{- git-annex command seeking - - These functions find appropriate files or other things based on - the values a user passes to a command, and prepare actions operating - on them. - - Copyright 2010-2020 Joey Hess - - Licensed under the GNU AGPL version 3 or higher. -} {-# LANGUAGE TupleSections #-} module CmdLine.Seek where import Annex.Common import Types.Command import Types.FileMatcher import qualified Annex import qualified Git import qualified Git.LsFiles as LsFiles import qualified Git.LsTree as LsTree import qualified Git.Types as Git import qualified Git.Ref import Git.FilePath import qualified Limit import CmdLine.GitAnnex.Options import Logs import Logs.Unused import Types.Transfer import Logs.Transfer import Remote.List import qualified Remote import Annex.CatFile import Git.CatFile import Annex.CurrentBranch import Annex.Content import Annex.Link import Annex.InodeSentinal import Annex.Concurrent import Annex.CheckIgnore import qualified Annex.Branch import qualified Annex.BranchState import qualified Database.Keys import qualified Utility.RawFilePath as R import Utility.Tuple import CmdLine.Action import Control.Concurrent.Async import System.Posix.Types data AnnexedFileSeeker = AnnexedFileSeeker { startAction :: SeekInput -> RawFilePath -> Key -> CommandStart , checkContentPresent :: Maybe Bool , usesLocationLog :: Bool } withFilesInGitAnnex :: WarnUnmatchWhen -> AnnexedFileSeeker -> WorkTreeItems -> CommandSeek withFilesInGitAnnex ww a l = seekFilteredKeys a $ seekHelper fst3 ww LsFiles.inRepoDetails l withFilesInGitAnnexNonRecursive :: WarnUnmatchWhen -> String -> AnnexedFileSeeker -> WorkTreeItems -> CommandSeek withFilesInGitAnnexNonRecursive ww needforce a (WorkTreeItems l) = ifM (Annex.getState Annex.force) ( withFilesInGitAnnex ww a (WorkTreeItems l) , if null l then giveup needforce else seekFilteredKeys a (getfiles [] l) ) where getfiles c [] = return (reverse c, pure True) getfiles c (p:ps) = do os <- seekOptions ww (fs, cleanup) <- inRepo $ LsFiles.inRepoDetails os [toRawFilePath p] r <- case fs of [f] -> do void $ liftIO $ cleanup fst <$> getfiles ((SeekInput [p], f):c) ps [] -> do void $ liftIO $ cleanup fst <$> getfiles c ps _ -> do void $ liftIO $ cleanup giveup needforce return (r, pure True) withFilesInGitAnnexNonRecursive _ _ _ NoWorkTreeItems = noop withFilesNotInGit :: CheckGitIgnore -> WarnUnmatchWhen -> ((SeekInput, RawFilePath) -> CommandSeek) -> WorkTreeItems -> CommandSeek withFilesNotInGit (CheckGitIgnore ci) ww a l = do force <- Annex.getState Annex.force let include_ignored = force || not ci seekFiltered (const (pure True)) a $ seekHelper id ww (const $ LsFiles.notInRepo [] include_ignored) l withPathContents :: ((FilePath, FilePath) -> CommandSeek) -> CmdParams -> CommandSeek withPathContents a params = do matcher <- Limit.getMatcher forM_ params $ \p -> do fs <- liftIO $ get p forM fs $ \f -> whenM (checkmatch matcher f) $ a f where get p = ifM (isDirectory <$> getFileStatus p) ( map (\f -> (f, makeRelative (parentDir p) f)) <$> dirContentsRecursiveSkipping (".git" `isSuffixOf`) True p , return [(p, takeFileName p)] ) checkmatch matcher (f, relf) = matcher $ MatchingFile $ FileInfo { contentFile = Just (toRawFilePath f) , matchFile = toRawFilePath relf } withWords :: ([String] -> CommandSeek) -> CmdParams -> CommandSeek withWords a params = a params withStrings :: (String -> CommandSeek) -> CmdParams -> CommandSeek withStrings a params = sequence_ $ map a params withPairs :: ((SeekInput, (String, String)) -> CommandSeek) -> CmdParams -> CommandSeek withPairs a params = sequence_ $ map (\p@(x,y) -> a (SeekInput [x,y], p)) (pairs [] params) where pairs c [] = reverse c pairs c (x:y:xs) = pairs ((x,y):c) xs pairs _ _ = giveup "expected pairs" withFilesToBeCommitted :: ((SeekInput, RawFilePath) -> CommandSeek) -> WorkTreeItems -> CommandSeek withFilesToBeCommitted a l = seekFiltered (const (pure True)) a $ seekHelper id WarnUnmatchWorkTreeItems (const LsFiles.stagedNotDeleted) l {- unlocked pointer files that are staged, and whose content has not been - modified-} withUnmodifiedUnlockedPointers :: WarnUnmatchWhen -> ((SeekInput, RawFilePath) -> CommandSeek) -> WorkTreeItems -> CommandSeek withUnmodifiedUnlockedPointers ww a l = seekFiltered (isUnmodifiedUnlocked . snd) a $ seekHelper id ww (const LsFiles.typeChangedStaged) l isUnmodifiedUnlocked :: RawFilePath -> Annex Bool isUnmodifiedUnlocked f = catKeyFile f >>= \case Nothing -> return False Just k -> sameInodeCache f =<< Database.Keys.getInodeCaches k {- Finds files that may be modified. -} withFilesMaybeModified :: WarnUnmatchWhen -> ((SeekInput, RawFilePath) -> CommandSeek) -> WorkTreeItems -> CommandSeek withFilesMaybeModified ww a params = seekFiltered (const (pure True)) a $ seekHelper id ww LsFiles.modified params withKeys :: ((SeekInput, Key) -> CommandSeek) -> CmdParams -> CommandSeek withKeys a ls = sequence_ $ map (\l -> a (SeekInput [l], parse l)) ls where parse p = fromMaybe (giveup "bad key") $ deserializeKey p withNothing :: CommandSeek -> CmdParams -> CommandSeek withNothing a [] = a withNothing _ _ = giveup "This command takes no parameters." {- Handles the --all, --branch, --unused, --failed, --key, and - --incomplete options, which specify particular keys to run an - action on. - - In a bare repo, --all is the default. - - Otherwise falls back to a regular CommandSeek action on - whatever params were passed. -} withKeyOptions :: Maybe KeyOptions -> Bool -> AnnexedFileSeeker -> ((SeekInput, Key, ActionItem) -> CommandSeek) -> (WorkTreeItems -> CommandSeek) -> WorkTreeItems -> CommandSeek withKeyOptions ko auto seeker keyaction = withKeyOptions' ko auto mkkeyaction where mkkeyaction = do matcher <- Limit.getMatcher return $ \v@(_si, k, ai) -> checkseeker k $ let i = case ai of ActionItemBranchFilePath (BranchFilePath _ topf) _ -> MatchingKey k (AssociatedFile $ Just $ getTopFilePath topf) _ -> MatchingKey k (AssociatedFile Nothing) in whenM (matcher i) $ keyaction v checkseeker k a = case checkContentPresent seeker of Nothing -> a Just v -> do present <- inAnnex k when (present == v) a withKeyOptions' :: Maybe KeyOptions -> Bool -> Annex ((SeekInput, Key, ActionItem) -> Annex ()) -> (WorkTreeItems -> CommandSeek) -> WorkTreeItems -> CommandSeek withKeyOptions' ko auto mkkeyaction fallbackaction worktreeitems = do bare <- fromRepo Git.repoIsLocalBare when (auto && bare) $ giveup "Cannot use --auto in a bare repository" case (noworktreeitems, ko) of (True, Nothing) | bare -> noauto runallkeys | otherwise -> fallbackaction worktreeitems (False, Nothing) -> fallbackaction worktreeitems (True, Just WantAllKeys) -> noauto runallkeys (True, Just WantUnusedKeys) -> noauto $ runkeyaction unusedKeys' (True, Just WantFailedTransfers) -> noauto runfailedtransfers (True, Just (WantSpecificKey k)) -> noauto $ runkeyaction (return [k]) (True, Just WantIncompleteKeys) -> noauto $ runkeyaction incompletekeys (True, Just (WantBranchKeys bs)) -> noauto $ runbranchkeys bs (False, Just _) -> giveup "Can only specify one of file names, --all, --branch, --unused, --failed, --key, or --incomplete" where noauto a | auto = giveup "Cannot use --auto with --all or --branch or --unused or --key or --incomplete" | otherwise = a noworktreeitems = case worktreeitems of WorkTreeItems [] -> True WorkTreeItems _ -> False NoWorkTreeItems -> False incompletekeys = staleKeysPrune gitAnnexTmpObjectDir True -- List all location log files on the git-annex branch, -- and use those to get keys. Pass through cat-file -- to get the contents of the location logs, and pre-cache -- those. This significantly speeds up typical operations -- that need to look at the location log for each key. runallkeys = do keyaction <- mkkeyaction config <- Annex.getGitConfig g <- Annex.gitRepo void Annex.Branch.update (l, cleanup) <- inRepo $ LsTree.lsTree LsTree.LsTreeRecursive Annex.Branch.fullname let getk f = fmap (,f) (locationLogFileKey config f) let go reader = liftIO reader >>= \case Nothing -> return () Just ((k, f), content) -> do maybe noop (Annex.BranchState.setCache f) content keyaction (SeekInput [], k, mkActionItem k) go reader catObjectStreamLsTree l (getk . getTopFilePath . LsTree.file) g go liftIO $ void cleanup runkeyaction getks = do keyaction <- mkkeyaction ks <- getks forM_ ks $ \k -> keyaction (SeekInput [], k, mkActionItem k) runbranchkeys bs = do keyaction <- mkkeyaction forM_ bs $ \b -> do (l, cleanup) <- inRepo $ LsTree.lsTree LsTree.LsTreeRecursive b forM_ l $ \i -> catKey (LsTree.sha i) >>= \case Nothing -> noop Just k -> let bfp = mkActionItem (BranchFilePath b (LsTree.file i), k) in keyaction (SeekInput [], k, bfp) unlessM (liftIO cleanup) $ error ("git ls-tree " ++ Git.fromRef b ++ " failed") runfailedtransfers = do keyaction <- mkkeyaction rs <- remoteList ts <- concat <$> mapM (getFailedTransfers . Remote.uuid) rs forM_ ts $ \(t, i) -> keyaction (SeekInput [], transferKey t, mkActionItem (t, i)) seekFiltered :: ((SeekInput, RawFilePath) -> Annex Bool) -> ((SeekInput, RawFilePath) -> CommandSeek) -> Annex ([(SeekInput, RawFilePath)], IO Bool) -> Annex () seekFiltered prefilter a listfs = do matcher <- Limit.getMatcher (fs, cleanup) <- listfs sequence_ (map (process matcher) fs) liftIO $ void cleanup where process matcher v@(_si, f) = whenM (prefilter v) $ whenM (matcher $ MatchingFile $ FileInfo (Just f) f) $ a v data MatcherInfo = MatcherInfo { matcherAction :: MatchInfo -> Annex Bool , matcherNeedsFileName :: Bool , matcherNeedsKey :: Bool , matcherNeedsLocationLog :: Bool } checkMatcherWhen :: MatcherInfo -> Bool -> MatchInfo -> Annex () -> Annex () checkMatcherWhen mi c i a | c = whenM (matcherAction mi i) a | otherwise = a -- This is significantly faster than using lookupKey after seekFiltered, -- because of the way data is streamed through git cat-file. -- -- It can also precache location logs using the same efficient streaming. seekFilteredKeys :: AnnexedFileSeeker -> Annex ([(SeekInput, (RawFilePath, Git.Sha, FileMode))], IO Bool) -> Annex () seekFilteredKeys seeker listfs = do g <- Annex.gitRepo mi <- MatcherInfo <$> Limit.getMatcher <*> Limit.introspect matchNeedsFileName <*> Limit.introspect matchNeedsKey <*> Limit.introspect matchNeedsLocationLog config <- Annex.getGitConfig (l, cleanup) <- listfs catObjectMetaDataStream g $ \mdfeeder mdcloser mdreader -> catObjectStream g $ \ofeeder ocloser oreader -> do processertid <- liftIO . async =<< forkState (process mi ofeeder mdfeeder mdcloser False l) mdprocessertid <- liftIO . async =<< forkState (mdprocess mi mdreader ofeeder ocloser) if usesLocationLog seeker || matcherNeedsLocationLog mi then catObjectStream g $ \lfeeder lcloser lreader -> do precachertid <- liftIO . async =<< forkState (precacher mi config oreader lfeeder lcloser) precachefinisher mi lreader join (liftIO (wait precachertid)) else finisher mi oreader join (liftIO (wait mdprocessertid)) join (liftIO (wait processertid)) liftIO $ void cleanup where finisher mi oreader = liftIO oreader >>= \case Just ((si, f), content) -> do keyaction f mi content $ commandAction . startAction seeker si f finisher mi oreader Nothing -> return () precachefinisher mi lreader = liftIO lreader >>= \case Just ((logf, (si, f), k), logcontent) -> do maybe noop (Annex.BranchState.setCache logf) logcontent checkMatcherWhen mi (matcherNeedsLocationLog mi && not (matcherNeedsFileName mi)) (MatchingKey k (AssociatedFile (Just f))) (commandAction $ startAction seeker si f k) precachefinisher mi lreader Nothing -> return () precacher mi config oreader lfeeder lcloser = liftIO oreader >>= \case Just ((si, f), content) -> do keyaction f mi content $ \k -> let logf = locationLogFile config k ref = Git.Ref.branchFileRef Annex.Branch.fullname logf in liftIO $ lfeeder ((logf, (si, f), k), ref) precacher mi config oreader lfeeder lcloser Nothing -> liftIO $ void lcloser feedmatches mi ofeeder si f sha = checkMatcherWhen mi -- When the matcher needs a key or location log -- (and does not need a worktree filename), it will be -- checked later, to avoid a slow lookup here. (not ((matcherNeedsKey mi || matcherNeedsLocationLog mi) && not (matcherNeedsFileName mi))) (MatchingFile $ FileInfo (Just f) f) (liftIO $ ofeeder ((si, f), sha)) keyaction f mi content a = case parseLinkTargetOrPointerLazy =<< content of Just k -> checkMatcherWhen mi (matcherNeedsKey mi && not (matcherNeedsFileName mi || matcherNeedsLocationLog mi)) (MatchingKey k (AssociatedFile (Just f))) (checkpresence k (a k)) Nothing -> noop checkpresence k cont = case checkContentPresent seeker of Just v -> do present <- inAnnex k when (present == v) cont Nothing -> cont process mi ofeeder mdfeeder mdcloser seenpointer ((si, (f, sha, mode)):rest) = case Git.toTreeItemType mode of Just Git.TreeSymlink -> do whenM (exists f) $ -- Once a pointer file has been seen, -- symlinks have to be sent via the -- metadata processor too. That is -- slightly slower, but preserves the -- requested file order. if seenpointer then liftIO $ mdfeeder ((si, f), sha) else feedmatches mi ofeeder si f sha process mi ofeeder mdfeeder mdcloser seenpointer rest Just Git.TreeSubmodule -> process mi ofeeder mdfeeder mdcloser seenpointer rest -- Might be a pointer file, might be other -- file in git, possibly large. Avoid catting -- large files by first looking up the size. Just _ -> do whenM (exists f) $ liftIO $ mdfeeder ((si, f), sha) process mi ofeeder mdfeeder mdcloser True rest Nothing -> process mi ofeeder mdfeeder mdcloser seenpointer rest process _ _ _ mdcloser _ [] = liftIO $ void mdcloser -- Check if files exist, because a deleted file will still be -- listed by ls-tree, but should not be processed. exists p = isJust <$> liftIO (catchMaybeIO $ R.getSymbolicLinkStatus p) mdprocess mi mdreader ofeeder ocloser = liftIO mdreader >>= \case Just ((si, f), Just (sha, size, _type)) | size < maxPointerSz -> do feedmatches mi ofeeder si f sha mdprocess mi mdreader ofeeder ocloser Just _ -> mdprocess mi mdreader ofeeder ocloser Nothing -> liftIO $ void ocloser seekHelper :: (a -> RawFilePath) -> WarnUnmatchWhen -> ([LsFiles.Options] -> [RawFilePath] -> Git.Repo -> IO ([a], IO Bool)) -> WorkTreeItems -> Annex ([(SeekInput, a)], IO Bool) seekHelper c ww a (WorkTreeItems l) = do os <- seekOptions ww inRepo $ \g -> combinelists <$> forM (segmentXargsOrdered l) (runSegmentPaths' mk c (\fs -> a os fs g) . map toRawFilePath) where mk (Just i) f = (SeekInput [fromRawFilePath i], f) -- This is not accurate, but it only happens when there are a -- great many input WorkTreeItems. mk Nothing f = (SeekInput [fromRawFilePath (c f)], f) combinelists v = let r = concat $ concat $ map fst v cleanup = and <$> sequence (map snd v) in (r, cleanup) seekHelper _ _ _ NoWorkTreeItems = return ([], pure True) data WarnUnmatchWhen = WarnUnmatchLsFiles | WarnUnmatchWorkTreeItems seekOptions :: WarnUnmatchWhen -> Annex [LsFiles.Options] seekOptions WarnUnmatchLsFiles = ifM (annexSkipUnknown <$> Annex.getGitConfig) ( return [] , return [LsFiles.ErrorUnmatch] ) seekOptions WarnUnmatchWorkTreeItems = return [] -- Items in the work tree, which may be files or directories. data WorkTreeItems = WorkTreeItems [FilePath] -- ^ An empty list often means all files. | NoWorkTreeItems -- ^ Used when no work tree items should be operated on. deriving (Show) -- When in an adjusted branch that hides some files, it may not exist -- in the current work tree, but in the original branch. This allows -- seeking for such files. newtype AllowHidden = AllowHidden Bool -- git ls-files without --error-unmatch seeks work tree items matching -- some criteria, and silently skips over anything that does not exist. -- Also, when two directories are symlinked, referring to a file -- inside the symlinked directory will be silently skipped by -- git ls-files without --error-unmatch. -- -- Sometimes a command needs to use git-lsfiles that way, perhaps repeatedly. -- But users expect an error message when one of the files they provided -- as a command-line parameter doesn't exist, so this checks that each -- exists when run with WarnUnmatchWorkTreeItems. -- -- Note that, unlike --error-unmatch, using this does not warn -- about command-line parameters that exist, but are not checked into git. workTreeItems :: WarnUnmatchWhen -> CmdParams -> Annex WorkTreeItems workTreeItems = workTreeItems' (AllowHidden False) workTreeItems' :: AllowHidden -> WarnUnmatchWhen -> CmdParams -> Annex WorkTreeItems workTreeItems' (AllowHidden allowhidden) ww ps = case ww of WarnUnmatchWorkTreeItems -> runcheck WarnUnmatchLsFiles -> ifM (annexSkipUnknown <$> Annex.getGitConfig) ( runcheck , return $ WorkTreeItems ps ) where runcheck = do currbranch <- getCurrentBranch stopattop <- prepviasymlink ps' <- flip filterM ps $ \p -> do relf <- liftIO $ relPathCwdToFile p ifM (not <$> (exists p <||> hidden currbranch relf)) ( prob (p ++ " not found") , ifM (viasymlink stopattop (upFrom relf)) ( prob (p ++ " is beyond a symbolic link") , return True ) ) if null ps' && not (null ps) then return NoWorkTreeItems else return (WorkTreeItems ps') exists p = isJust <$> liftIO (catchMaybeIO $ getSymbolicLinkStatus p) prepviasymlink = do repotopst <- inRepo $ maybe (pure Nothing) (catchMaybeIO . R.getSymbolicLinkStatus) . Git.repoWorkTree return $ \st -> case repotopst of Nothing -> False Just tst -> fileID st == fileID tst && deviceID st == deviceID tst viasymlink _ Nothing = return False viasymlink stopattop (Just p) = do st <- liftIO $ getSymbolicLinkStatus p if stopattop st then return False else if isSymbolicLink st then return True else viasymlink stopattop (upFrom p) hidden currbranch f | allowhidden = isJust <$> catObjectMetaDataHidden (toRawFilePath f) currbranch | otherwise = return False prob msg = do toplevelWarning False msg Annex.incError return False notSymlink :: RawFilePath -> IO Bool notSymlink f = liftIO $ not . isSymbolicLink <$> R.getSymbolicLinkStatus f