40ecf58d4b
This does not change the overall license of the git-annex program, which was already AGPL due to a number of sources files being AGPL already. Legally speaking, I'm adding a new license under which these files are now available; I already released their current contents under the GPL license. Now they're dual licensed GPL and AGPL. However, I intend for all my future changes to these files to only be released under the AGPL license, and I won't be tracking the dual licensing status, so I'm simply changing the license statement to say it's AGPL. (In some cases, others wrote parts of the code of a file and released it under the GPL; but in all cases I have contributed a significant portion of the code in each file and it's that code that is getting the AGPL license; the GPL license of other contributors allows combining with AGPL code.)
159 lines
5.2 KiB
Haskell
159 lines
5.2 KiB
Haskell
{- git-annex assistant repository repair
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-
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- Copyright 2013 Joey Hess <id@joeyh.name>
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-
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- Licensed under the GNU AGPL version 3 or higher.
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-}
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{-# LANGUAGE CPP #-}
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module Assistant.Repair where
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import Assistant.Common
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import Command.Repair (repairAnnexBranch, trackingOrSyncBranch)
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import Git.Fsck (FsckResults, foundBroken)
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import Git.Repair (runRepairOf)
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import qualified Git
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import qualified Remote
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import qualified Types.Remote as Remote
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import Logs.FsckResults
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import Annex.UUID
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import Utility.Batch
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import Annex.Path
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import Assistant.Sync
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import Assistant.Alert
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import Assistant.DaemonStatus
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import Assistant.Types.UrlRenderer
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#ifdef WITH_WEBAPP
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import Assistant.WebApp.Types
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import qualified Data.Text as T
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#endif
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import qualified Utility.Lsof as Lsof
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import Utility.ThreadScheduler
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import Control.Concurrent.Async
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{- When the FsckResults require a repair, tries to do a non-destructive
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- repair. If that fails, pops up an alert. -}
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repairWhenNecessary :: UrlRenderer -> UUID -> Maybe Remote -> FsckResults -> Assistant Bool
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repairWhenNecessary urlrenderer u mrmt fsckresults
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| foundBroken fsckresults = do
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liftAnnex $ writeFsckResults u fsckresults
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repodesc <- liftAnnex $ Remote.prettyUUID u
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ok <- alertWhile (repairingAlert repodesc)
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(runRepair u mrmt False)
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#ifdef WITH_WEBAPP
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unless ok $ do
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button <- mkAlertButton True (T.pack "Click Here") urlrenderer $
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RepairRepositoryR u
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void $ addAlert $ brokenRepositoryAlert [button]
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#endif
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return ok
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| otherwise = return False
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runRepair :: UUID -> Maybe Remote -> Bool -> Assistant Bool
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runRepair u mrmt destructiverepair = do
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fsckresults <- liftAnnex $ readFsckResults u
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myu <- liftAnnex getUUID
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ok <- if u == myu
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then localrepair fsckresults
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else remoterepair fsckresults
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liftAnnex $ clearFsckResults u
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debug [ "Repaired", show u, show ok ]
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return ok
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where
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localrepair fsckresults = do
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-- Stop the watcher from running while running repairs.
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changeSyncable Nothing False
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-- This intentionally runs the repair inside the Annex
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-- monad, which is not strictly necessary, but keeps
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-- other threads that might be trying to use the Annex
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-- from running until it completes.
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ok <- liftAnnex $ repair fsckresults Nothing
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-- Run a background fast fsck if a destructive repair had
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-- to be done, to ensure that the git-annex branch
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-- reflects the current state of the repo.
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when destructiverepair $
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backgroundfsck [ Param "--fast" ]
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-- Start the watcher running again. This also triggers it to
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-- do a startup scan, which is especially important if the
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-- git repo repair removed files from the index file. Those
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-- files will be seen as new, and re-added to the repository.
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when (ok || destructiverepair) $
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changeSyncable Nothing True
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return ok
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remoterepair fsckresults = case Remote.repairRepo =<< mrmt of
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Nothing -> return False
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Just mkrepair -> do
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thisrepopath <- liftIO . absPath
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=<< liftAnnex (fromRepo Git.repoPath)
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a <- liftAnnex $ mkrepair $
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repair fsckresults (Just thisrepopath)
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liftIO $ catchBoolIO a
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repair fsckresults referencerepo = do
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(ok, modifiedbranches) <- inRepo $
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runRepairOf fsckresults trackingOrSyncBranch destructiverepair referencerepo
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when destructiverepair $
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repairAnnexBranch modifiedbranches
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return ok
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backgroundfsck params = liftIO $ void $ async $ do
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program <- programPath
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batchCommand program (Param "fsck" : params)
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{- Detect when a git lock file exists and has no git process currently
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- writing to it. This strongly suggests it is a stale lock file.
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-
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- However, this could be on a network filesystem. Which is not very safe
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- anyway (the assistant relies on being able to check when files have
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- no writers to know when to commit them). Also, a few lock-file-ish
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- things used by git are not kept open, particularly MERGE_HEAD.
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-
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- So, just in case, when the lock file appears stale, we delay for one
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- minute, and check its size. If the size changed, delay for another
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- minute, and so on. This will at work to detect when another machine
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- is writing out a new index file, since git does so by writing the
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- new content to index.lock.
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-
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- Returns true if locks were cleaned up.
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-}
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repairStaleGitLocks :: Git.Repo -> Assistant Bool
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repairStaleGitLocks r = do
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lockfiles <- liftIO $ filter islock <$> findgitfiles r
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repairStaleLocks lockfiles
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return $ not $ null lockfiles
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where
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findgitfiles = dirContentsRecursiveSkipping (== dropTrailingPathSeparator annexDir) True . Git.localGitDir
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islock f
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| "gc.pid" `isInfixOf` f = False
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| ".lock" `isSuffixOf` f = True
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| takeFileName f == "MERGE_HEAD" = True
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| otherwise = False
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repairStaleLocks :: [FilePath] -> Assistant ()
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repairStaleLocks lockfiles = go =<< getsizes
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where
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getsize lf = catchMaybeIO $ (\s -> (lf, s)) <$> getFileSize lf
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getsizes = liftIO $ catMaybes <$> mapM getsize lockfiles
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go [] = return ()
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go l = ifM (liftIO $ null <$> Lsof.query ("--" : map fst l))
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( do
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waitforit "to check stale git lock file"
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l' <- getsizes
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if l' == l
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then liftIO $ mapM_ nukeFile (map fst l)
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else go l'
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, do
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waitforit "for git lock file writer"
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go =<< getsizes
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)
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waitforit why = do
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notice ["Waiting for 60 seconds", why]
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liftIO $ threadDelaySeconds $ Seconds 60
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