git-annex/Annex/Import.hs
Joey Hess 7298123520
build git trees using ContentIdentifier to speed up import
This gets the trees built, but it does not use them. Next step will be
to remember the tree for next time an import is done, and diff between
old and new trees to find the files that have changed.

Added --missing to the mktree parameters. That only disables a check, so
it's ok to do everywhere mktree is used. It probably also speeds up
mktree to disable the check.

Note that git fsck does not complain about the resulting tree objects
that point to shas that are not in the repository. Even with --strict.

A quick benchmark, importing 10000 files, this slowed it down
from 2:04.06 to 2:04.28. So it will more than pay for itself.

Sponsored-by: Luke Shumaker on Patreon
2023-05-31 12:46:54 -04:00

912 lines
32 KiB
Haskell

{- git-annex import from remotes
-
- Copyright 2019-2023 Joey Hess <id@joeyh.name>
-
- Licensed under the GNU AGPL version 3 or higher.
-}
{-# LANGUAGE OverloadedStrings #-}
module Annex.Import (
ImportTreeConfig(..),
ImportCommitConfig(..),
buildImportCommit,
buildImportTrees,
recordImportTree,
canImportKeys,
importKeys,
makeImportMatcher,
getImportableContents,
) where
import Annex.Common
import Types.Import
import qualified Types.Remote as Remote
import Git.Types
import Git.Tree
import Git.Sha
import Git.FilePath
import Git.History
import qualified Git.Ref
import qualified Git.Branch
import qualified Annex
import Annex.Link
import Annex.LockFile
import Annex.Content
import Annex.Export
import Annex.RemoteTrackingBranch
import Annex.HashObject
import Annex.Transfer
import Annex.CheckIgnore
import Annex.VectorClock
import Command
import Backend
import Types.Key
import Types.KeySource
import Messages.Progress
import Utility.DataUnits
import Utility.Metered
import Utility.Hash (sha1s)
import Logs.Export
import Logs.Location
import Logs.PreferredContent
import Types.FileMatcher
import Annex.FileMatcher
import qualified Utility.Matcher
import qualified Database.Export as Export
import qualified Database.ContentIdentifier as CIDDb
import qualified Logs.ContentIdentifier as CIDLog
import Backend.Utilities
import Control.Concurrent.STM
import qualified Data.Map.Strict as M
import qualified Data.Set as S
import qualified System.FilePath.Posix.ByteString as Posix
import qualified System.FilePath.ByteString as P
import qualified Data.ByteArray.Encoding as BA
{- Configures how to build an import tree. -}
data ImportTreeConfig
= ImportTree
-- ^ Import the tree as-is from the remote.
| ImportSubTree TopFilePath Sha
-- ^ Import a tree from the remote and graft it into a subdirectory
-- of the existing tree whose Sha is provided, replacing anything
-- that was there before.
deriving (Show)
{- Configures how to build an import commit. -}
data ImportCommitConfig = ImportCommitConfig
{ importCommitTracking :: Maybe Sha
-- ^ Current commit on the remote tracking branch.
, importCommitMode :: Git.Branch.CommitMode
, importCommitMessage :: String
}
{- Buils a commit for an import from a special remote.
-
- When there are no changes to make (importCommitTracking
- already matches what was imported), returns Nothing.
-
- After importing from a remote, exporting the same thing back to the
- remote should be a no-op. So, the export log and database are
- updated to reflect the imported tree.
-
- This does not download any content from a remote. But since it needs the
- Key of imported files to be known, its caller will have to first download
- new files in order to generate keys for them.
-}
buildImportCommit
:: Remote
-> ImportTreeConfig
-> ImportCommitConfig
-> ImportableContentsChunkable Annex (Either Sha Key)
-> Annex (Maybe Ref)
buildImportCommit remote importtreeconfig importcommitconfig importable =
case importCommitTracking importcommitconfig of
Nothing -> go Nothing
Just trackingcommit -> inRepo (Git.Ref.tree trackingcommit) >>= \case
Nothing -> go Nothing
Just _ -> go (Just trackingcommit)
where
go trackingcommit = do
(imported, updatestate) <- recordImportTree remote importtreeconfig importable
buildImportCommit' remote importcommitconfig trackingcommit imported >>= \case
Just finalcommit -> do
updatestate
return (Just finalcommit)
Nothing -> return Nothing
{- Builds a tree for an import from a special remote.
-
- Also returns an action that can be used to update
- all the other state to record the import.
-}
recordImportTree
:: Remote
-> ImportTreeConfig
-> ImportableContentsChunkable Annex (Either Sha Key)
-> Annex (History Sha, Annex ())
recordImportTree remote importtreeconfig importable = do
imported@(History finaltree _) <- buildImportTrees basetree subdir importable
return (imported, updatestate finaltree)
where
basetree = case importtreeconfig of
ImportTree -> emptyTree
ImportSubTree _ sha -> sha
subdir = case importtreeconfig of
ImportTree -> Nothing
ImportSubTree dir _ -> Just dir
updatestate finaltree = do
importedtree <- case subdir of
Nothing -> pure finaltree
Just dir ->
let subtreeref = Ref $
fromRef' finaltree
<> ":"
<> getTopFilePath dir
in fromMaybe emptyTree
<$> inRepo (Git.Ref.tree subtreeref)
updateexportdb importedtree
oldexport <- updateexportlog importedtree
updatelocationlog oldexport importedtree
updateexportdb importedtree = do
db <- Export.openDb (Remote.uuid remote)
Export.writeLockDbWhile db $ do
prevtree <- liftIO $ fromMaybe emptyTree
<$> Export.getExportTreeCurrent db
when (importedtree /= prevtree) $ do
Export.updateExportDb db prevtree importedtree
liftIO $ Export.recordExportTreeCurrent db importedtree
Export.closeDb db
updateexportlog importedtree = do
oldexport <- getExport (Remote.uuid remote)
recordExport (Remote.uuid remote) importedtree $ ExportChange
{ oldTreeish = exportedTreeishes oldexport
, newTreeish = importedtree
}
return oldexport
-- downloadImport takes care of updating the location log
-- for the local repo when keys are downloaded, and also updates
-- the location log for the remote for keys that are present in it.
-- That leaves updating the location log for the remote for keys
-- that have had the last copy of their content removed from it.
--
-- This must run after the export database has been updated
-- and flushed to disk, so it can query it.
updatelocationlog oldexport finaltree = do
let stillpresent db k = liftIO $ not . null
<$> Export.getExportedLocation db k
let updater db moldkey _newkey _ = case moldkey of
Just oldkey | not (isGitShaKey oldkey) ->
unlessM (stillpresent db oldkey) $
logChange oldkey (Remote.uuid remote) InfoMissing
_ -> noop
-- When the remote is versioned, it still contains keys
-- that are not present in the new tree.
unless (Remote.versionedExport (Remote.exportActions remote)) $ do
db <- Export.openDb (Remote.uuid remote)
forM_ (exportedTreeishes oldexport) $ \oldtree ->
Export.runExportDiffUpdater updater db oldtree finaltree
Export.closeDb db
buildImportCommit' :: Remote -> ImportCommitConfig -> Maybe Sha -> History Sha -> Annex (Maybe Sha)
buildImportCommit' remote importcommitconfig mtrackingcommit imported@(History ti _) =
case mtrackingcommit of
Nothing -> Just <$> mkcommitsunconnected imported
Just trackingcommit -> do
-- Get history of tracking branch to at most
-- one more level deep than what was imported,
-- so we'll have enough history to compare,
-- but not spend too much time getting it.
let maxdepth = succ importeddepth
inRepo (getHistoryToDepth maxdepth trackingcommit)
>>= go trackingcommit
where
go _ Nothing = Just <$> mkcommitsunconnected imported
go trackingcommit (Just h)
-- If the tracking branch head is a merge commit
-- and one side of the merge matches the history,
-- nothing new needs to be committed.
| t == ti && any sametodepth (S.toList s) = return Nothing
-- If the tracking branch matches the history,
-- nothing new needs to be committed.
-- (This is unlikely to happen.)
| sametodepth h' = return Nothing
| otherwise = do
importedcommit <- case getRemoteTrackingBranchImportHistory h of
Nothing -> mkcommitsunconnected imported
Just oldimported@(History oldhc _)
| importeddepth == 1 ->
mkcommitconnected imported oldimported
| otherwise -> do
let oldimportedtrees = mapHistory historyCommitTree oldimported
mknewcommits oldhc oldimportedtrees imported
ti' <- addBackExportExcluded remote ti
Just <$> makeRemoteTrackingBranchMergeCommit'
trackingcommit importedcommit ti'
where
h'@(History t s) = mapHistory historyCommitTree h
importeddepth = historyDepth imported
sametodepth b = imported == truncateHistoryToDepth importeddepth b
mkcommit parents tree = inRepo $ Git.Branch.commitTree
(importCommitMode importcommitconfig)
(importCommitMessage importcommitconfig)
parents
tree
-- Start a new history of import commits, not connected to any
-- prior import commits.
mkcommitsunconnected (History importedtree hs) = do
parents <- mapM mkcommitsunconnected (S.toList hs)
mkcommit parents importedtree
-- Commit the new history connected with the old history.
-- Used when the import is not versioned, so the history depth is 1.
mkcommitconnected (History importedtree _) (History oldhc _) = do
let parents = [historyCommit oldhc]
mkcommit parents importedtree
-- Reuse the commits from the old imported History when possible.
mknewcommits oldhc old new@(History importedtree hs)
| old == new = return $ historyCommit oldhc
| otherwise = do
parents <- mapM (mknewcommits oldhc old) (S.toList hs)
mkcommit parents importedtree
{- Builds a history of git trees reflecting the ImportableContents.
-
- When a subdir is provided, imported tree is grafted into the basetree at
- that location, replacing any object that was there.
-}
buildImportTrees
:: Ref
-> Maybe TopFilePath
-> ImportableContentsChunkable Annex (Either Sha Key)
-> Annex (History Sha)
buildImportTrees = buildImportTreesGeneric convertImportTree
convertImportTree :: Maybe TopFilePath -> [(ImportLocation, Either Sha Key)] -> Annex Tree
convertImportTree msubdir ls = treeItemsToTree <$> mapM mktreeitem ls
where
mktreeitem (loc, v) = case v of
Right k -> do
relf <- fromRepo $ fromTopFilePath topf
symlink <- calcRepo $ gitAnnexLink relf k
linksha <- hashSymlink symlink
return $ TreeItem treepath (fromTreeItemType TreeSymlink) linksha
Left sha ->
return $ TreeItem treepath (fromTreeItemType TreeFile) sha
where
lf = fromImportLocation loc
treepath = asTopFilePath lf
topf = asTopFilePath $
maybe lf (\sd -> getTopFilePath sd P.</> lf) msubdir
{- Builds a history of git trees using ContentIdentifiers.
-
- These are not the final trees that are generated by the import, which
- use Keys. The purpose of these trees is to allow quickly determining
- which files in the import have changed, and which are unchanged, to
- avoid needing to look up the Keys for unchanged ContentIdentifiers.
- When the import has a large number of files, that can be slow.
-}
buildContentIdentifierTree
:: ImportableContentsChunkable Annex (ContentIdentifier, ByteSize)
-> Annex (History Sha)
buildContentIdentifierTree =
buildImportTreesGeneric convertContentIdentifierTree emptyTree Nothing
{- For speed, and to avoid bloating the repository, the ContentIdentifiers
- are not actually checked into git, instead a sha1 hash is calculated
- internally.
-}
convertContentIdentifierTree
:: Maybe TopFilePath
-> [(ImportLocation, (ContentIdentifier, ByteSize))]
-> Annex Tree
convertContentIdentifierTree _ ls = pure $ treeItemsToTree $ map mktreeitem ls
where
mktreeitem (loc, ((ContentIdentifier cid), _sz)) =
TreeItem p mode sha1
where
p = asTopFilePath (fromImportLocation loc)
mode = fromTreeItemType TreeFile
-- Note that this hardcodes sha1, even if git has started
-- defaulting to some other checksum method. That should be
-- ok, hopefully. This checksum never needs to be verified
-- by git, which is why this does not bother to prefix the
-- cid with its length, like git would.
sha1 = Ref $ BA.convertToBase BA.Base16 $ sha1s cid
buildImportTreesGeneric
:: (Maybe TopFilePath -> [(ImportLocation, v)] -> Annex Tree)
-> Ref
-> Maybe TopFilePath
-> ImportableContentsChunkable Annex v
-> Annex (History Sha)
buildImportTreesGeneric converttree basetree msubdir (ImportableContentsComplete importable) = do
repo <- Annex.gitRepo
withMkTreeHandle repo $ buildImportTreesGeneric' converttree basetree msubdir importable
buildImportTreesGeneric converttree basetree msubdir importable@(ImportableContentsChunked {}) = do
repo <- Annex.gitRepo
withMkTreeHandle repo $ \hdl ->
History
<$> go hdl
<*> buildImportTreesHistory converttree basetree msubdir
(importableHistoryComplete importable) hdl
where
go hdl = do
tree <- gochunks [] (importableContentsChunk importable) hdl
importtree <- liftIO $ recordTree' hdl tree
graftImportTree basetree msubdir importtree hdl
gochunks l c hdl = do
let subdir = importChunkSubDir $ importableContentsSubDir c
-- Full directory prefix where the sub tree is located.
let fullprefix = asTopFilePath $ case msubdir of
Nothing -> subdir
Just d -> getTopFilePath d Posix.</> subdir
Tree ts <- converttree (Just fullprefix) $
map (\(p, i) -> (mkImportLocation p, i))
(importableContentsSubTree c)
-- Record this subtree before getting next chunk, this
-- avoids buffering all the chunks into memory.
tc <- liftIO $ recordSubTree hdl $
NewSubTree (asTopFilePath subdir) ts
importableContentsNextChunk c >>= \case
Nothing -> return (Tree (tc:l))
Just c' -> gochunks (tc:l) c' hdl
buildImportTreesGeneric'
:: (Maybe TopFilePath -> [(ImportLocation, v)] -> Annex Tree)
-> Ref
-> Maybe TopFilePath
-> ImportableContents v
-> MkTreeHandle
-> Annex (History Sha)
buildImportTreesGeneric' converttree basetree msubdir importable hdl = History
<$> buildImportTree converttree basetree msubdir (importableContents importable) hdl
<*> buildImportTreesHistory converttree basetree msubdir (importableHistory importable) hdl
buildImportTree
:: (Maybe TopFilePath -> [(ImportLocation, v)] -> Annex Tree)
-> Ref
-> Maybe TopFilePath
-> [(ImportLocation, v)]
-> MkTreeHandle
-> Annex Sha
buildImportTree converttree basetree msubdir ls hdl = do
importtree <- liftIO . recordTree' hdl =<< converttree msubdir ls
graftImportTree basetree msubdir importtree hdl
graftImportTree
:: Ref
-> Maybe TopFilePath
-> Sha
-> MkTreeHandle
-> Annex Sha
graftImportTree basetree msubdir tree hdl = case msubdir of
Nothing -> return tree
Just subdir -> inRepo $ \repo ->
graftTree' tree subdir basetree repo hdl
buildImportTreesHistory
:: (Maybe TopFilePath -> [(ImportLocation, v)] -> Annex Tree)
-> Ref
-> Maybe TopFilePath
-> [ImportableContents v]
-> MkTreeHandle
-> Annex (S.Set (History Sha))
buildImportTreesHistory converttree basetree msubdir history hdl = S.fromList
<$> mapM (\ic -> buildImportTreesGeneric' converttree basetree msubdir ic hdl) history
canImportKeys :: Remote -> Bool -> Bool
canImportKeys remote importcontent =
importcontent || isJust (Remote.importKey ia)
where
ia = Remote.importActions remote
{- Downloads all new ContentIdentifiers, or when importcontent is False,
- generates Keys without downloading.
-
- Generates either a Key or a git Sha, depending on annex.largefiles.
- But when importcontent is False, it cannot match on annex.largefiles
- (or generate a git Sha), so always generates Keys.
-
- Supports concurrency when enabled.
-
- If it fails on any file, the whole thing fails with Nothing,
- but it will resume where it left off.
-
- Note that, when a ContentIdentifier has been imported before,
- generates the same thing that was imported before, so annex.largefiles
- is not reapplied.
-}
importKeys
:: Remote
-> ImportTreeConfig
-> Bool
-> Bool
-> ImportableContentsChunkable Annex (ContentIdentifier, ByteSize)
-> Annex (Maybe (ImportableContentsChunkable Annex (Either Sha Key)))
importKeys remote importtreeconfig importcontent thirdpartypopulated importablecontents = do
_ts <- buildContentIdentifierTree importablecontents
-- TODO use above
unless (canImportKeys remote importcontent) $
giveup "This remote does not support importing without downloading content."
-- This map is used to remember content identifiers that
-- were just imported, before they have necessarily been
-- stored in the database. This way, if the same content
-- identifier appears multiple times in the
-- importablecontents (eg when it has a history),
-- they will only be imported once.
cidmap <- liftIO $ newTVarIO M.empty
-- When concurrency is enabled, this set is needed to
-- avoid two threads both importing the same content identifier.
importing <- liftIO $ newTVarIO S.empty
withciddb $ \db -> do
CIDDb.needsUpdateFromLog db
>>= maybe noop (CIDDb.updateFromLog db)
(prepclock (run cidmap importing db))
where
-- When not importing content, reuse the same vector
-- clock for all state that's recorded. This can save
-- a little bit of disk space. Individual file downloads
-- while downloading take too long for this optimisation
-- to be safe to do.
prepclock a
| importcontent = a
| otherwise = reuseVectorClockWhile a
withciddb a = do
cidlck <- calcRepo' gitAnnexContentIdentifierLock
withExclusiveLock cidlck $
bracket CIDDb.openDb CIDDb.closeDb a
run cidmap importing db = do
largematcher <- largeFilesMatcher
case importablecontents of
ImportableContentsComplete ic ->
go False largematcher cidmap importing db ic >>= return . \case
Nothing -> Nothing
Just v -> Just $ ImportableContentsComplete v
ImportableContentsChunked {} -> do
c <- gochunked db (importableContentsChunk importablecontents)
gohistory largematcher cidmap importing db (importableHistoryComplete importablecontents) >>= return . \case
Nothing -> Nothing
Just h -> Just $ ImportableContentsChunked
{ importableContentsChunk = c
, importableHistoryComplete = h
}
go oldversion largematcher cidmap importing db (ImportableContents l h) = do
jobs <- forM l $ \i ->
if thirdpartypopulated
then Left <$> thirdpartypopulatedimport db i
else startimport cidmap importing db i oldversion largematcher
l' <- liftIO $ forM jobs $
either pure (atomically . takeTMVar)
if any isNothing l'
then return Nothing
else gohistory largematcher cidmap importing db h >>= return . \case
Nothing -> Nothing
Just h' -> Just $ ImportableContents (catMaybes l') h'
gohistory largematcher cidmap importing db h = do
h' <- mapM (go True largematcher cidmap importing db) h
if any isNothing h'
then return Nothing
else return $ Just $ catMaybes h'
gochunked db c
-- Downloading cannot be done when chunked, since only
-- the first chunk is processed before returning.
| importcontent = giveup "importKeys does not support downloading chunked import"
-- Chunked import is currently only used by thirdpartypopulated
-- remotes.
| not thirdpartypopulated = giveup "importKeys does not support chunked import when not thirdpartypopulated"
| otherwise = do
l <- forM (importableContentsSubTree c) $ \(loc, i) -> do
let loc' = importableContentsChunkFullLocation (importableContentsSubDir c) loc
thirdpartypopulatedimport db (loc', i) >>= return . \case
Just (_loc, k) -> Just (loc, k)
Nothing -> Nothing
return $ ImportableContentsChunk
{ importableContentsSubDir = importableContentsSubDir c
, importableContentsSubTree = catMaybes l
, importableContentsNextChunk =
importableContentsNextChunk c >>= \case
Nothing -> return Nothing
Just c' -> withciddb $ \db' ->
prepclock $
Just <$> gochunked db' c'
}
waitstart importing cid = liftIO $ atomically $ do
s <- readTVar importing
if S.member cid s
then retry
else writeTVar importing $ S.insert cid s
signaldone importing cid = liftIO $ atomically $ do
s <- readTVar importing
writeTVar importing $ S.delete cid s
startimport cidmap importing db i@(loc, (cid, _sz)) oldversion largematcher = getcidkey cidmap db cid >>= \case
(k:ks) ->
-- If the same content was imported before
-- yielding multiple different keys, it's not clear
-- which is best to use this time, so pick the
-- first in the list. But, if any of them is a
-- git sha, use it, because the content must
-- be included in the git repo then.
let v = case mapMaybe keyGitSha (k:ks) of
(sha:_) -> Left sha
[] -> Right k
in return $ Left $ Just (loc, v)
[] -> do
job <- liftIO $ newEmptyTMVarIO
let ai = ActionItemOther (Just (QuotedPath (fromImportLocation loc)))
let si = SeekInput []
let importaction = starting ("import " ++ Remote.name remote) ai si $ do
when oldversion $
showNote "old version"
tryNonAsync (importordownload cidmap i largematcher) >>= \case
Left e -> next $ do
warning (UnquotedString (show e))
liftIO $ atomically $
putTMVar job Nothing
return False
Right r -> next $ do
liftIO $ atomically $
putTMVar job r
return True
commandAction $ bracket_
(waitstart importing cid)
(signaldone importing cid)
importaction
return (Right job)
thirdpartypopulatedimport db (loc, (cid, sz)) =
case Remote.importKey ia of
Nothing -> return Nothing
Just importkey ->
tryNonAsync (importkey loc cid sz nullMeterUpdate) >>= \case
Right (Just k) -> do
recordcidkeyindb db cid k
logChange k (Remote.uuid remote) InfoPresent
return $ Just (loc, Right k)
Right Nothing -> return Nothing
Left e -> do
warning (UnquotedString (show e))
return Nothing
importordownload cidmap (loc, (cid, sz)) largematcher= do
f <- locworktreefile loc
matcher <- largematcher f
-- When importing a key is supported, always use it rather
-- than downloading and retrieving a key, to avoid
-- generating trees with different keys for the same content.
let act = if importcontent
then case Remote.importKey ia of
Nothing -> dodownload
Just _ -> if Utility.Matcher.introspect matchNeedsFileContent matcher
then dodownload
else doimport
else doimport
act cidmap (loc, (cid, sz)) f matcher
doimport cidmap (loc, (cid, sz)) f matcher =
case Remote.importKey ia of
Nothing -> error "internal" -- checked earlier
Just importkey -> do
when (Utility.Matcher.introspect matchNeedsFileContent matcher) $
giveup "annex.largefiles configuration examines file contents, so cannot import without content."
let mi = MatchingInfo ProvidedInfo
{ providedFilePath = Just f
, providedKey = Nothing
, providedFileSize = Just sz
, providedMimeType = Nothing
, providedMimeEncoding = Nothing
, providedLinkType = Nothing
}
let bwlimit = remoteAnnexBwLimit (Remote.gitconfig remote)
islargefile <- checkMatcher' matcher mi mempty
metered Nothing sz bwlimit $ const $ if islargefile
then doimportlarge importkey cidmap loc cid sz f
else doimportsmall cidmap loc cid sz
doimportlarge importkey cidmap loc cid sz f p =
tryNonAsync importer >>= \case
Right (Just (k, True)) -> return $ Just (loc, Right k)
Right _ -> return Nothing
Left e -> do
warning (UnquotedString (show e))
return Nothing
where
importer = do
-- Don't display progress when generating
-- key, if the content will later be
-- downloaded, which is a more expensive
-- operation generally.
let p' = if importcontent then nullMeterUpdate else p
importkey loc cid sz p' >>= \case
Nothing -> return Nothing
Just k -> checkSecureHashes k >>= \case
Nothing -> do
recordcidkey cidmap cid k
logChange k (Remote.uuid remote) InfoPresent
if importcontent
then getcontent k
else return (Just (k, True))
Just msg -> giveup (msg ++ " to import")
getcontent :: Key -> Annex (Maybe (Key, Bool))
getcontent k = do
let af = AssociatedFile (Just f)
let downloader p' tmpfile = do
_ <- Remote.retrieveExportWithContentIdentifier
ia loc [cid] (fromRawFilePath tmpfile)
(Left k)
(combineMeterUpdate p' p)
ok <- moveAnnex k af tmpfile
when ok $
logStatus k InfoPresent
return (Just (k, ok))
checkDiskSpaceToGet k Nothing $
notifyTransfer Download af $
download' (Remote.uuid remote) k af Nothing stdRetry $ \p' ->
withTmp k $ downloader p'
-- The file is small, so is added to git, so while importing
-- without content does not retrieve annexed files, it does
-- need to retrieve this file.
doimportsmall cidmap loc cid sz p = do
let downloader tmpfile = do
(k, _) <- Remote.retrieveExportWithContentIdentifier
ia loc [cid] (fromRawFilePath tmpfile)
(Right (mkkey tmpfile))
p
case keyGitSha k of
Just sha -> do
recordcidkey cidmap cid k
return sha
Nothing -> error "internal"
checkDiskSpaceToGet tmpkey Nothing $
withTmp tmpkey $ \tmpfile ->
tryNonAsync (downloader tmpfile) >>= \case
Right sha -> return $ Just (loc, Left sha)
Left e -> do
warning (UnquotedString (show e))
return Nothing
where
tmpkey = importKey cid sz
mkkey tmpfile = gitShaKey <$> hashFile tmpfile
dodownload cidmap (loc, (cid, sz)) f matcher = do
let af = AssociatedFile (Just f)
let downloader tmpfile p = do
(k, _) <- Remote.retrieveExportWithContentIdentifier
ia loc [cid] (fromRawFilePath tmpfile)
(Right (mkkey tmpfile))
p
case keyGitSha k of
Nothing -> do
ok <- moveAnnex k af tmpfile
when ok $ do
recordcidkey cidmap cid k
logStatus k InfoPresent
logChange k (Remote.uuid remote) InfoPresent
return (Right k, ok)
Just sha -> do
recordcidkey cidmap cid k
return (Left sha, True)
let rundownload tmpfile p = tryNonAsync (downloader tmpfile p) >>= \case
Right (v, True) -> return $ Just (loc, v)
Right (_, False) -> return Nothing
Left e -> do
warning (UnquotedString (show e))
return Nothing
let bwlimit = remoteAnnexBwLimit (Remote.gitconfig remote)
checkDiskSpaceToGet tmpkey Nothing $
notifyTransfer Download af $
download' (Remote.uuid remote) tmpkey af Nothing stdRetry $ \p ->
withTmp tmpkey $ \tmpfile ->
metered (Just p) tmpkey bwlimit $
const (rundownload tmpfile)
where
tmpkey = importKey cid sz
mkkey tmpfile = do
let mi = MatchingFile FileInfo
{ matchFile = f
, contentFile = tmpfile
, matchKey = Nothing
}
islargefile <- checkMatcher' matcher mi mempty
if islargefile
then do
backend <- chooseBackend f
let ks = KeySource
{ keyFilename = f
, contentLocation = tmpfile
, inodeCache = Nothing
}
fst <$> genKey ks nullMeterUpdate backend
else gitShaKey <$> hashFile tmpfile
ia = Remote.importActions remote
locworktreefile loc = fromRepo $ fromTopFilePath $ asTopFilePath $
case importtreeconfig of
ImportTree -> fromImportLocation loc
ImportSubTree subdir _ ->
getTopFilePath subdir P.</> fromImportLocation loc
getcidkey cidmap db cid = liftIO $
CIDDb.getContentIdentifierKeys db rs cid >>= \case
[] -> atomically $
maybeToList . M.lookup cid <$> readTVar cidmap
l -> return l
recordcidkey cidmap cid k = do
liftIO $ atomically $ modifyTVar' cidmap $
M.insert cid k
-- Only record in log now; the database will be updated
-- later from the log, and the cidmap will be used for now.
recordcidkeyinlog cid k
recordcidkeyindb db cid k = do
liftIO $ CIDDb.recordContentIdentifier db rs cid k
recordcidkeyinlog cid k
recordcidkeyinlog cid k =
CIDLog.recordContentIdentifier rs cid k
rs = Remote.remoteStateHandle remote
{- Temporary key used for import of a ContentIdentifier while downloading
- content, before generating its real key. -}
importKey :: ContentIdentifier -> Integer -> Key
importKey (ContentIdentifier cid) size = mkKey $ \k -> k
{ keyName = genKeyName (decodeBS cid)
, keyVariety = OtherKey "CID"
, keySize = Just size
}
{-- Export omits non-preferred content from the tree stored on the
-- remote. So the import will normally have that content
-- omitted (unless something else added files with the same names to the
-- special remote).
--
-- That presents a problem: Merging the imported tree would result
-- in deletion of the files that were excluded from export.
-- To avoid that happening, this adds them back to the imported tree.
--}
addBackExportExcluded :: Remote -> Sha -> Annex Sha
addBackExportExcluded remote importtree =
getExportExcluded (Remote.uuid remote) >>= \case
[] -> return importtree
excludedlist -> inRepo $
adjustTree
-- don't remove any
(pure . Just)
excludedlist
-- if something was imported with the same
-- name as a file that was previously
-- excluded from import, use what was imported
(\imported _excluded -> imported)
[]
importtree
{- Match the preferred content of the remote at import time.
-
- Only keyless tokens are supported, because the keys are not known
- until an imported file is downloaded, which is too late to bother
- excluding it from an import.
-}
makeImportMatcher :: Remote -> Annex (Either String (FileMatcher Annex))
makeImportMatcher r = load preferredContentKeylessTokens >>= \case
Nothing -> return $ Right matchAll
Just (Right v) -> return $ Right v
Just (Left err) -> load preferredContentTokens >>= \case
Just (Left err') -> return $ Left err'
_ -> return $ Left $
"The preferred content expression contains terms that cannot be checked when importing: " ++ err
where
load t = M.lookup (Remote.uuid r) . fst <$> preferredRequiredMapsLoad' t
{- Gets the ImportableContents from the remote.
-
- Filters out any paths that include a ".git" component, because git does
- not allow storing ".git" in a git repository. While it is possible to
- write a git tree that contains that, git will complain and refuse to
- check it out.
-
- Filters out new things not matching the FileMatcher or that are
- gitignored. However, files that are already in git get imported
- regardless. (Similar to how git add behaves on gitignored files.)
- This avoids creating a remote tracking branch that, when merged,
- would delete the files.
-
- Throws exception if unable to contact the remote.
- Returns Nothing when there is no change since last time.
-}
getImportableContents :: Remote -> ImportTreeConfig -> CheckGitIgnore -> FileMatcher Annex -> Annex (Maybe (ImportableContentsChunkable Annex (ContentIdentifier, ByteSize)))
getImportableContents r importtreeconfig ci matcher = do
Remote.listImportableContents (Remote.importActions r) >>= \case
Just (ImportableContentsComplete ic) -> do
dbhandle <- opendbhandle
Just . ImportableContentsComplete
<$> filterunwanted dbhandle ic
Just (c@(ImportableContentsChunked {})) -> do
dbhandle <- opendbhandle
Just <$> filterunwantedchunked dbhandle c
Nothing -> return Nothing
where
filterunwanted dbhandle ic = ImportableContents
<$> filterM (wanted dbhandle) (importableContents ic)
<*> mapM (filterunwanted dbhandle) (importableHistory ic)
filterunwantedchunked dbhandle c = ImportableContentsChunked
<$> filterunwantedchunk dbhandle (importableContentsChunk c)
<*> mapM (filterunwanted dbhandle) (importableHistoryComplete c)
filterunwantedchunk dbhandle c = ImportableContentsChunk
<$> pure (importableContentsSubDir c)
<*> filterM (wantedunder dbhandle (importableContentsSubDir c))
(importableContentsSubTree c)
<*> pure (
importableContentsNextChunk c >>= \case
Nothing -> return Nothing
Just c' -> Just <$> filterunwantedchunk dbhandle c'
)
opendbhandle = Export.openDb (Remote.uuid r)
wanted dbhandle (loc, (_cid, sz))
| ingitdir = pure False
| otherwise =
isknown <||> (matches <&&> notignored)
where
-- Checks, from least to most expensive.
ingitdir = ".git" `elem` Posix.splitDirectories (fromImportLocation loc)
matches = matchesImportLocation matcher loc sz
isknown = isKnownImportLocation dbhandle loc
notignored = notIgnoredImportLocation importtreeconfig ci loc
wantedunder dbhandle root (loc, v) =
wanted dbhandle (importableContentsChunkFullLocation root loc, v)
isKnownImportLocation :: Export.ExportHandle -> ImportLocation -> Annex Bool
isKnownImportLocation dbhandle loc = liftIO $
not . null <$> Export.getExportTreeKey dbhandle loc
matchesImportLocation :: FileMatcher Annex -> ImportLocation -> Integer -> Annex Bool
matchesImportLocation matcher loc sz = checkMatcher' matcher mi mempty
where
mi = MatchingInfo $ ProvidedInfo
{ providedFilePath = Just (fromImportLocation loc)
, providedKey = Nothing
, providedFileSize = Just sz
, providedMimeType = Nothing
, providedMimeEncoding = Nothing
, providedLinkType = Nothing
}
notIgnoredImportLocation :: ImportTreeConfig -> CheckGitIgnore -> ImportLocation -> Annex Bool
notIgnoredImportLocation importtreeconfig ci loc = not <$> checkIgnored ci f
where
f = case importtreeconfig of
ImportSubTree dir _ ->
getTopFilePath dir P.</> fromImportLocation loc
ImportTree ->
fromImportLocation loc