git-annex/Command/Fsck.hs
Joey Hess f6cf2dec4c
disk free checking for unsized keys
Improve disk free space checking when transferring unsized keys to
local git remotes. Since the size of the object file is known, can
check that instead.

Getting unsized keys from local git remotes does not check the actual
object size. It would be harder to handle that direction because the size
check is run locally, before anything involving the remote is done. So it
doesn't know the size of the file on the remote.

Also, transferring unsized keys to other remotes, including ssh remotes and
p2p remotes don't do disk size checking for unsized keys. This would need a
change in protocol.

(It does seem like it would be possible to implement the same thing for
directory special remotes though.)

In some sense, it might be better to not ever do disk free checking for
unsized keys, than to do it only sometimes. A user might notice this
direction working and consider it a bug that the other direction does not.
On the other hand, disk reserve checking is not implemented for most
special remotes at all, and yet it is implemented for a few, which is also
inconsistent, but best effort. And so doing this best effort seems to make
some sense. Fundamentally, if the user wants the size to always be checked,
they should not use unsized keys.

Sponsored-by: Brock Spratlen on Patreon
2024-01-16 14:29:10 -04:00

758 lines
26 KiB
Haskell

{- git-annex command
-
- Copyright 2010-2022 Joey Hess <id@joeyh.name>
-
- Licensed under the GNU AGPL version 3 or higher.
-}
{-# LANGUAGE CPP #-}
{-# LANGUAGE OverloadedStrings #-}
module Command.Fsck where
import Command
import qualified Annex
import qualified Remote
import qualified Types.Backend
import qualified Backend
import Annex.Content
#ifndef mingw32_HOST_OS
import Annex.Version
import Annex.Content.Presence
#endif
import Annex.Content.Presence.LowLevel
import Annex.Perms
import Annex.Link
import Logs.Location
import Logs.Trust
import Logs.Activity
import Utility.TimeStamp
import Logs.PreferredContent
import Annex.NumCopies
import Annex.UUID
import Annex.ReplaceFile
import Utility.DataUnits
import Utility.HumanTime
import Utility.CopyFile
import Git.FilePath
import Utility.PID
import Utility.InodeCache
import Annex.InodeSentinal
import qualified Database.Keys
import qualified Database.Fsck as FsckDb
import Types.CleanupActions
import Types.Key
import qualified Utility.RawFilePath as R
import Data.Time.Clock.POSIX
import System.Posix.Types (EpochTime)
import qualified Data.Set as S
import qualified Data.Map as M
import Data.Either
import qualified System.FilePath.ByteString as P
import System.PosixCompat.Files (fileMode, isSymbolicLink, modificationTime)
cmd :: Command
cmd = withAnnexOptions [jobsOption, jsonOptions, annexedMatchingOptions] $
command "fsck" SectionMaintenance
"find and fix problems"
paramPaths (seek <$$> optParser)
data FsckOptions = FsckOptions
{ fsckFiles :: CmdParams
, fsckFromOption :: Maybe (DeferredParse Remote)
, incrementalOpt :: Maybe IncrementalOpt
, keyOptions :: Maybe KeyOptions
}
data IncrementalOpt
= StartIncrementalO
| MoreIncrementalO
| ScheduleIncrementalO Duration
optParser :: CmdParamsDesc -> Parser FsckOptions
optParser desc = FsckOptions
<$> cmdParams desc
<*> optional (mkParseRemoteOption <$> strOption
( long "from" <> short 'f' <> metavar paramRemote
<> help "check remote"
<> completeRemotes
))
<*> optional parseincremental
<*> optional parseKeyOptions
where
parseincremental =
flag' StartIncrementalO
( long "incremental" <> short 'S'
<> help "start an incremental fsck"
)
<|> flag' MoreIncrementalO
( long "more" <> short 'm'
<> help "continue an incremental fsck"
)
<|> (ScheduleIncrementalO <$> option (eitherReader parseDuration)
( long "incremental-schedule" <> metavar paramTime
<> help "schedule incremental fscking"
))
seek :: FsckOptions -> CommandSeek
seek o = startConcurrency commandStages $ do
from <- maybe (pure Nothing) (Just <$$> getParsed) (fsckFromOption o)
u <- maybe getUUID (pure . Remote.uuid) from
checkDeadRepo u
i <- prepIncremental u (incrementalOpt o)
let seeker = AnnexedFileSeeker
{ startAction = const $ start from i
, checkContentPresent = Nothing
, usesLocationLog = True
}
withKeyOptions (keyOptions o) False seeker
(\kai -> commandAction . startKey from i kai =<< getNumCopies)
(withFilesInGitAnnex ww seeker)
=<< workTreeItems ww (fsckFiles o)
cleanupIncremental i
void $ tryIO $ recordActivity Fsck u
where
ww = WarnUnmatchLsFiles "fsck"
checkDeadRepo :: UUID -> Annex ()
checkDeadRepo u =
whenM ((==) DeadTrusted <$> lookupTrust u) $
earlyWarning "Warning: Fscking a repository that is currently marked as dead."
start :: Maybe Remote -> Incremental -> SeekInput -> RawFilePath -> Key -> CommandStart
start from inc si file key = Backend.getBackend (fromRawFilePath file) key >>= \case
Nothing -> stop
Just backend -> do
(numcopies, _mincopies) <- getFileNumMinCopies file
case from of
Nothing -> go $ perform key file backend numcopies
Just r -> go $ performRemote key afile backend numcopies r
where
go = runFsck inc si (mkActionItem (key, afile)) key
afile = AssociatedFile (Just file)
perform :: Key -> RawFilePath -> Backend -> NumCopies -> Annex Bool
perform key file backend numcopies = do
keystatus <- getKeyFileStatus key file
check
-- order matters
[ fixLink key file
, fixObjectLocation key
, verifyLocationLog key keystatus ai
, verifyRequiredContent key ai
, verifyAssociatedFiles key keystatus file
, verifyWorkTree key file
, checkKeySize key keystatus ai
, checkBackend backend key keystatus afile
, checkKeyUpgrade backend key ai afile
, checkKeyNumCopies key afile numcopies
]
where
afile = AssociatedFile (Just file)
ai = mkActionItem (key, afile)
{- To fsck a remote, the content is retrieved to a tmp file,
- and checked locally. -}
performRemote :: Key -> AssociatedFile -> Backend -> NumCopies -> Remote -> Annex Bool
performRemote key afile backend numcopies remote =
dispatch =<< Remote.hasKey remote key
where
dispatch (Left err) = do
showNote (UnquotedString err)
return False
dispatch (Right True) = withtmp $ \tmpfile ->
getfile tmpfile >>= \case
Nothing -> go True Nothing
Just (Right verification) -> go True (Just (tmpfile, verification))
Just (Left _) -> do
warning $ actionItemDesc ai
<> ": failed to download file from remote"
void $ go True Nothing
return False
dispatch (Right False) = go False Nothing
go present lv = check
[ verifyLocationLogRemote key ai remote present
, verifyRequiredContent key ai
, withLocalCopy (fmap fst lv) $ checkKeySizeRemote key remote ai
, case fmap snd lv of
Just Verified -> return True
_ -> withLocalCopy (fmap fst lv) $
checkBackendRemote backend key remote ai
, checkKeyNumCopies key afile numcopies
]
ai = mkActionItem (key, afile)
withtmp a = do
-- Put it in the gitAnnexTmpObjectDir since that's on a
-- filesystem where object temp files are normally
-- stored. The pid prevents multiple fsck processes
-- contending over the same file. (Multiple threads cannot,
-- because OnlyActionOn is used.)
pid <- liftIO getPID
t <- fromRepo gitAnnexTmpObjectDir
createAnnexDirectory t
let tmp = t P.</> "fsck" <> toRawFilePath (show pid) <> "." <> keyFile key
let cleanup = liftIO $ catchIO (R.removeLink tmp) (const noop)
cleanup
cleanup `after` a tmp
getfile tmp = ifM (checkDiskSpace Nothing (Just (P.takeDirectory tmp)) key 0 True)
( ifM (getcheap tmp)
( return (Just (Right UnVerified))
, ifM (Annex.getRead Annex.fast)
( return Nothing
, Just <$> tryNonAsync (getfile' tmp)
)
)
, return Nothing
)
getfile' tmp = Remote.retrieveKeyFile remote key (AssociatedFile Nothing) (fromRawFilePath tmp) dummymeter (RemoteVerify remote)
dummymeter _ = noop
getcheap tmp = case Remote.retrieveKeyFileCheap remote of
Just a -> isRight <$> tryNonAsync (a key afile (fromRawFilePath tmp))
Nothing -> return False
startKey :: Maybe Remote -> Incremental -> (SeekInput, Key, ActionItem) -> NumCopies -> CommandStart
startKey from inc (si, key, ai) numcopies =
Backend.maybeLookupBackendVariety (fromKey keyVariety key) >>= \case
Nothing -> stop
Just backend -> runFsck inc si ai key $
case from of
Nothing -> performKey key backend numcopies
Just r -> performRemote key (AssociatedFile Nothing) backend numcopies r
performKey :: Key -> Backend -> NumCopies -> Annex Bool
performKey key backend numcopies = do
keystatus <- getKeyStatus key
check
[ verifyLocationLog key keystatus (mkActionItem key)
, checkKeySize key keystatus (mkActionItem key)
, checkBackend backend key keystatus (AssociatedFile Nothing)
, checkKeyNumCopies key (AssociatedFile Nothing) numcopies
]
check :: [Annex Bool] -> Annex Bool
check cs = and <$> sequence cs
{- Checks that symlinks points correctly to the annexed content. -}
fixLink :: Key -> RawFilePath -> Annex Bool
fixLink key file = do
want <- calcRepo $ gitAnnexLink file key
have <- getAnnexLinkTarget file
maybe noop (go want) have
return True
where
go want have
| want /= fromInternalGitPath have = do
showNote "fixing link"
createWorkTreeDirectory (parentDir file)
liftIO $ R.removeLink file
addAnnexLink want file
| otherwise = noop
{- A repository that supports symlinks and is not bare may have in the past
- been bare, or not supported symlinks. If so, the object may be located
- in a directory other than the one where annex symlinks point to. Moves
- the object in that case.
-
- Also if a repository has been converted to bare, or moved to a crippled
- filesystem not supporting symlinks, the object file will be moved
- to the other location.
-}
fixObjectLocation :: Key -> Annex Bool
#ifdef mingw32_HOST_OS
fixObjectLocation _key = do
-- Windows does not allow locked files to be renamed, but annex
-- links are also not used on Windows.
return True
#else
fixObjectLocation key = do
loc <- calcRepo (gitAnnexLocation key)
idealloc <- calcRepo (gitAnnexLocation' (const (pure True)) key)
if loc == idealloc
then return True
else ifM (liftIO $ R.doesPathExist loc)
( moveobjdir loc idealloc
`catchNonAsync` \_e -> return True
, return True
)
where
moveobjdir src dest = do
let srcdir = parentDir src
let destdir = parentDir dest
showNote "normalizing object location"
-- When the content file is moved, it will
-- appear to other processes as if it has been removed.
-- That should never happen to a process that has used
-- lockContentShared, so avoid it by locking the content
-- for removal, although it's not really being removed.
lockContentForRemoval key (return True) $ \_lck -> do
-- Thaw the content directory to allow renaming it.
thawContentDir src
createAnnexDirectory (parentDir destdir)
liftIO $ renameDirectory
(fromRawFilePath srcdir)
(fromRawFilePath destdir)
-- Since the directory was moved, lockContentForRemoval
-- will not be able to remove the lock file it
-- made. So, remove the lock file here.
mlockfile <- contentLockFile key =<< getVersion
liftIO $ maybe noop (removeWhenExistsWith R.removeLink) mlockfile
freezeContentDir dest
cleanObjectDirs src
return True
#endif
{- Checks that the location log reflects the current status of the key,
- in this repository only. -}
verifyLocationLog :: Key -> KeyStatus -> ActionItem -> Annex Bool
verifyLocationLog key keystatus ai = do
obj <- calcRepo (gitAnnexLocation key)
present <- if isKeyUnlockedThin keystatus
then liftIO (doesFileExist (fromRawFilePath obj))
else inAnnex key
u <- getUUID
{- Since we're checking that a key's object file is present, throw
- in a permission fixup here too. -}
when present $ do
void $ tryIO $ case keystatus of
KeyUnlockedThin -> thawContent obj
KeyLockedThin -> thawContent obj
_ -> freezeContent obj
checkContentWritePerm obj >>= \case
Nothing -> warning $ "** Unable to set correct write mode for " <> QuotedPath obj <> " ; perhaps you don't own that file, or perhaps it has an xattr or ACL set"
_ -> return ()
whenM (liftIO $ R.doesPathExist $ parentDir obj) $
freezeContentDir obj
{- Warn when annex.securehashesonly is set and content using an
- insecure hash is present. This should only be able to happen
- if the repository already contained the content before the
- config was set. -}
whenM (pure present <&&> (not <$> Backend.isCryptographicallySecure key)) $
whenM (annexSecureHashesOnly <$> Annex.getGitConfig) $
warning $ "** Despite annex.securehashesonly being set, " <> QuotedPath obj <> " has content present in the annex using an insecure " <> UnquotedString (decodeBS (formatKeyVariety (fromKey keyVariety key))) <> " key"
verifyLocationLog' key ai present u (logChange key u)
verifyLocationLogRemote :: Key -> ActionItem -> Remote -> Bool -> Annex Bool
verifyLocationLogRemote key ai remote present =
verifyLocationLog' key ai present (Remote.uuid remote)
(Remote.logStatus remote key)
verifyLocationLog' :: Key -> ActionItem -> Bool -> UUID -> (LogStatus -> Annex ()) -> Annex Bool
verifyLocationLog' key ai present u updatestatus = do
uuids <- loggedLocations key
case (present, u `elem` uuids) of
(True, False) -> do
fix InfoPresent
-- There is no data loss, so do not fail.
return True
(False, True) -> do
fix InfoMissing
warning $
"** Based on the location log, " <>
actionItemDesc ai <>
"\n** was expected to be present, " <>
"but its content is missing."
return False
(False, False) -> do
-- When the location log for the key is not present,
-- create it, so that the key will be known.
when (null uuids) $
whenM (not <$> isKnownKey key) $
updatestatus InfoMissing
return True
(True, True) -> return True
where
fix s = do
showNote "fixing location log"
updatestatus s
{- Verifies that all repos that are required to contain the content do,
- checking against the location log. -}
verifyRequiredContent :: Key -> ActionItem -> Annex Bool
verifyRequiredContent key ai@(ActionItemAssociatedFile afile _) = case afile of
-- Can't be checked if there's no associated file.
AssociatedFile Nothing -> return True
AssociatedFile (Just _) -> do
requiredlocs <- S.fromList . M.keys <$> requiredContentMap
if S.null requiredlocs
then return True
else go requiredlocs
where
go requiredlocs = do
presentlocs <- S.fromList <$> loggedLocations key
missinglocs <- filterM
(\u -> isRequiredContent (Just u) S.empty (Just key) afile False)
(S.toList $ S.difference requiredlocs presentlocs)
if null missinglocs
then return True
else do
missingrequired <- Remote.prettyPrintUUIDs "missingrequired" missinglocs
warning $
"** Required content " <>
actionItemDesc ai <>
" is missing from these repositories:\n" <>
UnquotedString missingrequired
return False
verifyRequiredContent _ _ = return True
{- Verifies the associated file records. -}
verifyAssociatedFiles :: Key -> KeyStatus -> RawFilePath -> Annex Bool
verifyAssociatedFiles key keystatus file = do
when (isKeyUnlockedThin keystatus) $ do
f <- inRepo $ toTopFilePath file
afs <- Database.Keys.getAssociatedFiles key
unless (getTopFilePath f `elem` map getTopFilePath afs) $
Database.Keys.addAssociatedFile key f
return True
verifyWorkTree :: Key -> RawFilePath -> Annex Bool
verifyWorkTree key file = do
{- Make sure that a pointer file is replaced with its content,
- when the content is available. -}
mk <- liftIO $ isPointerFile file
case mk of
Just k | k == key -> whenM (inAnnex key) $ do
showNote "fixing worktree content"
replaceWorkTreeFile (fromRawFilePath file) $ \tmp -> do
mode <- liftIO $ catchMaybeIO $ fileMode <$> R.getFileStatus file
ifM (annexThin <$> Annex.getGitConfig)
( void $ linkFromAnnex' key tmp mode
, do
obj <- calcRepo (gitAnnexLocation key)
void $ checkedCopyFile key obj tmp mode
thawContent tmp
)
Database.Keys.storeInodeCaches key [tmp]
_ -> return ()
return True
{- The size of the data for a key is checked against the size encoded in
- the key's metadata, if available.
-
- Not checked when a file is unlocked.
-}
checkKeySize :: Key -> KeyStatus -> ActionItem -> Annex Bool
checkKeySize _ KeyUnlockedThin _ = return True
checkKeySize key _ ai = do
file <- calcRepo $ gitAnnexLocation key
ifM (liftIO $ R.doesPathExist file)
( checkKeySizeOr badContent key file ai
, return True
)
withLocalCopy :: Maybe RawFilePath -> (RawFilePath -> Annex Bool) -> Annex Bool
withLocalCopy Nothing _ = return True
withLocalCopy (Just localcopy) f = f localcopy
checkKeySizeRemote :: Key -> Remote -> ActionItem -> RawFilePath -> Annex Bool
checkKeySizeRemote key remote ai localcopy =
checkKeySizeOr (badContentRemote remote localcopy) key localcopy ai
checkKeySizeOr :: (Key -> Annex String) -> Key -> RawFilePath -> ActionItem -> Annex Bool
checkKeySizeOr bad key file ai = case fromKey keySize key of
Nothing -> return True
Just size -> do
size' <- liftIO $ getFileSize file
comparesizes size size'
where
comparesizes a b = do
let same = a == b
unless same $ badsize a b
return same
badsize a b = do
msg <- bad key
warning $ actionItemDesc ai
<> ": Bad file size ("
<> UnquotedString (compareSizes storageUnits True a b)
<> "); "
<> UnquotedString msg
{- Check for keys that are upgradable.
-
- Warns and suggests the user migrate, but does not migrate itself,
- because migration can cause more disk space to be used, and makes
- worktree changes that need to be committed.
-}
checkKeyUpgrade :: Backend -> Key -> ActionItem -> AssociatedFile -> Annex Bool
checkKeyUpgrade backend key ai (AssociatedFile (Just file)) =
case Types.Backend.canUpgradeKey backend of
Just a | a key -> do
warning $ actionItemDesc ai
<> ": Can be upgraded to an improved key format. "
<> "You can do so by running: git annex migrate --backend="
<> UnquotedByteString (formatKeyVariety (fromKey keyVariety key))
<> " "
<> QuotedPath file
return True
_ -> return True
checkKeyUpgrade _ _ _ (AssociatedFile Nothing) =
-- Don't suggest migrating without a filename, because
-- while possible to do, there is no actual benefit from
-- doing that in this situation.
return True
{- Runs the backend specific check on a key's content object.
-
- When a annex.this is set, an unlocked file may be a hard link to the object.
- Thus when the user modifies the file, the object will be modified and
- not pass the check, and we don't want to find an error in this case.
-}
checkBackend :: Backend -> Key -> KeyStatus -> AssociatedFile -> Annex Bool
checkBackend backend key keystatus afile = do
content <- calcRepo (gitAnnexLocation key)
ifM (pure (isKeyUnlockedThin keystatus) <&&> (not <$> isUnmodified key content))
( nocheck
, do
mic <- withTSDelta (liftIO . genInodeCache content)
ifM (checkBackendOr badContent backend key content ai)
( do
checkInodeCache key content mic ai
return True
, return False
)
)
where
nocheck = return True
ai = mkActionItem (key, afile)
checkBackendRemote :: Backend -> Key -> Remote -> ActionItem -> RawFilePath -> Annex Bool
checkBackendRemote backend key remote ai localcopy =
checkBackendOr (badContentRemote remote localcopy) backend key localcopy ai
checkBackendOr :: (Key -> Annex String) -> Backend -> Key -> RawFilePath -> ActionItem -> Annex Bool
checkBackendOr bad backend key file ai =
case Types.Backend.verifyKeyContent backend of
Just verifier -> do
ok <- verifier key file
unless ok $ do
msg <- bad key
warning $ actionItemDesc ai
<> ": Bad file content; "
<> UnquotedString msg
return ok
Nothing -> return True
{- Check, if there are InodeCaches recorded for a key, that one of them
- matches the object file. There are situations where the InodeCache
- of the object file does not get recorded, including a v8 upgrade.
- There may also be situations where the wrong InodeCache is recorded,
- if inodes are not stable.
-
- This must be called after the content of the object file has been
- verified to be correct. The InodeCache is generated again to detect if
- the object file was changed while the content was being verified.
-}
checkInodeCache :: Key -> RawFilePath -> Maybe InodeCache -> ActionItem -> Annex ()
checkInodeCache key content mic ai = case mic of
Nothing -> noop
Just ic -> do
ics <- Database.Keys.getInodeCaches key
unless (null ics) $
unlessM (isUnmodifiedCheapLowLevel ic ics) $ do
withTSDelta (liftIO . genInodeCache content) >>= \case
Nothing -> noop
Just ic' -> whenM (compareInodeCaches ic ic') $ do
warning $ actionItemDesc ai
<> ": Stale or missing inode cache; updating."
Database.Keys.addInodeCaches key [ic]
checkKeyNumCopies :: Key -> AssociatedFile -> NumCopies -> Annex Bool
checkKeyNumCopies key afile numcopies = do
let (desc, hasafile) = case afile of
AssociatedFile Nothing -> (serializeKey' key, False)
AssociatedFile (Just af) -> (af, True)
locs <- loggedLocations key
(untrustedlocations, otherlocations) <- trustPartition UnTrusted locs
(deadlocations, safelocations) <- trustPartition DeadTrusted otherlocations
let present = length safelocations
if present < fromNumCopies numcopies
then ifM (checkDead key)
( do
showLongNote $ "This key is dead, skipping."
return True
, do
untrusted <- Remote.prettyPrintUUIDs "untrusted" untrustedlocations
dead <- Remote.prettyPrintUUIDs "dead" deadlocations
warning $ missingNote desc present numcopies untrusted dead
when (present == 0 && not hasafile) $
showLongNote "(Avoid this check by running: git annex dead --key )"
return False
)
else return True
missingNote :: RawFilePath -> Int -> NumCopies -> String -> String -> StringContainingQuotedPath
missingNote file 0 _ [] dead =
"** No known copies exist of " <> QuotedPath file <> UnquotedString (honorDead dead)
missingNote file 0 _ untrusted dead =
"Only these untrusted locations may have copies of " <> QuotedPath file <>
"\n" <> UnquotedString untrusted <>
"Back it up to trusted locations with git-annex copy." <> UnquotedString (honorDead dead)
missingNote file present needed [] _ =
"Only " <> UnquotedString (show present) <> " of " <> UnquotedString (show (fromNumCopies needed)) <>
" trustworthy copies exist of " <> QuotedPath file <>
"\nBack it up with git-annex copy."
missingNote file present needed untrusted dead =
missingNote file present needed [] dead <>
"\nThe following untrusted locations may also have copies: " <>
"\n" <> UnquotedString untrusted
honorDead :: String -> String
honorDead dead
| null dead = ""
| otherwise = "\nThese dead repositories used to have copies\n" ++ dead
{- Bad content is moved aside. -}
badContent :: Key -> Annex String
badContent key = do
dest <- moveBad key
return $ "moved to " ++ fromRawFilePath dest
{- Bad content is dropped from the remote. We have downloaded a copy
- from the remote to a temp file already (in some cases, it's just a
- symlink to a file in the remote). To avoid any further data loss,
- that temp file is moved to the bad content directory unless
- the local annex has a copy of the content. -}
badContentRemote :: Remote -> RawFilePath -> Key -> Annex String
badContentRemote remote localcopy key = do
bad <- fromRepo gitAnnexBadDir
let destbad = bad P.</> keyFile key
let destbad' = fromRawFilePath destbad
movedbad <- ifM (inAnnex key <||> liftIO (doesFileExist destbad'))
( return False
, do
createAnnexDirectory (parentDir destbad)
liftIO $ catchDefaultIO False $
ifM (isSymbolicLink <$> R.getSymbolicLinkStatus localcopy)
( copyFileExternal CopyTimeStamps (fromRawFilePath localcopy) destbad'
, do
moveFile localcopy destbad
return True
)
)
dropped <- tryNonAsync (Remote.removeKey remote key)
when (isRight dropped) $
Remote.logStatus remote key InfoMissing
return $ case (movedbad, dropped) of
(True, Right ()) -> "moved from " ++ Remote.name remote ++
" to " ++ fromRawFilePath destbad
(False, Right ()) -> "dropped from " ++ Remote.name remote
(_, Left e) -> "failed to drop from" ++ Remote.name remote ++ ": " ++ show e
runFsck :: Incremental -> SeekInput -> ActionItem -> Key -> Annex Bool -> CommandStart
runFsck inc si ai key a = stopUnless (needFsck inc key) $
starting "fsck" (OnlyActionOn key ai) si $ do
ok <- a
when ok $
recordFsckTime inc key
next $ return ok
{- Check if a key needs to be fscked, with support for incremental fscks. -}
needFsck :: Incremental -> Key -> Annex Bool
needFsck (ScheduleIncremental _ _ i) k = needFsck i k
needFsck (ContIncremental h) key = liftIO $ not <$> FsckDb.inDb h key
needFsck _ _ = return True
recordFsckTime :: Incremental -> Key -> Annex ()
recordFsckTime inc key = withFsckDb inc $ \h -> liftIO $ FsckDb.addDb h key
{- Records the start time of an incremental fsck.
-
- To guard against time stamp damage (for example, if an annex directory
- is copied without -a), the fsckstate file contains a time that should
- be identical to its modification time.
- (This is not possible to do on Windows, and so the timestamp in
- the file will only be equal or greater than the modification time.)
-}
recordStartTime :: UUID -> Annex ()
recordStartTime u = do
f <- fromRepo (gitAnnexFsckState u)
createAnnexDirectory $ parentDir f
liftIO $ removeWhenExistsWith R.removeLink f
liftIO $ withFile (fromRawFilePath f) WriteMode $ \h -> do
#ifndef mingw32_HOST_OS
t <- modificationTime <$> R.getFileStatus f
#else
t <- getPOSIXTime
#endif
hPutStr h $ showTime $ realToFrac t
setAnnexFilePerm f
where
showTime :: POSIXTime -> String
showTime = show
resetStartTime :: UUID -> Annex ()
resetStartTime u = liftIO . removeWhenExistsWith R.removeLink
=<< fromRepo (gitAnnexFsckState u)
{- Gets the incremental fsck start time. -}
getStartTime :: UUID -> Annex (Maybe EpochTime)
getStartTime u = do
f <- fromRepo (gitAnnexFsckState u)
liftIO $ catchDefaultIO Nothing $ do
timestamp <- modificationTime <$> R.getFileStatus f
let fromstatus = Just (realToFrac timestamp)
fromfile <- parsePOSIXTime <$> readFile (fromRawFilePath f)
return $ if matchingtimestamp fromfile fromstatus
then Just timestamp
else Nothing
where
matchingtimestamp fromfile fromstatus =
#ifndef mingw32_HOST_OS
fromfile == fromstatus
#else
fromfile >= fromstatus
#endif
data Incremental
= NonIncremental
| ScheduleIncremental Duration UUID Incremental
| StartIncremental FsckDb.FsckHandle
| ContIncremental FsckDb.FsckHandle
prepIncremental :: UUID -> Maybe IncrementalOpt -> Annex Incremental
prepIncremental _ Nothing = pure NonIncremental
prepIncremental u (Just StartIncrementalO) = do
recordStartTime u
ifM (FsckDb.newPass u)
( StartIncremental <$> openFsckDb u
, giveup "Cannot start a new --incremental fsck pass; another fsck process is already running."
)
prepIncremental u (Just MoreIncrementalO) =
ContIncremental <$> openFsckDb u
prepIncremental u (Just (ScheduleIncrementalO delta)) = do
started <- getStartTime u
i <- prepIncremental u $ Just $ case started of
Nothing -> StartIncrementalO
Just _ -> MoreIncrementalO
return (ScheduleIncremental delta u i)
cleanupIncremental :: Incremental -> Annex ()
cleanupIncremental (ScheduleIncremental delta u i) = do
v <- getStartTime u
case v of
Nothing -> noop
Just started -> do
now <- liftIO getPOSIXTime
when (now - realToFrac started >= durationToPOSIXTime delta) $
resetStartTime u
cleanupIncremental i
cleanupIncremental _ = return ()
openFsckDb :: UUID -> Annex FsckDb.FsckHandle
openFsckDb u = do
h <- FsckDb.openDb u
Annex.addCleanupAction FsckCleanup $
FsckDb.closeDb h
return h
withFsckDb :: Incremental -> (FsckDb.FsckHandle -> Annex ()) -> Annex ()
withFsckDb (ContIncremental h) a = a h
withFsckDb (StartIncremental h) a = a h
withFsckDb NonIncremental _ = noop
withFsckDb (ScheduleIncremental _ _ i) a = withFsckDb i a