479 lines
17 KiB
Haskell
479 lines
17 KiB
Haskell
{- Sqlite database of information about Keys
|
|
-
|
|
- Copyright 2015-2021 Joey Hess <id@joeyh.name>
|
|
-
|
|
- Licensed under the GNU AGPL version 3 or higher.
|
|
-}
|
|
|
|
{-# LANGUAGE ScopedTypeVariables #-}
|
|
{-# LANGUAGE OverloadedStrings #-}
|
|
{-# LANGUAGE BangPatterns #-}
|
|
|
|
module Database.Keys (
|
|
DbHandle,
|
|
closeDb,
|
|
addAssociatedFile,
|
|
getAssociatedFiles,
|
|
getAssociatedFilesIncluding,
|
|
getAssociatedKey,
|
|
removeAssociatedFile,
|
|
storeInodeCaches,
|
|
addInodeCaches,
|
|
getInodeCaches,
|
|
removeInodeCaches,
|
|
removeInodeCache,
|
|
isInodeKnown,
|
|
runWriter,
|
|
) where
|
|
|
|
import qualified Database.Keys.SQL as SQL
|
|
import Database.Types
|
|
import Database.Keys.Handle
|
|
import qualified Database.Queue as H
|
|
import Database.Init
|
|
import Annex.Locations
|
|
import Annex.Common hiding (delete)
|
|
import qualified Annex
|
|
import Annex.LockFile
|
|
import Annex.Content.PointerFile
|
|
import Annex.Content.Presence.LowLevel
|
|
import Annex.Link (Restage(..), maxPointerSz, parseLinkTargetOrPointerLazy)
|
|
import Utility.InodeCache
|
|
import Annex.InodeSentinal
|
|
import Git
|
|
import Git.FilePath
|
|
import Git.Command
|
|
import Git.Types
|
|
import Git.Index
|
|
import Git.Sha
|
|
import Git.CatFile
|
|
import Git.Branch (writeTreeQuiet, update')
|
|
import qualified Git.Ref
|
|
import qualified Git.Config
|
|
import Config.Smudge
|
|
import qualified Utility.RawFilePath as R
|
|
|
|
import qualified Data.ByteString as S
|
|
import qualified Data.ByteString.Char8 as S8
|
|
import qualified System.FilePath.ByteString as P
|
|
import Control.Concurrent.Async
|
|
|
|
{- Runs an action that reads from the database.
|
|
-
|
|
- If the database is already open, any writes are flushed to it, to ensure
|
|
- consistency.
|
|
-
|
|
- Any queued writes will be flushed before the read.
|
|
-}
|
|
runReader :: Monoid v => (SQL.ReadHandle -> Annex v) -> Annex v
|
|
runReader a = do
|
|
h <- Annex.getRead Annex.keysdbhandle
|
|
withDbState h go
|
|
where
|
|
go DbUnavailable = return (mempty, DbUnavailable)
|
|
go st@(DbOpen qh) = do
|
|
liftIO $ H.flushDbQueue qh
|
|
v <- a (SQL.ReadHandle qh)
|
|
return (v, st)
|
|
go DbClosed = do
|
|
st' <- openDb False DbClosed
|
|
v <- case st' of
|
|
(DbOpen qh) -> a (SQL.ReadHandle qh)
|
|
_ -> return mempty
|
|
return (v, st')
|
|
|
|
runReaderIO :: Monoid v => (SQL.ReadHandle -> IO v) -> Annex v
|
|
runReaderIO a = runReader (liftIO . a)
|
|
|
|
{- Runs an action that writes to the database. Typically this is used to
|
|
- queue changes, which will be flushed at a later point.
|
|
-
|
|
- The database is created if it doesn't exist yet. -}
|
|
runWriter :: (SQL.WriteHandle -> Annex ()) -> Annex ()
|
|
runWriter a = do
|
|
h <- Annex.getRead Annex.keysdbhandle
|
|
withDbState h go
|
|
where
|
|
go st@(DbOpen qh) = do
|
|
v <- a (SQL.WriteHandle qh)
|
|
return (v, st)
|
|
go st = do
|
|
st' <- openDb True st
|
|
v <- case st' of
|
|
DbOpen qh -> a (SQL.WriteHandle qh)
|
|
_ -> error "internal"
|
|
return (v, st')
|
|
|
|
runWriterIO :: (SQL.WriteHandle -> IO ()) -> Annex ()
|
|
runWriterIO a = runWriter (liftIO . a)
|
|
|
|
{- Opens the database, creating it if it doesn't exist yet.
|
|
-
|
|
- Multiple readers and writers can have the database open at the same
|
|
- time. Database.Handle deals with the concurrency issues.
|
|
- The lock is held while opening the database, so that when
|
|
- the database doesn't exist yet, one caller wins the lock and
|
|
- can create it undisturbed.
|
|
-}
|
|
openDb :: Bool -> DbState -> Annex DbState
|
|
openDb _ st@(DbOpen _) = return st
|
|
openDb False DbUnavailable = return DbUnavailable
|
|
openDb forwrite _ = catchPermissionDenied permerr $ withExclusiveLock gitAnnexKeysDbLock $ do
|
|
dbdir <- fromRepo gitAnnexKeysDb
|
|
let db = dbdir P.</> "db"
|
|
dbexists <- liftIO $ R.doesPathExist db
|
|
case dbexists of
|
|
True -> open db
|
|
False -> do
|
|
initDb db SQL.createTables
|
|
open db
|
|
where
|
|
-- If permissions don't allow opening the database, and it's being
|
|
-- opened for read, treat it as if it does not exist.
|
|
permerr e
|
|
| forwrite = throwM e
|
|
| otherwise = return DbUnavailable
|
|
|
|
open db = do
|
|
qh <- liftIO $ H.openDbQueue db SQL.containedTable
|
|
reconcileStaged qh
|
|
return $ DbOpen qh
|
|
|
|
{- Closes the database if it was open. Any writes will be flushed to it.
|
|
-
|
|
- This does not normally need to be called; the database will auto-close
|
|
- when the handle is garbage collected. However, this can be used to
|
|
- force a re-read of the database, in case another process has written
|
|
- data to it.
|
|
-}
|
|
closeDb :: Annex ()
|
|
closeDb = liftIO . closeDbHandle =<< Annex.getRead Annex.keysdbhandle
|
|
|
|
addAssociatedFile :: Key -> TopFilePath -> Annex ()
|
|
addAssociatedFile k f = runWriterIO $ SQL.addAssociatedFile k f
|
|
|
|
{- Note that the files returned were once associated with the key, but
|
|
- some of them may not be any longer. -}
|
|
getAssociatedFiles :: Key -> Annex [TopFilePath]
|
|
getAssociatedFiles k = emptyWhenBare $ runReaderIO $ SQL.getAssociatedFiles k
|
|
|
|
{- Queries for associated files never return anything when in a bare
|
|
- repository, since without a work tree there can be no associated files.
|
|
-
|
|
- Normally the keys database is not even populated with associated files
|
|
- in a bare repository, but it might happen if a non-bare repo got
|
|
- converted to bare. -}
|
|
emptyWhenBare :: Annex [a] -> Annex [a]
|
|
emptyWhenBare a = ifM (Git.Config.isBare <$> gitRepo)
|
|
( return []
|
|
, a
|
|
)
|
|
|
|
{- Include a known associated file along with any recorded in the database. -}
|
|
getAssociatedFilesIncluding :: AssociatedFile -> Key -> Annex [RawFilePath]
|
|
getAssociatedFilesIncluding afile k = emptyWhenBare $ do
|
|
g <- Annex.gitRepo
|
|
l <- map (`fromTopFilePath` g) <$> getAssociatedFiles k
|
|
return $ case afile of
|
|
AssociatedFile (Just f) -> f : filter (/= f) l
|
|
AssociatedFile Nothing -> l
|
|
|
|
{- Gets any keys that are on record as having a particular associated file.
|
|
- (Should be one or none but the database doesn't enforce that.) -}
|
|
getAssociatedKey :: TopFilePath -> Annex [Key]
|
|
getAssociatedKey f = emptyWhenBare $ runReaderIO $ SQL.getAssociatedKey f
|
|
|
|
removeAssociatedFile :: Key -> TopFilePath -> Annex ()
|
|
removeAssociatedFile k = runWriterIO . SQL.removeAssociatedFile k
|
|
|
|
{- Stats the files, and stores their InodeCaches. -}
|
|
storeInodeCaches :: Key -> [RawFilePath] -> Annex ()
|
|
storeInodeCaches k fs = withTSDelta $ \d ->
|
|
addInodeCaches k . catMaybes
|
|
=<< liftIO (mapM (\f -> genInodeCache f d) fs)
|
|
|
|
addInodeCaches :: Key -> [InodeCache] -> Annex ()
|
|
addInodeCaches k is = runWriterIO $ SQL.addInodeCaches k is
|
|
|
|
{- A key may have multiple InodeCaches; one for the annex object, and one
|
|
- for each pointer file that is a copy of it.
|
|
-
|
|
- When there are no pointer files, the annex object typically does not
|
|
- have its InodeCache recorded either, so the list will be empty.
|
|
-
|
|
- Note that, in repos upgraded from v7, there may be InodeCaches recorded
|
|
- for pointer files, but none recorded for the annex object.
|
|
-}
|
|
getInodeCaches :: Key -> Annex [InodeCache]
|
|
getInodeCaches = runReaderIO . SQL.getInodeCaches
|
|
|
|
{- Remove all inodes cached for a key. -}
|
|
removeInodeCaches :: Key -> Annex ()
|
|
removeInodeCaches = runWriterIO . SQL.removeInodeCaches
|
|
|
|
{- Remove cached inodes, for any key. -}
|
|
removeInodeCache :: InodeCache -> Annex ()
|
|
removeInodeCache = runWriterIO . SQL.removeInodeCache
|
|
|
|
isInodeKnown :: InodeCache -> SentinalStatus -> Annex Bool
|
|
isInodeKnown i s = or <$> runReaderIO ((:[]) <$$> SQL.isInodeKnown i s)
|
|
|
|
{- Looks at staged changes to annexed files, and updates the keys database,
|
|
- so that its information is consistent with the state of the repository.
|
|
-
|
|
- This is run with a lock held, so only one process can be running this at
|
|
- a time.
|
|
-
|
|
- To avoid unncessary work, the index file is statted, and if it's not
|
|
- changed since last time this was run, nothing is done.
|
|
-
|
|
- A tree is generated from the index, and the diff between that tree
|
|
- and the last processed tree is examined for changes.
|
|
-
|
|
- This also cleans up after a race between eg a git mv and git-annex
|
|
- get/drop/similar. If git moves a pointer file between this being run and the
|
|
- get/drop, the moved pointer file won't be updated for the get/drop.
|
|
- The next time this runs, it will see the staged change. It then checks
|
|
- if the pointer file needs to be updated to contain or not contain the
|
|
- annex content.
|
|
-
|
|
- Note: There is a situation where, after this has run, the database can
|
|
- still contain associated files that have been deleted from the index.
|
|
- That happens when addAssociatedFile is used to record a newly
|
|
- added file, but that file then gets removed from the index before
|
|
- this is run. Eg, "git-annex add foo; git rm foo"
|
|
- So when using getAssociatedFiles, have to make sure the file still
|
|
- is an associated file.
|
|
-}
|
|
reconcileStaged :: H.DbQueue -> Annex ()
|
|
reconcileStaged qh = unlessM (Git.Config.isBare <$> gitRepo) $ do
|
|
gitindex <- inRepo currentIndexFile
|
|
indexcache <- fromRawFilePath <$> fromRepo gitAnnexKeysDbIndexCache
|
|
withTSDelta (liftIO . genInodeCache gitindex) >>= \case
|
|
Just cur -> readindexcache indexcache >>= \case
|
|
Nothing -> go cur indexcache =<< getindextree
|
|
Just prev -> ifM (compareInodeCaches prev cur)
|
|
( noop
|
|
, go cur indexcache =<< getindextree
|
|
)
|
|
Nothing -> noop
|
|
where
|
|
lastindexref = Ref "refs/annex/last-index"
|
|
|
|
readindexcache indexcache = liftIO $ maybe Nothing readInodeCache
|
|
<$> catchMaybeIO (readFile indexcache)
|
|
|
|
getoldtree = fromMaybe emptyTree <$> inRepo (Git.Ref.sha lastindexref)
|
|
|
|
go cur indexcache (Just newtree) = do
|
|
oldtree <- getoldtree
|
|
when (oldtree /= newtree) $ do
|
|
fastDebug "Database.Keys" "reconcileStaged start"
|
|
g <- Annex.gitRepo
|
|
void $ catstream $ \mdfeeder ->
|
|
void $ updatetodiff g
|
|
(Just (fromRef oldtree))
|
|
(fromRef newtree)
|
|
(procdiff mdfeeder)
|
|
liftIO $ writeFile indexcache $ showInodeCache cur
|
|
-- Storing the tree in a ref makes sure it does not
|
|
-- get garbage collected, and is available to diff
|
|
-- against next time.
|
|
inRepo $ update' lastindexref newtree
|
|
fastDebug "Database.Keys" "reconcileStaged end"
|
|
-- git write-tree will fail if the index is locked or when there is
|
|
-- a merge conflict. To get up-to-date with the current index,
|
|
-- diff --staged with the old index tree. The current index tree
|
|
-- is not known, so not recorded, and the inode cache is not updated,
|
|
-- so the next time git-annex runs, it will diff again, even
|
|
-- if the index is unchanged.
|
|
--
|
|
-- When there is a merge conflict, that will not see the new local
|
|
-- version of the files that are conflicted. So a second diff
|
|
-- is done, with --staged but no old tree.
|
|
go _ _ Nothing = do
|
|
fastDebug "Database.Keys" "reconcileStaged start (in conflict)"
|
|
oldtree <- getoldtree
|
|
g <- Annex.gitRepo
|
|
catstream $ \mdfeeder -> do
|
|
conflicted <- updatetodiff g
|
|
(Just (fromRef oldtree)) "--staged" (procdiff mdfeeder)
|
|
when conflicted $
|
|
void $ updatetodiff g Nothing "--staged"
|
|
(procmergeconflictdiff mdfeeder)
|
|
fastDebug "Database.Keys" "reconcileStaged end"
|
|
|
|
updatetodiff g old new processor = do
|
|
(l, cleanup) <- pipeNullSplit' (diff old new) g
|
|
processor l False
|
|
`finally` void cleanup
|
|
|
|
-- Avoid running smudge clean filter, which would block trying to
|
|
-- access the locked database. git write-tree sometimes calls it,
|
|
-- even though it is not adding work tree files to the index,
|
|
-- and so the filter cannot have an effect on the contents of the
|
|
-- index or on the tree that gets written from it.
|
|
getindextree = inRepo $ \r -> writeTreeQuiet $ r
|
|
{ gitGlobalOpts = gitGlobalOpts r ++ bypassSmudgeConfig }
|
|
|
|
diff old new =
|
|
-- Avoid running smudge clean filter, since we want the
|
|
-- raw output, and it would block trying to access the
|
|
-- locked database. The --raw normally avoids git diff
|
|
-- running them, but older versions of git need this.
|
|
bypassSmudgeConfig ++
|
|
-- Avoid using external diff command, which would be slow.
|
|
-- (The -G option may make it be used otherwise.)
|
|
[ Param "-c", Param "diff.external="
|
|
, Param "diff"
|
|
] ++ maybeToList (Param <$> old) ++
|
|
[ Param new
|
|
, Param "--raw"
|
|
, Param "-z"
|
|
, Param "--no-abbrev"
|
|
-- Optimization: Limit to pointer files and annex symlinks.
|
|
-- This is not perfect. A file could contain with this and not
|
|
-- be a pointer file. And a pointer file that is replaced with
|
|
-- a non-pointer file will match this. This is only a
|
|
-- prefilter so that's ok.
|
|
, Param $ "-G" ++ fromRawFilePath (toInternalGitPath $
|
|
P.pathSeparator `S.cons` objectDir)
|
|
-- Disable rename detection.
|
|
, Param "--no-renames"
|
|
-- Avoid other complications.
|
|
, Param "--ignore-submodules=all"
|
|
-- Avoid using external textconv command, which would be slow
|
|
-- and possibly wrong.
|
|
, Param "--no-textconv"
|
|
, Param "--no-ext-diff"
|
|
]
|
|
|
|
procdiff mdfeeder (info:file:rest) conflicted
|
|
| ":" `S.isPrefixOf` info = case S8.words info of
|
|
(_colonsrcmode:dstmode:srcsha:dstsha:status:[]) -> do
|
|
let conflicted' = status == "U"
|
|
-- avoid removing associated file when
|
|
-- there is a merge conflict
|
|
unless conflicted' $
|
|
send mdfeeder (Ref srcsha) $ \case
|
|
Just oldkey -> do
|
|
liftIO $ SQL.removeAssociatedFile oldkey
|
|
(asTopFilePath file)
|
|
(SQL.WriteHandle qh)
|
|
return True
|
|
Nothing -> return False
|
|
send mdfeeder (Ref dstsha) $ \case
|
|
Just key -> do
|
|
liftIO $ SQL.addAssociatedFile key
|
|
(asTopFilePath file)
|
|
(SQL.WriteHandle qh)
|
|
when (dstmode /= fmtTreeItemType TreeSymlink) $
|
|
reconcilepointerfile (asTopFilePath file) key
|
|
return True
|
|
Nothing -> return False
|
|
procdiff mdfeeder rest
|
|
(conflicted || conflicted')
|
|
_ -> return conflicted -- parse failed
|
|
procdiff _ _ conflicted = return conflicted
|
|
|
|
-- Processing a diff --index when there is a merge conflict.
|
|
-- This diff will have the new local version of a file as the
|
|
-- first sha, and a null sha as the second sha, and we only
|
|
-- care about files that are in conflict.
|
|
procmergeconflictdiff mdfeeder (info:file:rest) conflicted
|
|
| ":" `S.isPrefixOf` info = case S8.words info of
|
|
(_colonmode:_mode:sha:_sha:status:[]) -> do
|
|
send mdfeeder (Ref sha) $ \case
|
|
Just key -> do
|
|
liftIO $ SQL.addAssociatedFile key
|
|
(asTopFilePath file)
|
|
(SQL.WriteHandle qh)
|
|
return True
|
|
Nothing -> return False
|
|
let conflicted' = status == "U"
|
|
procmergeconflictdiff mdfeeder rest
|
|
(conflicted || conflicted')
|
|
_ -> return conflicted -- parse failed
|
|
procmergeconflictdiff _ _ conflicted = return conflicted
|
|
|
|
reconcilepointerfile file key = do
|
|
ics <- liftIO $ SQL.getInodeCaches key (SQL.ReadHandle qh)
|
|
obj <- calcRepo (gitAnnexLocation key)
|
|
mobjic <- withTSDelta (liftIO . genInodeCache obj)
|
|
let addinodecaches k v = liftIO $
|
|
SQL.addInodeCaches k v (SQL.WriteHandle qh)
|
|
-- Like inAnnex, check the annex object is unmodified
|
|
-- when annex.thin is set.
|
|
keypopulated <- ifM (annexThin <$> Annex.getGitConfig)
|
|
( case mobjic of
|
|
Just objic -> isUnmodifiedLowLevel addinodecaches key obj objic ics
|
|
Nothing -> pure False
|
|
, pure (isJust mobjic)
|
|
)
|
|
p <- fromRepo $ fromTopFilePath file
|
|
filepopulated <- sameInodeCache p ics
|
|
case (keypopulated, filepopulated) of
|
|
(True, False) ->
|
|
populatePointerFile (Restage True) key obj p >>= \case
|
|
Nothing -> return ()
|
|
Just ic -> addinodecaches key
|
|
(catMaybes [Just ic, mobjic])
|
|
(False, True) -> depopulatePointerFile key p
|
|
_ -> return ()
|
|
|
|
send :: ((Maybe Key -> Annex a, Ref) -> IO ()) -> Ref -> (Maybe Key -> Annex a) -> IO ()
|
|
send feeder r withk = feeder (withk, r)
|
|
|
|
-- Streaming through git cat-file like this is significantly
|
|
-- faster than using catKey.
|
|
catstream a = do
|
|
g <- Annex.gitRepo
|
|
catObjectMetaDataStream g $ \mdfeeder mdcloser mdreader ->
|
|
catObjectStream g $ \catfeeder catcloser catreader -> do
|
|
feedt <- liftIO $ async $
|
|
a mdfeeder
|
|
`finally` void mdcloser
|
|
proct <- liftIO $ async $
|
|
procthread mdreader catfeeder
|
|
`finally` void catcloser
|
|
dbchanged <- dbwriter False largediff catreader
|
|
-- Flush database changes now
|
|
-- so other processes can see them.
|
|
when dbchanged $
|
|
liftIO $ H.flushDbQueue qh
|
|
() <- liftIO $ wait feedt
|
|
liftIO $ wait proct
|
|
return ()
|
|
where
|
|
procthread mdreader catfeeder = mdreader >>= \case
|
|
Just (ka, Just (sha, size, _type))
|
|
| size <= fromIntegral maxPointerSz -> do
|
|
() <- catfeeder (ka, sha)
|
|
procthread mdreader catfeeder
|
|
Just _ -> procthread mdreader catfeeder
|
|
Nothing -> return ()
|
|
|
|
dbwriter dbchanged n catreader = liftIO catreader >>= \case
|
|
Just (ka, content) -> do
|
|
changed <- ka (parseLinkTargetOrPointerLazy =<< content)
|
|
!n' <- countdownToMessage n
|
|
dbwriter (dbchanged || changed) n' catreader
|
|
Nothing -> return dbchanged
|
|
|
|
-- When the diff is large, the scan can take a while,
|
|
-- so let the user know what's going on.
|
|
countdownToMessage n
|
|
| n < 1 = return 0
|
|
| n == 1 = do
|
|
showSideAction "scanning for annexed files"
|
|
return 0
|
|
| otherwise = return (pred n)
|
|
|
|
-- How large is large? Too large and there will be a long
|
|
-- delay before the message is shown; too short and the message
|
|
-- will clutter things up unncessarily. It's uncommon for 1000
|
|
-- files to change in the index, and processing that many files
|
|
-- takes less than half a second, so that seems about right.
|
|
largediff :: Int
|
|
largediff = 1000
|
|
|