{- git-annex assistant commit thread - - Copyright 2012 Joey Hess - - Licensed under the GNU GPL version 3 or higher. -} {-# LANGUAGE CPP #-} module Assistant.Threads.Committer where import Assistant.Common import Assistant.Changes import Assistant.Types.Changes import Assistant.Commits import Assistant.Alert import Assistant.DaemonStatus import Assistant.TransferQueue import Assistant.Drop import Types.Transfer import Logs.Location import qualified Annex.Queue import qualified Git.LsFiles import Utility.ThreadScheduler import qualified Utility.Lsof as Lsof import qualified Utility.DirWatcher as DirWatcher import Types.KeySource import Config import Annex.Content import Annex.Ingest import Annex.Link import Annex.CatFile import Annex.InodeSentinal import Annex.Version import qualified Annex import Utility.InodeCache import Annex.Content.Direct import qualified Database.Keys import qualified Command.Sync import qualified Git.Branch import Utility.Tuple import Data.Time.Clock import qualified Data.Set as S import qualified Data.Map as M import Data.Either import Control.Concurrent {- This thread makes git commits at appropriate times. -} commitThread :: NamedThread commitThread = namedThread "Committer" $ do havelsof <- liftIO $ inPath "lsof" delayadd <- liftAnnex $ maybe delayaddDefault (return . Just . Seconds) =<< annexDelayAdd <$> Annex.getGitConfig msg <- liftAnnex Command.Sync.commitMsg waitChangeTime $ \(changes, time) -> do readychanges <- handleAdds havelsof delayadd $ simplifyChanges changes if shouldCommit False time (length readychanges) readychanges then do debug [ "committing" , show (length readychanges) , "changes" ] void $ alertWhile commitAlert $ liftAnnex $ commitStaged msg recordCommit let numchanges = length readychanges mapM_ checkChangeContent readychanges return numchanges else do refill readychanges return 0 refill :: [Change] -> Assistant () refill [] = noop refill cs = do debug ["delaying commit of", show (length cs), "changes"] refillChanges cs {- Wait for one or more changes to arrive to be committed, and then - runs an action to commit them. If more changes arrive while this is - going on, they're handled intelligently, batching up changes into - large commits where possible, doing rename detection, and - commiting immediately otherwise. -} waitChangeTime :: (([Change], UTCTime) -> Assistant Int) -> Assistant () waitChangeTime a = waitchanges 0 where waitchanges lastcommitsize = do -- Wait one one second as a simple rate limiter. liftIO $ threadDelaySeconds (Seconds 1) -- Now, wait until at least one change is available for -- processing. cs <- getChanges handlechanges cs lastcommitsize handlechanges changes lastcommitsize = do let len = length changes -- See if now's a good time to commit. now <- liftIO getCurrentTime scanning <- not . scanComplete <$> getDaemonStatus case (lastcommitsize >= maxCommitSize, shouldCommit scanning now len changes, possiblyrename changes) of (True, True, _) | len > maxCommitSize -> a (changes, now) >>= waitchanges | otherwise -> aftermaxcommit changes (_, True, False) -> a (changes, now) >>= waitchanges (_, True, True) -> do morechanges <- getrelatedchanges changes a (changes ++ morechanges, now) >>= waitchanges _ -> do refill changes waitchanges lastcommitsize {- Did we perhaps only get one of the AddChange and RmChange pair - that make up a file rename? Or some of the pairs that make up - a directory rename? -} possiblyrename = all renamepart renamepart (PendingAddChange _ _) = True renamepart c = isRmChange c {- Gets changes related to the passed changes, without blocking - very long. - - If there are multiple RmChanges, this is probably a directory - rename, in which case it may be necessary to wait longer to get - all the Changes involved. -} getrelatedchanges oldchanges | length (filter isRmChange oldchanges) > 1 = concat <$> getbatchchanges [] | otherwise = do liftIO humanImperceptibleDelay getAnyChanges getbatchchanges cs = do liftIO $ threadDelay $ fromIntegral $ oneSecond `div` 10 cs' <- getAnyChanges if null cs' then return cs else getbatchchanges (cs':cs) {- The last commit was maximum size, so it's very likely there - are more changes and we'd like to ensure we make another commit - of maximum size if possible. - - But, it can take a while for the Watcher to wake back up - after a commit. It can get blocked by another thread - that is using the Annex state, such as a git-annex branch - commit. Especially after such a large commit, this can - take several seconds. When this happens, it defeats the - normal commit batching, which sees some old changes the - Watcher found while the commit was being prepared, and sees - no recent ones, and wants to commit immediately. - - All that we need to do, then, is wait for the Watcher to - wake up, and queue up one more change. - - However, it's also possible that we're at the end of changes for - now. So to avoid waiting a really long time before committing - those changes we have, poll for up to 30 seconds, and then - commit them. - - Also, try to run something in Annex, to ensure we block - longer if the Annex state is indeed blocked. -} aftermaxcommit oldchanges = loop (30 :: Int) where loop 0 = continue oldchanges loop n = do liftAnnex noop -- ensure Annex state is free liftIO $ threadDelaySeconds (Seconds 1) changes <- getAnyChanges if null changes then loop (n - 1) else continue (oldchanges ++ changes) continue cs | null cs = waitchanges 0 | otherwise = handlechanges cs 0 isRmChange :: Change -> Bool isRmChange (Change { changeInfo = i }) | i == RmChange = True isRmChange _ = False {- An amount of time that is hopefully imperceptably short for humans, - while long enough for a computer to get some work done. - Note that 0.001 is a little too short for rename change batching to - work. -} humanImperceptibleInterval :: NominalDiffTime humanImperceptibleInterval = 0.01 humanImperceptibleDelay :: IO () humanImperceptibleDelay = threadDelay $ truncate $ humanImperceptibleInterval * fromIntegral oneSecond maxCommitSize :: Int maxCommitSize = 5000 {- Decide if now is a good time to make a commit. - Note that the list of changes has a random order. - - Current strategy: If there have been 10 changes within the past second, - a batch activity is taking place, so wait for later. -} shouldCommit :: Bool -> UTCTime -> Int -> [Change] -> Bool shouldCommit scanning now len changes | scanning = len >= maxCommitSize | len == 0 = False | len >= maxCommitSize = True | length recentchanges < 10 = True | otherwise = False -- batch activity where thissecond c = timeDelta c <= 1 recentchanges = filter thissecond changes timeDelta c = now `diffUTCTime` changeTime c commitStaged :: String -> Annex Bool commitStaged msg = do {- This could fail if there's another commit being made by - something else. -} v <- tryNonAsync Annex.Queue.flush case v of Left _ -> return False Right _ -> do ok <- Command.Sync.commitStaged Git.Branch.AutomaticCommit msg when ok $ Command.Sync.updateSyncBranch =<< join Command.Sync.getCurrBranch return ok {- OSX needs a short delay after a file is added before locking it down, - as pasting a file seems to try to set file permissions or otherwise - access the file after closing it. -} delayaddDefault :: Annex (Maybe Seconds) #ifdef darwin_HOST_OS delayaddDefault = ifM (isDirect <||> versionSupportsUnlockedPointers) ( return Nothing , return $ Just $ Seconds 1 ) #else delayaddDefault = return Nothing #endif {- If there are PendingAddChanges, or InProcessAddChanges, the files - have not yet actually been added to the annex, and that has to be done - now, before committing. - - Deferring the adds to this point causes batches to be bundled together, - which allows faster checking with lsof that the files are not still open - for write by some other process, and faster checking with git-ls-files - that the files are not already checked into git. - - When a file is added in locked mode, Inotify will notice the new symlink. - So this waits for additional Changes to arrive, so that the symlink has - hopefully been staged before returning, and will be committed immediately. - (OTOH, for kqueue, eventsCoalesce, so instead the symlink is directly - created and staged.) - - Returns a list of all changes that are ready to be committed. - Any pending adds that are not ready yet are put back into the ChangeChan, - where they will be retried later. -} handleAdds :: Bool -> Maybe Seconds -> [Change] -> Assistant [Change] handleAdds havelsof delayadd cs = returnWhen (null incomplete) $ do let (pending, inprocess) = partition isPendingAddChange incomplete direct <- liftAnnex isDirect unlocked <- liftAnnex versionSupportsUnlockedPointers let lockingfiles = not (unlocked || direct) let lockdownconfig = LockDownConfig { lockingFile = lockingfiles , hardlinkFileTmp = True } (pending', cleanup) <- if unlocked || direct then return (pending, noop) else findnew pending (postponed, toadd) <- partitionEithers <$> safeToAdd lockdownconfig havelsof delayadd pending' inprocess cleanup unless (null postponed) $ refillChanges postponed returnWhen (null toadd) $ do added <- addaction toadd $ catMaybes <$> if not lockingfiles then addunlocked direct toadd else forM toadd (add lockdownconfig) if DirWatcher.eventsCoalesce || null added || unlocked || direct then return $ added ++ otherchanges else do r <- handleAdds havelsof delayadd =<< getChanges return $ r ++ added ++ otherchanges where (incomplete, otherchanges) = partition (\c -> isPendingAddChange c || isInProcessAddChange c) cs -- Find files that are actually new, and not unlocked annexed -- files. The ls-files is run on a batch of files. findnew [] = return ([], noop) findnew pending@(exemplar:_) = do let segments = segmentXargsUnordered $ map changeFile pending rs <- liftAnnex $ forM segments $ \fs -> inRepo (Git.LsFiles.notInRepo False fs) let (newfiles, cleanup) = foldl' (\(l1, a1) (l2, a2) -> (l1 ++ l2, a1 >> a2)) ([], return True) rs -- note: timestamp info is lost here let ts = changeTime exemplar return (map (PendingAddChange ts) newfiles, void $ liftIO cleanup) returnWhen c a | c = return otherchanges | otherwise = a add :: LockDownConfig -> Change -> Assistant (Maybe Change) add lockdownconfig change@(InProcessAddChange { lockedDown = ld }) = catchDefaultIO Nothing <~> doadd where ks = keySource ld doadd = sanitycheck ks $ do (mkey, mcache) <- liftAnnex $ do showStart "add" $ keyFilename ks ingest (Just $ LockedDown lockdownconfig ks) Nothing maybe (failedingest change) (done change mcache $ keyFilename ks) mkey add _ _ = return Nothing {- Avoid overhead of re-injesting a renamed unlocked file, by - examining the other Changes to see if a removed file has the - same InodeCache as the new file. If so, we can just update - bookkeeping, and stage the file in git. -} addunlocked :: Bool -> [Change] -> Assistant [Maybe Change] addunlocked isdirect toadd = do ct <- liftAnnex compareInodeCachesWith m <- liftAnnex $ removedKeysMap isdirect ct cs delta <- liftAnnex getTSDelta let cfg = LockDownConfig { lockingFile = False , hardlinkFileTmp = True } if M.null m then forM toadd (add cfg) else forM toadd $ \c -> do mcache <- liftIO $ genInodeCache (changeFile c) delta case mcache of Nothing -> add cfg c Just cache -> case M.lookup (inodeCacheToKey ct cache) m of Nothing -> add cfg c Just k -> fastadd isdirect c k fastadd :: Bool -> Change -> Key -> Assistant (Maybe Change) fastadd isdirect change key = do let source = keySource $ lockedDown change liftAnnex $ if isdirect then finishIngestDirect key source else finishIngestUnlocked key source done change Nothing (keyFilename source) key removedKeysMap :: Bool -> InodeComparisonType -> [Change] -> Annex (M.Map InodeCacheKey Key) removedKeysMap isdirect ct l = do mks <- forM (filter isRmChange l) $ \c -> catKeyFile $ changeFile c M.fromList . concat <$> mapM mkpairs (catMaybes mks) where mkpairs k = map (\c -> (inodeCacheToKey ct c, k)) <$> if isdirect then recordedInodeCache k else Database.Keys.getInodeCaches k failedingest change = do refill [retryChange change] liftAnnex showEndFail return Nothing done change mcache file key = liftAnnex $ do logStatus key InfoPresent ifM versionSupportsUnlockedPointers ( do mode <- liftIO $ catchMaybeIO $ fileMode <$> getFileStatus file stagePointerFile file mode =<< hashPointerFile key , do link <- ifM isDirect ( calcRepo $ gitAnnexLink file key , makeLink file key mcache ) whenM (pure DirWatcher.eventsCoalesce <||> isDirect) $ stageSymlink file =<< hashSymlink link ) showEndOk return $ Just $ finishedChange change key {- Check that the keysource's keyFilename still exists, - and is still a hard link to its contentLocation, - before ingesting it. -} sanitycheck keysource a = do fs <- liftIO $ getSymbolicLinkStatus $ keyFilename keysource ks <- liftIO $ getSymbolicLinkStatus $ contentLocation keysource if deviceID ks == deviceID fs && fileID ks == fileID fs then a else do -- remove the hard link when (contentLocation keysource /= keyFilename keysource) $ void $ liftIO $ tryIO $ removeFile $ contentLocation keysource return Nothing {- Shown an alert while performing an action to add a file or - files. When only a few files are added, their names are shown - in the alert. When it's a batch add, the number of files added - is shown. - - Add errors tend to be transient and will be - automatically dealt with, so the alert is always told - the add succeeded. -} addaction [] a = a addaction toadd a = alertWhile' (addFileAlert $ map changeFile toadd) $ (,) <$> pure True <*> a {- Files can Either be Right to be added now, - or are unsafe, and must be Left for later. - - Check by running lsof on the repository. -} safeToAdd :: LockDownConfig -> Bool -> Maybe Seconds -> [Change] -> [Change] -> Assistant [Either Change Change] safeToAdd _ _ _ [] [] = return [] safeToAdd lockdownconfig havelsof delayadd pending inprocess = do maybe noop (liftIO . threadDelaySeconds) delayadd liftAnnex $ do lockeddown <- forM pending $ lockDown lockdownconfig . changeFile let inprocess' = inprocess ++ mapMaybe mkinprocess (zip pending lockeddown) openfiles <- if havelsof then S.fromList . map fst3 . filter openwrite <$> findopenfiles (map (keySource . lockedDown) inprocess') else pure S.empty let checked = map (check openfiles) inprocess' {- If new events are received when files are closed, - there's no need to retry any changes that cannot - be done now. -} if DirWatcher.closingTracked then do mapM_ canceladd $ lefts checked allRight $ rights checked else return checked where check openfiles change@(InProcessAddChange { lockedDown = ld }) | S.member (contentLocation (keySource ld)) openfiles = Left change check _ change = Right change mkinprocess (c, Just ld) = Just InProcessAddChange { changeTime = changeTime c , lockedDown = ld } mkinprocess (_, Nothing) = Nothing canceladd (InProcessAddChange { lockedDown = ld }) = do let ks = keySource ld warning $ keyFilename ks ++ " still has writers, not adding" -- remove the hard link when (contentLocation ks /= keyFilename ks) $ void $ liftIO $ tryIO $ removeFile $ contentLocation ks canceladd _ = noop openwrite (_file, mode, _pid) | mode == Lsof.OpenWriteOnly = True | mode == Lsof.OpenReadWrite = True | mode == Lsof.OpenUnknown = True | otherwise = False allRight = return . map Right {- Normally the KeySources are locked down inside the temp directory, - so can just lsof that, which is quite efficient. - - In crippled filesystem mode, there is no lock down, so must run lsof - on each individual file. -} findopenfiles keysources = ifM crippledFileSystem ( liftIO $ do let segments = segmentXargsUnordered $ map keyFilename keysources concat <$> forM segments (\fs -> Lsof.query $ "--" : fs) , do tmpdir <- fromRepo gitAnnexTmpMiscDir liftIO $ Lsof.queryDir tmpdir ) {- After a Change is committed, queue any necessary transfers or drops - of the content of the key. - - This is not done during the startup scan, because the expensive - transfer scan does the same thing then. -} checkChangeContent :: Change -> Assistant () checkChangeContent change@(Change { changeInfo = i }) = case changeInfoKey i of Nothing -> noop Just k -> whenM (scanComplete <$> getDaemonStatus) $ do present <- liftAnnex $ inAnnex k void $ if present then queueTransfers "new file created" Next k af Upload else queueTransfers "new or renamed file wanted" Next k af Download handleDrops "file renamed" present k af [] where f = changeFile change af = AssociatedFile (Just f) checkChangeContent _ = noop