{- git repository recovery - - Copyright 2013 Joey Hess - - Licensed under the GNU GPL version 3 or higher. -} module Git.Repair ( runRepair, runRepairOf, cleanCorruptObjects, retrieveMissingObjects, resetLocalBranches, removeTrackingBranches, rewriteIndex, checkIndex, emptyGoodCommits, ) where import Common import Git import Git.Command import Git.Objects import Git.Sha import Git.Types import Git.Fsck import qualified Git.Config as Config import qualified Git.Construct as Construct import qualified Git.LsTree as LsTree import qualified Git.LsFiles as LsFiles import qualified Git.Ref as Ref import qualified Git.RefLog as RefLog import qualified Git.UpdateIndex as UpdateIndex import qualified Git.Branch as Branch import Utility.Tmp import Utility.Rsync import qualified Data.Set as S import qualified Data.ByteString.Lazy as L import Data.Tuple.Utils {- Given a set of bad objects found by git fsck, removes all - corrupt objects, and returns a list of missing objects, - which need to be found elsewhere to finish recovery. - - Since git fsck may crash on corrupt objects, and so not - report the full set of corrupt or missing objects, - this removes corrupt objects, and re-runs fsck, until it - stabalizes. - - To remove corrupt objects, unpack all packs, and remove the packs - (to handle corrupt packs), and remove loose object files. -} cleanCorruptObjects :: FsckResults -> Repo -> IO MissingObjects cleanCorruptObjects mmissing r = check mmissing where check Nothing = do putStrLn "git fsck found a problem but no specific broken objects. Perhaps a corrupt pack file?" ifM (explodePacks r) ( retry S.empty , return S.empty ) check (Just bad) | S.null bad = return S.empty | otherwise = do putStrLn $ unwords [ "git fsck found" , show (S.size bad) , "broken objects." ] exploded <- explodePacks r removed <- removeLoose r bad if exploded || removed then retry bad else return bad retry oldbad = do putStrLn "Re-running git fsck to see if it finds more problems." v <- findBroken False r case v of Nothing -> error $ unwords [ "git fsck found a problem, which was not corrected after removing" , show (S.size oldbad) , "corrupt objects." ] Just newbad -> do removed <- removeLoose r newbad let s = S.union oldbad newbad if not removed || s == oldbad then return s else retry s removeLoose :: Repo -> MissingObjects -> IO Bool removeLoose r s = do let fs = map (looseObjectFile r) (S.toList s) count <- length <$> filterM doesFileExist fs if (count > 0) then do putStrLn $ unwords [ "removing" , show count , "corrupt loose objects" ] mapM_ nukeFile fs return True else return False explodePacks :: Repo -> IO Bool explodePacks r = do packs <- listPackFiles r if null packs then return False else do putStrLn "Unpacking all pack files." mapM_ go packs return True where go packfile = do -- May fail, if pack file is corrupt. void $ tryIO $ pipeWrite [Param "unpack-objects"] r $ \h -> L.hPut h =<< L.readFile packfile nukeFile packfile nukeFile $ packIdxFile packfile {- Try to retrieve a set of missing objects, from the remotes of a - repository. Returns any that could not be retreived. -} retrieveMissingObjects :: MissingObjects -> Repo -> IO MissingObjects retrieveMissingObjects missing r | S.null missing = return missing | otherwise = withTmpDir "tmprepo" $ \tmpdir -> do unlessM (boolSystem "git" [Params "init", File tmpdir]) $ error $ "failed to create temp repository in " ++ tmpdir tmpr <- Config.read =<< Construct.fromAbsPath tmpdir stillmissing <- pullremotes tmpr (remotes r) fetchrefstags missing if S.null stillmissing then return stillmissing else pullremotes tmpr (remotes r) fetchallrefs stillmissing where pullremotes _tmpr [] _ stillmissing = return stillmissing pullremotes tmpr (rmt:rmts) fetchrefs s | S.null s = return s | otherwise = do putStrLn $ "Trying to recover missing objects from remote " ++ repoDescribe rmt ifM (fetchsome rmt fetchrefs tmpr) ( do void $ copyObjects tmpr r stillmissing <- findMissing (S.toList s) r pullremotes tmpr rmts fetchrefs stillmissing , do putStrLn $ unwords [ "failed to fetch from remote" , repoDescribe rmt , "(will continue without it, but making this remote available may improve recovery)" ] pullremotes tmpr rmts fetchrefs s ) fetchsome rmt ps = runBool $ [ Param "fetch" , Param (repoLocation rmt) , Params "--force --update-head-ok --quiet" ] ++ ps -- fetch refs and tags fetchrefstags = [ Param "+refs/heads/*:refs/heads/*", Param "--tags"] -- Fetch all available refs (more likely to fail, -- as the remote may have refs it refuses to send). fetchallrefs = [ Param "+*:*" ] {- Copies all objects from the src repository to the dest repository. - This is done using rsync, so it copies all missing object, and all - objects they rely on. -} copyObjects :: Repo -> Repo -> IO Bool copyObjects srcr destr = rsync [ Param "-qr" , File $ addTrailingPathSeparator $ objectsDir srcr , File $ addTrailingPathSeparator $ objectsDir destr ] {- To deal with missing objects that cannot be recovered, resets any - local branches to point to an old commit before the missing - objects. Returns all branches that were changed, and deleted. -} resetLocalBranches :: MissingObjects -> GoodCommits -> Repo -> IO ([Branch], [Branch], GoodCommits) resetLocalBranches missing goodcommits r = go [] [] goodcommits =<< filter islocalbranch <$> getAllRefs r where islocalbranch b = "refs/heads/" `isPrefixOf` show b go changed deleted gcs [] = return (changed, deleted, gcs) go changed deleted gcs (b:bs) = do (mc, gcs') <- findUncorruptedCommit missing gcs b r case mc of Just c | c == b -> go changed deleted gcs' bs | otherwise -> do reset b c go (b:changed) deleted gcs' bs Nothing -> do nukeBranchRef b r go changed (b:deleted) gcs' bs reset b c = do nukeBranchRef b r void $ runBool [ Param "branch" , Param (show $ Ref.base b) , Param (show c) ] r {- To deal with missing objects that cannot be recovered, removes - any remote tracking branches that reference them. Returns a list of - all removed branches. -} removeTrackingBranches :: MissingObjects -> GoodCommits -> Repo -> IO ([Branch], GoodCommits) removeTrackingBranches missing goodcommits r = go [] goodcommits =<< filter istrackingbranch <$> getAllRefs r where istrackingbranch b = "refs/remotes/" `isPrefixOf` show b go removed gcs [] = return (removed, gcs) go removed gcs (b:bs) = do (ok, gcs') <- verifyCommit missing gcs b r if ok then go removed gcs' bs else do nukeBranchRef b r go (b:removed) gcs' bs {- Gets all refs, including ones that are corrupt. - git show-ref does not output refs to commits that are directly - corrupted, so it is not used. -} getAllRefs :: Repo -> IO [Ref] getAllRefs r = do packedrs <- mapMaybe parsePacked . lines <$> catchDefaultIO "" (readFile $ packedRefsFile r) loosers <- map toref <$> dirContentsRecursive refdir return $ packedrs ++ loosers where refdir = localGitDir r "refs" toref = Ref . relPathDirToFile (localGitDir r) packedRefsFile :: Repo -> FilePath packedRefsFile r = localGitDir r "packed-refs" parsePacked :: String -> Maybe Ref parsePacked l = case words l of (sha:ref:[]) | isJust (extractSha sha) -> Just $ Ref ref _ -> Nothing {- git-branch -d cannot be used to remove a branch that is directly - pointing to a corrupt commit. However, it's tried first. -} nukeBranchRef :: Branch -> Repo -> IO () nukeBranchRef b r = void $ usegit <||> byhand where usegit = runBool [ Param "branch" , Params "-r -d" , Param $ show $ Ref.base b ] r byhand = do nukeFile $ localGitDir r show b whenM (doesFileExist packedrefs) $ withTmpFile "packed-refs" $ \tmp h -> do ls <- lines <$> readFile packedrefs hPutStr h $ unlines $ filter (not . skiprefline) ls hClose h renameFile tmp packedrefs return True skiprefline l = case parsePacked l of Just packedref | packedref == b -> True _ -> False packedrefs = packedRefsFile r {- Finds the most recent commit to a branch that does not need any - of the missing objects. If the input branch is good as-is, returns it. - Otherwise, tries to traverse the commits in the branch to find one - that is ok. That might fail, if one of them is corrupt, or if an object - at the root of the branch is missing. Finally, looks for an old version - of the branch from the reflog. -} findUncorruptedCommit :: MissingObjects -> GoodCommits -> Branch -> Repo -> IO (Maybe Sha, GoodCommits) findUncorruptedCommit missing goodcommits branch r = do (ok, goodcommits') <- verifyCommit missing goodcommits branch r if ok then return (Just branch, goodcommits') else do (ls, cleanup) <- pipeNullSplit [ Param "log" , Param "-z" , Param "--format=%H" , Param (show branch) ] r let branchshas = catMaybes $ map extractSha ls reflogshas <- RefLog.get branch r -- XXX Could try a bit harder here, and look -- for uncorrupted old commits in branches in the -- reflog. cleanup `after` findfirst goodcommits (branchshas ++ reflogshas) where findfirst gcs [] = return (Nothing, gcs) findfirst gcs (c:cs) = do (ok, gcs') <- verifyCommit missing gcs c r if ok then return (Just c, gcs') else findfirst gcs' cs {- Verifies tha none of the missing objects in the set are used by - the commit. Also adds to a set of commit shas that have been verified to - be good, which can be passed into subsequent calls to avoid - redundant work when eg, chasing down branches to find the first - uncorrupted commit. -} verifyCommit :: MissingObjects -> GoodCommits -> Sha -> Repo -> IO (Bool, GoodCommits) verifyCommit missing goodcommits commit r | checkGoodCommit commit goodcommits = return (True, goodcommits) | otherwise = do (ls, cleanup) <- pipeNullSplit [ Param "log" , Param "-z" , Param "--format=%H %T" , Param (show commit) ] r let committrees = map parse ls if any isNothing committrees || null committrees then do void cleanup return (False, goodcommits) else do let cts = catMaybes committrees ifM (cleanup <&&> check cts) ( return (True, addGoodCommits (map fst cts) goodcommits) , return (False, goodcommits) ) where parse l = case words l of (commitsha:treesha:[]) -> (,) <$> extractSha commitsha <*> extractSha treesha _ -> Nothing check [] = return True check ((c, t):rest) | checkGoodCommit c goodcommits = return True | otherwise = verifyTree missing t r <&&> check rest {- Verifies that a tree is good, including all trees and blobs - referenced by it. -} verifyTree :: MissingObjects -> Sha -> Repo -> IO Bool verifyTree missing treesha r | S.member treesha missing = return False | otherwise = do (ls, cleanup) <- pipeNullSplit (LsTree.lsTreeParams treesha) r let objshas = map (extractSha . LsTree.sha . LsTree.parseLsTree) ls if any isNothing objshas || any (`S.member` missing) (catMaybes objshas) then do void cleanup return False -- as long as ls-tree succeeded, we're good else cleanup {- Checks that the index file only refers to objects that are not missing. -} checkIndex :: MissingObjects -> Repo -> IO Bool checkIndex missing r = do (bad, _good, cleanup) <- partitionIndex missing r if null bad then cleanup else do void cleanup return False partitionIndex :: MissingObjects -> Repo -> IO ([LsFiles.StagedDetails], [LsFiles.StagedDetails], IO Bool) partitionIndex missing r = do (indexcontents, cleanup) <- LsFiles.stagedDetails [repoPath r] r let (bad, good) = partition ismissing indexcontents return (bad, good, cleanup) where getblob (_file, Just sha, Just _mode) = Just sha getblob _ = Nothing ismissing = maybe False (`S.member` missing) . getblob {- Rewrites the index file, removing from it any files whose blobs are - missing. Returns the list of affected files. -} rewriteIndex :: MissingObjects -> Repo -> IO [FilePath] rewriteIndex missing r | repoIsLocalBare r = return [] | otherwise = do (bad, good, cleanup) <- partitionIndex missing r unless (null bad) $ do nukeFile (localGitDir r "index") UpdateIndex.streamUpdateIndex r =<< (catMaybes <$> mapM reinject good) void cleanup return $ map fst3 bad where reinject (file, Just sha, Just mode) = case toBlobType mode of Nothing -> return Nothing Just blobtype -> Just <$> UpdateIndex.stageFile sha blobtype file r reinject _ = return Nothing newtype GoodCommits = GoodCommits (S.Set Sha) emptyGoodCommits :: GoodCommits emptyGoodCommits = GoodCommits S.empty checkGoodCommit :: Sha -> GoodCommits -> Bool checkGoodCommit sha (GoodCommits s) = S.member sha s addGoodCommits :: [Sha] -> GoodCommits -> GoodCommits addGoodCommits shas (GoodCommits s) = GoodCommits $ S.union s (S.fromList shas) displayList :: [String] -> String -> IO () displayList items header | null items = return () | otherwise = do putStrLn header putStr $ unlines $ map (\i -> "\t" ++ i) truncateditems where numitems = length items truncateditems | numitems > 10 = take 10 items ++ ["(and " ++ show (numitems - 10) ++ " more)"] | otherwise = items {- Put it all together. -} runRepair :: Bool -> Repo -> IO (Bool, MissingObjects, [Branch]) runRepair forced g = do putStrLn "Running git fsck ..." fsckresult <- findBroken False g if foundBroken fsckresult then runRepairOf fsckresult forced g else do putStrLn "No problems found." return (True, S.empty, []) runRepairOf :: FsckResults -> Bool -> Repo -> IO (Bool, MissingObjects, [Branch]) runRepairOf fsckresult forced g = do missing <- cleanCorruptObjects fsckresult g stillmissing <- retrieveMissingObjects missing g if S.null stillmissing then successfulfinish stillmissing [] else do putStrLn $ unwords [ show (S.size stillmissing) , "missing objects could not be recovered!" ] if forced then continuerepairs stillmissing else unsuccessfulfinish stillmissing where continuerepairs stillmissing = do (remotebranches, goodcommits) <- removeTrackingBranches stillmissing emptyGoodCommits g unless (null remotebranches) $ putStrLn $ unwords [ "removed" , show (length remotebranches) , "remote tracking branches that referred to missing objects" ] (resetbranches, deletedbranches, _) <- resetLocalBranches stillmissing goodcommits g displayList (map show resetbranches) "Reset these local branches to old versions before the missing objects were committed:" displayList (map show deletedbranches) "Deleted these local branches, which could not be recovered due to missing objects:" deindexedfiles <- rewriteIndex stillmissing g displayList deindexedfiles "Removed these missing files from the index. You should look at what files are present in your working tree and git add them back to the index when appropriate." let modifiedbranches = resetbranches ++ deletedbranches if null resetbranches && null deletedbranches then successfulfinish stillmissing modifiedbranches else do unless (repoIsLocalBare g) $ do mcurr <- Branch.currentUnsafe g case mcurr of Nothing -> return () Just curr -> when (any (== curr) modifiedbranches) $ do putStrLn $ unwords [ "You currently have" , show curr , "checked out. You may have staged changes in the index that can be committed to recover the lost state of this branch!" ] putStrLn "Successfully recovered repository!" putStrLn "Please carefully check that the changes mentioned above are ok.." return (True, stillmissing, modifiedbranches) successfulfinish stillmissing modifiedbranches = do mapM_ putStrLn [ "Successfully recovered repository!" , "You should run \"git fsck\" to make sure, but it looks like" , "everything was recovered ok." ] return (True, stillmissing, modifiedbranches) unsuccessfulfinish stillmissing = do if repoIsLocalBare g then do putStrLn "If you have a clone of this bare repository, you should add it as a remote of this repository, and re-run git-recover-repository." putStrLn "If there are no clones of this repository, you can instead run git-recover-repository with the --force parameter to force recovery to a possibly usable state." else putStrLn "To force a recovery to a usable state, run this command again with the --force parameter." return (False, stillmissing, [])