnex key = withObjectLoc key indirect direct where indirect f = return $ Just (f, return True) direct [] = return Nothing direct (f:fs) = do cache <- recordedInodeCache key -- check that we have a good file ifM (sameInodeCache f cache) ( return $ Just (f, sameInodeCache f cache) , direct fs ) {- Performs an action, passing it the location to use for a key's content. - - In direct mode, the associated files will be passed. But, if there are - no associated files for a key, the indirect mode action will be - performed instead. -} withObjectLoc :: Key -> (FilePath -> Annex a) -> ([FilePath] -> Annex a) -> Annex a withObjectLoc key indirect direct = ifM isDirect ( do fs <- associatedFiles key if null fs then goindirect else direct fs , goindirect ) where goindirect = indirect =<< calcRepo (gitAnnexLocation key) cleanObjectLoc :: Key -> Annex () -> Annex () cleanObjectLoc key cleaner = do file <- calcRepo $ gitAnnexLocation key void $ tryAnnexIO $ thawContentDir file cleaner liftIO $ removeparents file (3 :: Int) where removeparents _ 0 = noop removeparents file n = do let dir = parentDir file maybe noop (const $ removeparents dir (n-1)) <=< catchMaybeIO $ removeDirectory dir {- Removes a key's file from .git/annex/objects/ - - In direct mode, deletes the associated files or files, and replaces - them with symlinks. -} removeAnnex :: Key -> Annex () removeAnnex key = withObjectLoc key remove removedirect where remove file = cleanObjectLoc key $ do liftIO $ nukeFile file removeInodeCache key removedirect fs = do cache <- recordedInodeCache key removeInodeCache key mapM_ (resetfile cache) fs resetfile cache f = whenM (sameInodeCache f cache) $ do l <- inRepo $ gitAnnexLink f key top <- fromRepo Git.repoPath cwd <- liftIO getCurrentDirectory let top' = fromMaybe top $ absNormPath cwd top let l' = relPathDirToFile top' (fromMaybe l $ absNormPath top' l) replaceFile f $ makeAnnexLink l' {- Moves a key's file out of .git/annex/objects/ -} fromAnnex :: Key -> FilePath -> Annex () fromAnnex key dest = cleanObjectLoc key $ do file <- calcRepo $ gitAnnexLocation key thawContent file liftIO $ moveFile file dest {- Moves a key out of .git/annex/objects/ into .git/annex/bad, and - returns the file it was moved to. -} moveBad :: Key -> Annex FilePath moveBad key = do src <- calcRepo $ gitAnnexLocation key bad <- fromRepo gitAnnexBadDir let dest = bad takeFileName src createAnnexDirectory (parentDir dest) cleanObjectLoc key $ liftIO $ moveFile src dest logStatus key InfoMissing return dest {- List of keys whose content exists in the annex. -} getKeysPresent :: Annex [Key] getKeysPresent = do direct <- isDirect dir <- fromRepo gitAnnexObjectDir liftIO $ traverse direct (2 :: Int) dir where traverse direct depth dir = do contents <- catchDefaultIO [] (dirContents dir) if depth == 0 then do contents' <- filterM (present direct) contents let keys = mapMaybe (fileKey . takeFileName) contents' continue keys [] else do let deeper = traverse direct (depth - 1) continue [] (map deeper contents) continue keys [] = return keys continue keys (a:as) = do {- Force lazy traversal with unsafeInterleaveIO. -} morekeys <- unsafeInterleaveIO a continue (morekeys++keys) as {- In indirect mode, look for the key. In direct mode, - the inode cache file is only present when a key's content - is present. -} present False d = doesFileExist $ contentfile d present True d = doesFileExist $ contentfile d ++ ".cache" contentfile d = d takeFileName d {- Things to do to record changes to content when shutting down. - - It's acceptable to avoid committing changes to the branch, - especially if performing a short-lived action. -} saveState :: Bool -> Annex () saveState nocommit = doSideAction $ do Annex.Queue.flush unless nocommit $ whenM (annexAlwaysCommit <$> Annex.getGitConfig) $ Annex.Branch.commit "update" {- Downloads content from any of a list of urls. -} downloadUrl :: [Url.URLString] -> FilePath -> Annex Bool downloadUrl urls file = go =<< annexWebDownloadCommand <$> Annex.getGitConfig where go Nothing = do opts <- map Param . annexWebOptions <$> Annex.getGitConfig headers <- getHttpHeaders anyM (\u -> Url.withUserAgent $ Url.download u headers opts file) urls go (Just basecmd) = liftIO $ anyM (downloadcmd basecmd) urls downloadcmd basecmd url = boolSystem "sh" [Param "-c", Param $ gencmd url basecmd] <&&> doesFileExist file gencmd url = massReplace [ ("%file", shellEscape file) , ("%url", shellEscape url) ] {- Copies a key's content, when present, to a temp file. - This is used to speed up some rsyncs. -} preseedTmp :: Key -> FilePath -> Annex Bool preseedTmp key file = go =<< inAnnex key where go False = return False go True = do ok <- copy when ok $ thawContent file return ok copy = ifM (liftIO $ doesFileExist file) ( return True , do s <- calcRepo $ gitAnnexLocation key liftIO $ copyFileExternal s file ) {- Blocks writing to an annexed file, and modifies file permissions to - allow reading it, per core.sharedRepository setting. -} freezeContent :: FilePath -> Annex () freezeContent file = unlessM crippledFileSystem $ liftIO . go =<< fromRepo getSharedRepository where go GroupShared = modifyFileMode file $ removeModes writeModes . addModes [ownerReadMode, groupReadMode] go AllShared = modifyFileMode file $ removeModes writeModes . addModes readModes go _ = modifyFileMode file $ removeModes writeModes . addModes [ownerReadMode] {- Adjusts read mode of annexed file per core.sharedRepository setting. -} chmodContent :: FilePath -> Annex () chmodContent file = unlessM crippledFileSystem $ liftIO . go =<< fromRepo getSharedRepository where go GroupShared = modifyFileMode file $ addModes [ownerReadMode, groupReadMode] go AllShared = modifyFileMode file $ addModes readModes go _ = modifyFileMode file $ addModes [ownerReadMode] {- Allows writing to an annexed file that freezeContent was called on - before. -} thawContent :: FilePath -> Annex () thawContent file = unlessM crippledFileSystem $ liftIO . go =<< fromRepo getSharedRepository where go GroupShared = groupWriteRead file go AllShared = groupWriteRead file go _ = allowWrite file {- Finds files directly inside a directory like gitAnnexBadDir - (not in subdirectories) and returns the corresponding keys. -} dirKeys :: (Git.Repo -> FilePath) -> Annex [Key] dirKeys dirspec = do dir <- fromRepo dirspec ifM (liftIO $ doesDirectoryExist dir) ( do contents <- liftIO $ getDirectoryContents dir files <- liftIO $ filterM doesFileExist $ map (dir ) contents return $ mapMaybe (fileKey . takeFileName) files , return [] )