{- git-annex command - - Copyright 2017-2019 Joey Hess - - Licensed under the GNU AGPL version 3 or higher. -} {-# LANGUAGE TupleSections, BangPatterns #-} {-# LANGUAGE OverloadedStrings #-} module Command.Export where import Command import qualified Annex import qualified Git import qualified Git.DiffTree import qualified Git.LsTree import qualified Git.Tree import qualified Git.Ref import Git.Types import Git.FilePath import Git.Sha import qualified Remote import Types.Remote import Types.Export import Annex.Export import Annex.Content import Annex.Transfer import Annex.CatFile import Annex.FileMatcher import Annex.RemoteTrackingBranch import Logs.Location import Logs.Export import Logs.PreferredContent import Database.Export import Config import Utility.Tmp import Utility.Metered import Utility.Matcher import qualified Data.ByteString.Char8 as S8 import qualified Data.ByteString.Lazy as L import qualified Data.Map as M import Control.Concurrent cmd :: Command cmd = withAnnexOptions [jobsOption, jsonOptions, jsonProgressOption] $ command "export" SectionCommon "export a tree of files to a special remote" paramTreeish (seek <$$> optParser) data ExportOptions = ExportOptions { exportTreeish :: Git.Ref -- ^ can be a tree, a branch, a commit, or a tag , exportRemote :: DeferredParse Remote , exportTracking :: Bool } optParser :: CmdParamsDesc -> Parser ExportOptions optParser _ = ExportOptions <$> (Git.Ref <$> parsetreeish) <*> (parseRemoteOption <$> parseToOption) <*> parsetracking where parsetreeish = argument str ( metavar paramTreeish ) parsetracking = switch ( long "tracking" <> help ("track changes to the " ++ paramTreeish ++ " (deprecated)") ) -- To handle renames which swap files, the exported file is first renamed -- to a stable temporary name based on the key. exportTempName :: Key -> ExportLocation exportTempName ek = mkExportLocation $ toRawFilePath $ ".git-annex-tmp-content-" ++ serializeKey ek seek :: ExportOptions -> CommandSeek seek o = startConcurrency commandStages $ do r <- getParsed (exportRemote o) unlessM (isExportSupported r) $ giveup "That remote does not support exports." -- handle deprecated option when (exportTracking o) $ setConfig (remoteAnnexConfig r "tracking-branch") (fromRef $ exportTreeish o) tree <- filterExport r =<< fromMaybe (giveup "unknown tree") <$> inRepo (Git.Ref.tree (exportTreeish o)) mtbcommitsha <- getExportCommit r (exportTreeish o) db <- openDb (uuid r) writeLockDbWhile db $ do changeExport r db tree unlessM (Annex.getRead Annex.fast) $ do void $ fillExport r db tree mtbcommitsha closeDb db -- | When the treeish is a branch like master or refs/heads/master -- (but not refs/remotes/...), find the commit it points to -- and the corresponding remote tracking branch. -- -- The treeish may also be a subdir within a branch, like master:subdir, -- that results in this returning the same thing it does for the master -- branch. getExportCommit :: Remote -> Git.Ref -> Annex (Maybe (RemoteTrackingBranch, Sha)) getExportCommit r treeish | '/' `notElem` fromRef baseref = do let tb = mkRemoteTrackingBranch r baseref commitsha <- inRepo $ Git.Ref.sha $ Git.Ref.underBase refsheads baseref return (fmap (tb, ) commitsha) | otherwise = return Nothing where baseref = Ref $ S8.takeWhile (/= ':') $ fromRef' $ Git.Ref.removeBase refsheads treeish refsheads = "refs/heads" -- | Changes what's exported to the remote. Does not upload any new -- files, but does delete and rename files already exported to the remote. changeExport :: Remote -> ExportHandle -> ExportFiltered Git.Ref -> CommandSeek changeExport r db (ExportFiltered new) = do old <- getExport (uuid r) recordExportBeginning (uuid r) new -- Clean up after incomplete export of a tree, in which -- the next block of code below may have renamed some files to -- temp files. Diff from the incomplete tree to the new tree, -- and delete any temp files that the new tree can't use. let recover diff = commandAction $ startRecoverIncomplete r db (Git.DiffTree.srcsha diff) (Git.DiffTree.file diff) forM_ (incompleteExportedTreeishes old) $ \incomplete -> mapdiff recover incomplete new waitForAllRunningCommandActions -- Diff the old and new trees, and delete or rename to new name all -- changed files in the export. After this, every file that remains -- in the export will have the content from the new treeish. -- -- When there was an export conflict, this resolves it. -- -- The ExportTree is also updated here to reflect the new tree. case exportedTreeishes old of [] -> updateExportTree db emptyTree new [oldtreesha] -> do diffmap <- mkDiffMap oldtreesha new db let seekdiffmap a = mapM_ a (M.toList diffmap) -- Rename old files to temp, or delete. let deleteoldf = \ek oldf -> commandAction $ startUnexport' r db oldf ek seekdiffmap $ \case (ek, (oldf:oldfs, _newf:_)) -> do commandAction $ startMoveToTempName r db oldf ek forM_ oldfs (deleteoldf ek) (ek, (oldfs, [])) -> forM_ oldfs (deleteoldf ek) (_ek, ([], _)) -> noop waitForAllRunningCommandActions -- Rename from temp to new files. seekdiffmap $ \case (ek, (_oldf:_, newf:_)) -> commandAction $ startMoveFromTempName r db ek newf _ -> noop waitForAllRunningCommandActions ts -> do warning "Resolving export conflict.." forM_ ts $ \oldtreesha -> do -- Unexport both the srcsha and the dstsha, -- because the wrong content may have -- been renamed to the dstsha due to the -- export conflict. let unexportboth d = [ Git.DiffTree.srcsha d , Git.DiffTree.dstsha d ] -- Don't rename to temp, because the -- content is unknown; delete instead. mapdiff (\diff -> commandAction $ startUnexport r db (Git.DiffTree.file diff) (unexportboth diff)) oldtreesha new updateExportTree db emptyTree new waitForAllRunningCommandActions liftIO $ recordExportTreeCurrent db new -- Waiting until now to record the export guarantees that, -- if this export is interrupted, there are no files left over -- from a previous export, that are not part of this export. c <- Annex.getState Annex.errcounter when (c == 0) $ do recordExportUnderway (uuid r) $ ExportChange { oldTreeish = exportedTreeishes old , newTreeish = new } where mapdiff a oldtreesha newtreesha = do (diff, cleanup) <- inRepo $ Git.DiffTree.diffTreeRecursive oldtreesha newtreesha sequence_ $ map a diff void $ liftIO cleanup -- Map of old and new filenames for each changed Key in a diff. type DiffMap = M.Map Key ([TopFilePath], [TopFilePath]) mkDiffMap :: Git.Ref -> Git.Ref -> ExportHandle -> Annex DiffMap mkDiffMap old new db = do (diff, cleanup) <- inRepo $ Git.DiffTree.diffTreeRecursive old new diffmap <- M.fromListWith combinedm . concat <$> forM diff mkdm void $ liftIO cleanup return diffmap where combinedm (srca, dsta) (srcb, dstb) = (srca ++ srcb, dsta ++ dstb) mkdm i = do srcek <- getek (Git.DiffTree.srcsha i) dstek <- getek (Git.DiffTree.dstsha i) updateExportTree' db srcek dstek i return $ catMaybes [ (, ([Git.DiffTree.file i], [])) <$> srcek , (, ([], [Git.DiffTree.file i])) <$> dstek ] getek sha | sha `elem` nullShas = return Nothing | otherwise = Just <$> exportKey sha newtype FileUploaded = FileUploaded { fromFileUploaded :: Bool } newtype AllFilled = AllFilled { fromAllFilled :: Bool } -- | Upload all exported files that are not yet in the remote. -- -- Returns True when some files were uploaded (perhaps not all of them). -- -- Once all exported files have reached the remote, updates the -- remote tracking branch. fillExport :: Remote -> ExportHandle -> ExportFiltered Git.Ref -> Maybe (RemoteTrackingBranch, Sha) -> Annex Bool fillExport r db (ExportFiltered newtree) mtbcommitsha = do (l, cleanup) <- inRepo $ Git.LsTree.lsTree Git.LsTree.LsTreeRecursive (Git.LsTree.LsTreeLong False) newtree cvar <- liftIO $ newMVar (FileUploaded False) allfilledvar <- liftIO $ newMVar (AllFilled True) commandActions $ map (startExport r db cvar allfilledvar) l void $ liftIO $ cleanup waitForAllRunningCommandActions case mtbcommitsha of Nothing -> noop Just (tb, commitsha) -> whenM (liftIO $ fromAllFilled <$> takeMVar allfilledvar) $ makeRemoteTrackingBranchMergeCommit tb commitsha >>= setRemoteTrackingBranch tb liftIO $ fromFileUploaded <$> takeMVar cvar startExport :: Remote -> ExportHandle -> MVar FileUploaded -> MVar AllFilled -> Git.LsTree.TreeItem -> CommandStart startExport r db cvar allfilledvar ti = do ek <- exportKey (Git.LsTree.sha ti) stopUnless (notrecordedpresent ek) $ starting ("export " ++ name r) ai si $ ifM (either (const False) id <$> tryNonAsync (checkPresentExport (exportActions r) ek loc)) ( next $ cleanupExport r db ek loc False , do liftIO $ modifyMVar_ cvar (pure . const (FileUploaded True)) performExport r db ek af (Git.LsTree.sha ti) loc allfilledvar ) where loc = mkExportLocation f f = getTopFilePath (Git.LsTree.file ti) af = AssociatedFile (Just f) ai = ActionItemTreeFile f si = SeekInput [] notrecordedpresent ek = ifM (liftIO $ notElem loc <$> getExportedLocation db ek) ( return True -- When content was lost from the remote and -- a fsck noticed that, the export db will still -- list it as present in the remote. So also check -- location tracking. -- However, git sha keys do not have their locations -- tracked, and fsck doesn't check them, so not -- for those. , if isGitShaKey ek then return False else notElem (uuid r) <$> loggedLocations ek ) performExport :: Remote -> ExportHandle -> Key -> AssociatedFile -> Sha -> ExportLocation -> MVar AllFilled -> CommandPerform performExport r db ek af contentsha loc allfilledvar = do let storer = storeExport (exportActions r) sent <- tryNonAsync $ if not (isGitShaKey ek) then ifM (inAnnex ek) ( notifyTransfer Upload af $ -- alwaysUpload because the same key -- could be used for more than one export -- location, and concurrently uploading -- of the content should still be allowed. alwaysUpload (uuid r) ek af Nothing stdRetry $ \pm -> do let rollback = void $ performUnexport r db [ek] loc sendAnnex ek rollback $ \f -> Remote.action $ storer f ek loc pm , do showNote "not available" return False ) -- Sending a non-annexed file. else withTmpFile "export" $ \tmp h -> do b <- catObject contentsha liftIO $ L.hPut h b liftIO $ hClose h Remote.action $ storer tmp ek loc nullMeterUpdate let failedsend = liftIO $ modifyMVar_ allfilledvar (pure . const (AllFilled False)) case sent of Right True -> next $ cleanupExport r db ek loc True Right False -> do failedsend stop Left err -> do failedsend throwM err cleanupExport :: Remote -> ExportHandle -> Key -> ExportLocation -> Bool -> CommandCleanup cleanupExport r db ek loc sent = do liftIO $ addExportedLocation db ek loc when (sent && not (isGitShaKey ek)) $ logChange ek (uuid r) InfoPresent return True startUnexport :: Remote -> ExportHandle -> TopFilePath -> [Git.Sha] -> CommandStart startUnexport r db f shas = do eks <- forM (filter (`notElem` nullShas) shas) exportKey if null eks then stop else starting ("unexport " ++ name r) ai si $ performUnexport r db eks loc where loc = mkExportLocation f' f' = getTopFilePath f ai = ActionItemTreeFile f' si = SeekInput [] startUnexport' :: Remote -> ExportHandle -> TopFilePath -> Key -> CommandStart startUnexport' r db f ek = starting ("unexport " ++ name r) ai si $ performUnexport r db [ek] loc where loc = mkExportLocation f' f' = getTopFilePath f ai = ActionItemTreeFile f' si = SeekInput [] -- Unlike a usual drop from a repository, this does not check that -- numcopies is satisfied before removing the content. Typically an export -- remote is untrusted, so would not count as a copy anyway. -- Or, an export may be appendonly, and removing a file from it does -- not really remove the content, which must be accessible later on. performUnexport :: Remote -> ExportHandle -> [Key] -> ExportLocation -> CommandPerform performUnexport r db eks loc = do ifM (allM rm eks) ( next $ cleanupUnexport r db eks loc , stop ) where rm ek = Remote.action $ removeExport (exportActions r) ek loc cleanupUnexport :: Remote -> ExportHandle -> [Key] -> ExportLocation -> CommandCleanup cleanupUnexport r db eks loc = do liftIO $ do forM_ eks $ \ek -> removeExportedLocation db ek loc flushDbQueue db -- A versionedExport remote supports removeExportLocation to remove -- the file from the exported tree, but still retains the content -- and allows retrieving it. unless (versionedExport (exportActions r)) $ do remaininglocs <- liftIO $ concat <$> forM eks (getExportedLocation db) when (null remaininglocs) $ forM_ eks $ \ek -> logChange ek (uuid r) InfoMissing removeEmptyDirectories r db loc eks startRecoverIncomplete :: Remote -> ExportHandle -> Git.Sha -> TopFilePath -> CommandStart startRecoverIncomplete r db sha oldf | sha `elem` nullShas = stop | otherwise = do ek <- exportKey sha let loc = exportTempName ek let ai = ActionItemTreeFile (fromExportLocation loc) let si = SeekInput [] starting ("unexport " ++ name r) ai si $ do liftIO $ removeExportedLocation db ek oldloc performUnexport r db [ek] loc where oldloc = mkExportLocation $ getTopFilePath oldf startMoveToTempName :: Remote -> ExportHandle -> TopFilePath -> Key -> CommandStart startMoveToTempName r db f ek = starting ("rename " ++ name r) ai si $ performRename r db ek loc tmploc where loc = mkExportLocation f' f' = getTopFilePath f tmploc = exportTempName ek ai = ActionItemOther $ Just $ fromRawFilePath f' ++ " -> " ++ fromRawFilePath (fromExportLocation tmploc) si = SeekInput [] startMoveFromTempName :: Remote -> ExportHandle -> Key -> TopFilePath -> CommandStart startMoveFromTempName r db ek f = do let tmploc = exportTempName ek let ai = ActionItemOther (Just (fromRawFilePath (fromExportLocation tmploc) ++ " -> " ++ fromRawFilePath f')) stopUnless (liftIO $ elem tmploc <$> getExportedLocation db ek) $ starting ("rename " ++ name r) ai si $ performRename r db ek tmploc loc where loc = mkExportLocation f' f' = getTopFilePath f si = SeekInput [] performRename :: Remote -> ExportHandle -> Key -> ExportLocation -> ExportLocation -> CommandPerform performRename r db ek src dest = tryNonAsync (renameExport (exportActions r) ek src dest) >>= \case Right (Just ()) -> next $ cleanupRename r db ek src dest Left err -> do warning $ "rename failed (" ++ show err ++ "); deleting instead" fallbackdelete -- remote does not support renaming Right Nothing -> fallbackdelete where fallbackdelete = performUnexport r db [ek] src cleanupRename :: Remote -> ExportHandle -> Key -> ExportLocation -> ExportLocation -> CommandCleanup cleanupRename r db ek src dest = do liftIO $ do removeExportedLocation db ek src addExportedLocation db ek dest flushDbQueue db if exportDirectories src /= exportDirectories dest then removeEmptyDirectories r db src [ek] else return True -- | Remove empty directories from the export. Call after removing an -- exported file, and after calling removeExportLocation and flushing the -- database. removeEmptyDirectories :: Remote -> ExportHandle -> ExportLocation -> [Key] -> Annex Bool removeEmptyDirectories r db loc ks | null (exportDirectories loc) = return True | otherwise = case removeExportDirectory (exportActions r) of Nothing -> return True Just removeexportdirectory -> do ok <- allM (go removeexportdirectory) (reverse (exportDirectories loc)) unless ok $ liftIO $ do -- Add location back to export database, -- so this is tried again next time. forM_ ks $ \k -> addExportedLocation db k loc flushDbQueue db return ok where go removeexportdirectory d = ifM (liftIO $ isExportDirectoryEmpty db d) ( Remote.action $ removeexportdirectory d , return True ) -- | A value that has been filtered through the remote's preferred content -- expression. newtype ExportFiltered t = ExportFiltered t -- | Filters the tree to annexed files that are preferred content of the -- remote, and also including non-annexed files, but not submodules or -- non-annexed symlinks. -- -- A log is written with tree items that were filtered out, so they can -- be added back in when importing from the remote. filterExport :: Remote -> Git.Ref -> Annex (ExportFiltered Git.Ref) filterExport r tree = logExportExcluded (uuid r) $ \logwriter -> do m <- preferredContentMap case M.lookup (uuid r) m of Just matcher | not (isEmpty matcher) -> ExportFiltered <$> go (Just matcher) logwriter _ -> ExportFiltered <$> go Nothing logwriter where go mmatcher logwriter = do g <- Annex.gitRepo Git.Tree.adjustTree (check mmatcher logwriter) [] (\_old new -> new) [] tree g check mmatcher logwriter ti@(Git.Tree.TreeItem topf mode sha) = case toTreeItemType mode of -- Don't export submodule entries. Just TreeSubmodule -> excluded Just TreeSymlink -> checkkey True _ -> checkkey False where excluded = do () <- liftIO $ logwriter ti return Nothing checkkey issymlink = case mmatcher of Nothing | issymlink -> catKey sha >>= \case Just _ -> return (Just ti) Nothing -> excluded | otherwise -> return (Just ti) Just matcher -> catKey sha >>= \case Just k -> checkmatcher matcher k Nothing | issymlink -> excluded | otherwise -> return (Just ti) checkmatcher matcher k = do let mi = MatchingInfo $ ProvidedInfo { providedFilePath = Just $ -- Match filename relative -- to the top of the tree. getTopFilePath topf , providedKey = Just k , providedFileSize = Nothing , providedMimeType = Nothing , providedMimeEncoding = Nothing , providedLinkType = Nothing } ifM (checkMatcher' matcher mi mempty) ( return (Just ti) , excluded )