git-annex/Remote/Git.hs

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{- Standard git remotes.
-
- Copyright 2011-2021 Joey Hess <id@joeyh.name>
-
- Licensed under the GNU AGPL version 3 or higher.
-}
{-# LANGUAGE CPP #-}
{-# LANGUAGE OverloadedStrings #-}
module Remote.Git (
remote,
configRead,
repoAvail,
onLocalRepo,
) where
import Annex.Common
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import Annex.Ssh
import Types.Remote
import Types.GitConfig
import qualified Git
import qualified Git.Config
import qualified Git.Construct
import qualified Git.Command
import qualified Git.GCrypt
import qualified Git.Types as Git
import qualified Annex
import Logs.Presence
import Annex.Transfer
import Annex.CopyFile
import Annex.Verify
import Annex.Content (verificationOfContentFailed)
import Annex.UUID
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import qualified Annex.Content
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import qualified Annex.BranchState
import qualified Annex.Branch
import qualified Annex.Url as Url
import qualified Annex.SpecialRemote.Config as SpecialRemote
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import Utility.Tmp
import Config
import Config.Cost
import Annex.SpecialRemote.Config
import Config.DynamicConfig
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import Annex.Init
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import Types.CleanupActions
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import qualified CmdLine.GitAnnexShell.Fields as Fields
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import Logs.Location
import Utility.Metered
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import Utility.Env
import Utility.Batch
import Remote.Helper.Git
import Remote.Helper.Messages
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import Remote.Helper.ExportImport
import qualified Remote.Helper.Ssh as Ssh
import qualified Remote.GCrypt
import qualified Remote.GitLFS
import qualified Remote.P2P
import qualified Remote.Helper.P2P as P2PHelper
import P2P.Address
import Annex.Path
import Creds
import Types.NumCopies
import Types.ProposedAccepted
import Annex.Action
import Messages.Progress
import Control.Concurrent
import qualified Data.Map as M
import qualified Data.ByteString as S
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import qualified Utility.RawFilePath as R
import Network.URI
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remote :: RemoteType
remote = RemoteType
{ typename = "git"
, enumerate = list
, generate = gen
, configParser = mkRemoteConfigParser
[ optionalStringParser locationField
(FieldDesc "url of git remote to remember with special remote")
]
, setup = gitSetup
, exportSupported = exportUnsupported
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, importSupported = importUnsupported
add thirdPartyPopulated interface This is to support, eg a borg repo as a special remote, which is populated not by running git-annex commands, but by using borg. Then git-annex sync lists the content of the remote, learns which files are annex objects, and treats those as present in the remote. So, most of the import machinery is reused, to a new purpose. While normally importtree maintains a remote tracking branch, this does not, because the files stored in the remote are annex object files, not user-visible filenames. But, internally, a git tree is still generated, of the files on the remote that are annex objects. This tree is used by retrieveExportWithContentIdentifier, etc. As with other import/export remotes, that the tree is recorded in the export log, and gets grafted into the git-annex branch. importKey changed to be able to return Nothing, to indicate when an ImportLocation is not an annex object and so should be skipped from being included in the tree. It did not seem to make sense to have git-annex import do this, since from the user's perspective, it's not like other imports. So only git-annex sync does it. Note that, git-annex sync does not yet download objects from such remotes that are preferred content. importKeys is run with content downloading disabled, to avoid getting the content of all objects. Perhaps what's needed is for seekSyncContent to be run with these remotes, but I don't know if it will just work (in particular, it needs to avoid trying to transfer objects to them), so I skipped that for now. (Untested and unused as of yet.) This commit was sponsored by Jochen Bartl on Patreon.
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, thirdPartyPopulated = False
}
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locationField :: RemoteConfigField
locationField = Accepted "location"
list :: Bool -> Annex [Git.Repo]
list autoinit = do
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c <- fromRepo Git.config
rs <- mapM (tweakurl c) =<< Annex.getGitRemotes
mapM (configRead autoinit) rs
where
annexurl r = remoteConfig r "annexurl"
tweakurl c r = do
let n = fromJust $ Git.remoteName r
case M.lookup (annexurl r) c of
Nothing -> return r
Just url -> inRepo $ \g ->
Git.Construct.remoteNamed n $
Git.Construct.fromRemoteLocation (Git.fromConfigValue url) False g
{- Git remotes are normally set up using standard git commands, not
- git-annex initremote and enableremote.
-
- For initremote, probe the location to find the uuid.
- and set up a git remote.
-
- enableremote simply sets up a git remote using the stored location.
- No attempt is made to make the remote be accessible via ssh key setup,
- etc.
-}
gitSetup :: SetupStage -> Maybe UUID -> Maybe CredPair -> RemoteConfig -> RemoteGitConfig -> Annex (RemoteConfig, UUID)
gitSetup Init mu _ c _ = do
let location = maybe (giveup "Specify location=url") fromProposedAccepted $
M.lookup locationField c
r <- inRepo $ Git.Construct.fromRemoteLocation location False
r' <- tryGitConfigRead False r False
let u = getUncachedUUID r'
if u == NoUUID
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then giveup "git repository does not have an annex uuid"
else if isNothing mu || mu == Just u
then enableRemote (Just u) c
else giveup "git repository does not have specified uuid"
gitSetup (Enable _) mu _ c _ = enableRemote mu c
gitSetup (AutoEnable _) mu _ c _ = enableRemote mu c
enableRemote :: Maybe UUID -> RemoteConfig -> Annex (RemoteConfig, UUID)
enableRemote (Just u) c = do
inRepo $ Git.Command.run
[ Param "remote"
, Param "add"
, Param $ fromMaybe (giveup "no name") (SpecialRemote.lookupName c)
, Param $ maybe (giveup "no location") fromProposedAccepted (M.lookup locationField c)
]
return (c, u)
enableRemote Nothing _ = giveup "unable to enable git remote with no specified uuid"
{- It's assumed to be cheap to read the config of non-URL remotes, so this is
- done each time git-annex is run in a way that uses remotes, unless
- annex-checkuuid is false.
-
- Conversely, the config of an URL remote is only read when there is no
- cached UUID value. -}
configRead :: Bool -> Git.Repo -> Annex Git.Repo
configRead autoinit r = do
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gc <- Annex.getRemoteGitConfig r
hasuuid <- (/= NoUUID) <$> getRepoUUID r
annexignore <- liftIO $ getDynamicConfig (remoteAnnexIgnore gc)
case (repoCheap r, annexignore, hasuuid) of
(_, True, _) -> return r
(True, _, _)
| remoteAnnexCheckUUID gc -> tryGitConfigRead autoinit r hasuuid
| otherwise -> return r
(False, _, False) -> configSpecialGitRemotes r >>= \case
Nothing -> tryGitConfigRead autoinit r False
Just r' -> return r'
_ -> return r
gen :: Git.Repo -> UUID -> RemoteConfig -> RemoteGitConfig -> RemoteStateHandle -> Annex (Maybe Remote)
gen r u rc gc rs
-- Remote.GitLFS may be used with a repo that is also encrypted
-- with gcrypt so is checked first.
| remoteAnnexGitLFS gc = Remote.GitLFS.gen r u rc gc rs
| Git.GCrypt.isEncrypted r = Remote.GCrypt.chainGen r u rc gc rs
| otherwise = case repoP2PAddress r of
Nothing -> do
st <- mkState r u gc
c <- parsedRemoteConfig remote rc
go st c <$> remoteCost gc c defcst
Just addr -> Remote.P2P.chainGen addr r u rc gc rs
where
defcst = if repoCheap r then cheapRemoteCost else expensiveRemoteCost
go st c cst = Just new
where
new = Remote
{ uuid = u
, cost = cst
, name = Git.repoDescribe r
, storeKey = copyToRemote new st
, retrieveKeyFile = copyFromRemote new st
, retrieveKeyFileCheap = copyFromRemoteCheap st r
, retrievalSecurityPolicy = RetrievalAllKeysSecure
, removeKey = dropKey new st
, lockContent = Just (lockKey new st)
, checkPresent = inAnnex new st
, checkPresentCheap = repoCheap r
, exportActions = exportUnsupported
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, importActions = importUnsupported
, whereisKey = Nothing
, remoteFsck = if Git.repoIsUrl r
then Nothing
else Just $ fsckOnRemote r
, repairRepo = if Git.repoIsUrl r
then Nothing
else Just $ repairRemote r
, config = c
, localpath = localpathCalc r
, getRepo = getRepoFromState st
, gitconfig = gc
, readonly = Git.repoIsHttp r
, appendonly = False
, untrustworthy = False
, availability = availabilityCalc r
, remotetype = remote
, mkUnavailable = unavailable r u rc gc rs
, getInfo = gitRepoInfo new
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, claimUrl = Nothing
, checkUrl = Nothing
, remoteStateHandle = rs
}
unavailable :: Git.Repo -> UUID -> RemoteConfig -> RemoteGitConfig -> RemoteStateHandle -> Annex (Maybe Remote)
unavailable r = gen r'
where
r' = case Git.location r of
Git.Local { Git.gitdir = d } ->
r { Git.location = Git.LocalUnknown d }
Git.Url url -> case uriAuthority url of
Just auth ->
let auth' = auth { uriRegName = "!dne!" }
in r { Git.location = Git.Url (url { uriAuthority = Just auth' })}
Nothing -> r { Git.location = Git.Unknown }
_ -> r -- already unavailable
{- Checks relatively inexpensively if a repository is available for use. -}
repoAvail :: Git.Repo -> Annex Bool
repoAvail r
| Git.repoIsHttp r = return True
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| Git.GCrypt.isEncrypted r = do
g <- gitRepo
liftIO $ do
er <- Git.GCrypt.encryptedRemote g r
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if Git.repoIsLocal er || Git.repoIsLocalUnknown er
then catchBoolIO $
void (Git.Config.read er) >> return True
else return True
| Git.repoIsUrl r = return True
| Git.repoIsLocalUnknown r = return False
| otherwise = liftIO $ isJust <$> catchMaybeIO (Git.Config.read r)
{- Tries to read the config for a specified remote, updates state, and
- returns the updated repo. -}
tryGitConfigRead :: Bool -> Git.Repo -> Bool -> Annex Git.Repo
tryGitConfigRead autoinit r hasuuid
| haveconfig r = return r -- already read
| Git.repoIsSsh r = storeUpdatedRemote $ do
v <- Ssh.onRemote NoConsumeStdin r
( pipedconfig Git.Config.ConfigList autoinit (Git.repoDescribe r)
, return (Left "configlist failed")
)
"configlist" [] configlistfields
case v of
Right r'
| haveconfig r' -> return r'
| otherwise -> configlist_failed
Left _ -> configlist_failed
| Git.repoIsHttp r = storeUpdatedRemote geturlconfig
| Git.GCrypt.isEncrypted r = handlegcrypt =<< getConfigMaybe (remoteAnnexConfig r "uuid")
| Git.repoIsUrl r = do
set_ignore "uses a protocol not supported by git-annex" False
return r
| otherwise = storeUpdatedRemote $
readlocalannexconfig
`catchNonAsync` const failedreadlocalconfig
where
haveconfig = not . M.null . Git.config
pipedconfig st mustincludeuuuid configloc cmd params = do
v <- liftIO $ Git.Config.fromPipe r cmd params st
case v of
Right (r', val, _err) -> do
unless (isUUIDConfigured r' || S.null val || not mustincludeuuuid) $ do
warning $ UnquotedString $ "Failed to get annex.uuid configuration of repository " ++ Git.repoDescribe r
warning $ UnquotedString $ "Instead, got: " ++ show val
warning "This is unexpected; please check the network transport!"
return $ Right r'
Left l -> do
warning $ UnquotedString $ "Unable to parse git config from " ++ configloc
return $ Left (show l)
geturlconfig = Url.withUrlOptionsPromptingCreds $ \uo -> do
let url = Git.repoLocation r ++ "/config"
v <- withTmpFile "git-annex.tmp" $ \tmpfile h -> do
liftIO $ hClose h
Url.download' nullMeterUpdate Nothing url tmpfile uo >>= \case
Right () -> pipedconfig Git.Config.ConfigNullList
False url "git"
[ Param "config"
, Param "--null"
, Param "--list"
, Param "--file"
, File tmpfile
]
Left err -> return (Left err)
case v of
Right r' -> do
-- Cache when http remote is not bare for
-- optimisation.
unless (fromMaybe False $ Git.Config.isBare r') $
setremote setRemoteBare False
return r'
Left err -> do
set_ignore "not usable by git-annex" False
warning $ UnquotedString $ url ++ " " ++ err
return r
{- Is this remote just not available, or does
- it not have git-annex-shell?
- Find out by trying to fetch from the remote. -}
configlist_failed = case Git.remoteName r of
Nothing -> return r
Just n -> do
whenM (inRepo $ Git.Command.runBool [Param "fetch", Param "--quiet", Param n]) $ do
set_ignore "does not have git-annex installed" True
return r
set_ignore msg longmessage = do
case Git.remoteName r of
Nothing -> noop
Just n -> do
warning $ UnquotedString $ "Remote " ++ n ++ " " ++ msg ++ "; setting annex-ignore"
when longmessage $
warning $ UnquotedString $ "This could be a problem with the git-annex installation on the remote. Please make sure that git-annex-shell is available in PATH when you ssh into the remote. Once you have fixed the git-annex installation, run: git annex enableremote " ++ n
setremote setRemoteIgnore True
setremote setter v = case Git.remoteName r of
Nothing -> noop
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Just _ -> setter r v
handlegcrypt Nothing = return r
handlegcrypt (Just _cacheduuid) = do
-- Generate UUID from the gcrypt-id
g <- gitRepo
case Git.GCrypt.remoteRepoId g (Git.remoteName r) of
Nothing -> return r
Just v -> storeUpdatedRemote $ liftIO $ setUUID r $
genUUIDInNameSpace gCryptNameSpace v
{- The local repo may not yet be initialized, so try to initialize
- it if allowed. However, if that fails, still return the read
- git config. -}
readlocalannexconfig = do
let check = do
Annex.BranchState.disableUpdate
catchNonAsync (autoInitialize (pure [])) $ \e ->
warning $ UnquotedString $ "Remote " ++ Git.repoDescribe r ++
": " ++ show e
Annex.getState Annex.repo
s <- newLocal r
avoid flushing keys db queue after each Annex action The flush was only done Annex.run' to make sure that the queue was flushed before git-annex exits. But, doing it there means that as soon as one change gets queued, it gets flushed soon after, which contributes to excessive writes to the database, slowing git-annex down. (This does not yet speed git-annex up, but it is a stepping stone to doing so.) Database queues do not autoflush when garbage collected, so have to be flushed explicitly. I don't think it's possible to make them autoflush (except perhaps if git-annex sqitched to using ResourceT..). The comment in Database.Keys.closeDb used to be accurate, since the automatic flushing did mean that all writes reached the database even when closeDb was not called. But now, closeDb or flushDb needs to be called before stopping using an Annex state. So, removed that comment. In Remote.Git, change to using quiesce everywhere that it used to use stopCoProcesses. This means that uses on onLocal in there are just as slow as before. I considered only calling closeDb on the local git remotes when git-annex exits. But, the reason that Remote.Git calls stopCoProcesses in each onLocal is so as not to leave git processes running that have files open on the remote repo, when it's on removable media. So, it seemed to make sense to also closeDb after each one, since sqlite may also keep files open. Although that has not seemed to cause problems with removable media so far. It was also just easier to quiesce in each onLocal than once at the end. This does likely leave performance on the floor, so could be revisited. In Annex.Content.saveState, there was no reason to close the db, flushing it is enough. The rest of the changes are from auditing for Annex.new, and making sure that quiesce is called, after any action that might possibly need it. After that audit, I'm pretty sure that the change to Annex.run' is safe. The only concern might be that this does let more changes get queued for write to the db, and if git-annex is interrupted, those will be lost. But interrupting git-annex can obviously already prevent it from writing the most recent change to the db, so it must recover from such lost data... right? Sponsored-by: Dartmouth College's Datalad project
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liftIO $ Annex.eval s $ check
`finally` quiesce True
failedreadlocalconfig = do
unless hasuuid $ case Git.remoteName r of
Nothing -> noop
Just n -> do
warning $ UnquotedString $ "Remote " ++ n ++ " cannot currently be accessed."
return r
configlistfields = if autoinit
then [(Fields.autoInit, "1")]
else []
{- Handles special remotes that can be enabled by the presence of
- regular git remotes.
-
- When a remote repo is found to be such a special remote, its
- UUID is cached in the git config, and the repo returned with
- the UUID set.
-}
configSpecialGitRemotes :: Git.Repo -> Annex (Maybe Git.Repo)
configSpecialGitRemotes r = Remote.GitLFS.configKnownUrl r >>= \case
Nothing -> return Nothing
Just r' -> Just <$> storeUpdatedRemote (return r')
storeUpdatedRemote :: Annex Git.Repo -> Annex Git.Repo
storeUpdatedRemote = observe $ \r' -> do
l <- Annex.getGitRemotes
let rs = exchange l r'
Annex.changeState $ \s -> s { Annex.gitremotes = Just rs }
where
exchange [] _ = []
exchange (old:ls) new
| Git.remoteName old == Git.remoteName new =
new : exchange ls new
| otherwise =
old : exchange ls new
{- Checks if a given remote has the content for a key in its annex. -}
inAnnex :: Remote -> State -> Key -> Annex Bool
inAnnex rmt st key = do
repo <- getRepo rmt
inAnnex' repo rmt st key
inAnnex' :: Git.Repo -> Remote -> State -> Key -> Annex Bool
inAnnex' repo rmt st@(State connpool duc _ _ _) key
| Git.repoIsHttp repo = checkhttp
| Git.repoIsUrl repo = checkremote
| otherwise = checklocal
where
checkhttp = do
gc <- Annex.getGitConfig
Url.withUrlOptionsPromptingCreds $ \uo ->
anyM (\u -> Url.checkBoth u (fromKey keySize key) uo)
(keyUrls gc repo rmt key)
checkremote = P2PHelper.checkpresent (Ssh.runProto rmt connpool (cantCheck rmt)) key
checklocal = ifM duc
( guardUsable repo (cantCheck repo) $
maybe (cantCheck repo) return
=<< onLocalFast st (Annex.Content.inAnnexSafe key)
, cantCheck repo
)
keyUrls :: GitConfig -> Git.Repo -> Remote -> Key -> [String]
keyUrls gc repo r key = map tourl locs'
where
tourl l = Git.repoLocation repo ++ "/" ++ l
-- If the remote is known to not be bare, try the hash locations
-- used for non-bare repos first, as an optimisation.
locs
| remoteAnnexBare remoteconfig == Just False = annexLocationsNonBare gc key
| otherwise = annexLocationsBare gc key
#ifndef mingw32_HOST_OS
locs' = map fromRawFilePath locs
#else
locs' = map (replace "\\" "/" . fromRawFilePath) locs
#endif
remoteconfig = gitconfig r
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dropKey :: Remote -> State -> Key -> Annex ()
dropKey r st key = do
repo <- getRepo r
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dropKey' repo r st key
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dropKey' :: Git.Repo -> Remote -> State -> Key -> Annex ()
dropKey' repo r st@(State connpool duc _ _ _) key
| not $ Git.repoIsUrl repo = ifM duc
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( guardUsable repo (giveup "cannot access remote") $
commitOnCleanup repo r st $ onLocalFast st $ do
whenM (Annex.Content.inAnnex key) $ do
let cleanup = logStatus key InfoMissing
Annex.Content.lockContentForRemoval key cleanup $ \lock -> do
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Annex.Content.removeAnnex lock
cleanup
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, giveup "remote does not have expected annex.uuid value"
)
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| Git.repoIsHttp repo = giveup "dropping from http remote not supported"
| otherwise = P2PHelper.remove (Ssh.runProto r connpool (return False)) key
lockKey :: Remote -> State -> Key -> (VerifiedCopy -> Annex r) -> Annex r
lockKey r st key callback = do
repo <- getRepo r
lockKey' repo r st key callback
lockKey' :: Git.Repo -> Remote -> State -> Key -> (VerifiedCopy -> Annex r) -> Annex r
lockKey' repo r st@(State connpool duc _ _ _) key callback
| not $ Git.repoIsUrl repo = ifM duc
( guardUsable repo failedlock $ do
inorigrepo <- Annex.makeRunner
-- Lock content from perspective of remote,
-- and then run the callback in the original
-- annex monad, not the remote's.
onLocalFast st $
Annex.Content.lockContentShared key $
liftIO . inorigrepo . callback
, failedlock
)
| Git.repoIsSsh repo = do
showLocking r
let withconn = Ssh.withP2PSshConnection r connpool failedlock
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P2PHelper.lock withconn Ssh.runProtoConn (uuid r) key callback
| otherwise = failedlock
where
failedlock = giveup "can't lock content"
{- Tries to copy a key's content from a remote's annex to a file. -}
copyFromRemote :: Remote -> State -> Key -> AssociatedFile -> FilePath -> MeterUpdate -> VerifyConfig -> Annex Verification
copyFromRemote r st key file dest meterupdate vc = do
repo <- getRepo r
copyFromRemote'' repo r st key file dest meterupdate vc
copyFromRemote'' :: Git.Repo -> Remote -> State -> Key -> AssociatedFile -> FilePath -> MeterUpdate -> VerifyConfig -> Annex Verification
copyFromRemote'' repo r st@(State connpool _ _ _ _) key file dest meterupdate vc
| Git.repoIsHttp repo = verifyKeyContentIncrementally vc key $ \iv -> do
gc <- Annex.getGitConfig
ok <- Url.withUrlOptionsPromptingCreds $
Annex.Content.downloadUrl False key meterupdate iv (keyUrls gc repo r key) dest
unless ok $
giveup "failed to download content"
| not $ Git.repoIsUrl repo = guardUsable repo (giveup "cannot access remote") $ do
u <- getUUID
hardlink <- wantHardLink
let bwlimit = remoteAnnexBwLimit (gitconfig r)
-- run copy from perspective of remote
onLocalFast st $ Annex.Content.prepSendAnnex' key >>= \case
Just (object, check) -> do
let checksuccess = check >>= \case
Just err -> giveup err
Nothing -> return True
copier <- mkFileCopier hardlink st
(ok, v) <- runTransfer (Transfer Download u (fromKey id key))
Nothing file Nothing stdRetry $ \p ->
metered (Just (combineMeterUpdate p meterupdate)) key bwlimit $ \_ p' ->
copier object dest key p' checksuccess vc
if ok
then return v
else giveup "failed to retrieve content from remote"
Nothing -> giveup "content is not present in remote"
| Git.repoIsSsh repo =
P2PHelper.retrieve
(gitconfig r)
(Ssh.runProto r connpool (return (False, UnVerified)))
key file dest meterupdate vc
| otherwise = giveup "copying from non-ssh, non-http remote not supported"
copyFromRemoteCheap :: State -> Git.Repo -> Maybe (Key -> AssociatedFile -> FilePath -> Annex ())
#ifndef mingw32_HOST_OS
copyFromRemoteCheap st repo
| not $ Git.repoIsUrl repo = Just $ \key _af file -> guardUsable repo (giveup "cannot access remote") $ do
gc <- getGitConfigFromState st
loc <- liftIO $ gitAnnexLocation key repo gc
liftIO $ ifM (R.doesPathExist loc)
( do
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absloc <- absPath loc
R.createSymbolicLink absloc (toRawFilePath file)
, giveup "remote does not contain key"
)
| otherwise = Nothing
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#else
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copyFromRemoteCheap _ _ = Nothing
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#endif
{- Tries to copy a key's content to a remote's annex. -}
copyToRemote :: Remote -> State -> Key -> AssociatedFile -> MeterUpdate -> Annex ()
copyToRemote r st key file meterupdate = do
repo <- getRepo r
copyToRemote' repo r st key file meterupdate
copyToRemote' :: Git.Repo -> Remote -> State -> Key -> AssociatedFile -> MeterUpdate -> Annex ()
copyToRemote' repo r st@(State connpool duc _ _ _) key file meterupdate
| not $ Git.repoIsUrl repo = ifM duc
( guardUsable repo (giveup "cannot access remote") $ commitOnCleanup repo r st $
copylocal =<< Annex.Content.prepSendAnnex' key
, giveup "remote does not have expected annex.uuid value"
)
| Git.repoIsSsh repo =
P2PHelper.store (gitconfig r)
(Ssh.runProto r connpool (return False))
key file meterupdate
| otherwise = giveup "copying to non-ssh repo not supported"
where
copylocal Nothing = giveup "content not available"
copylocal (Just (object, check)) = do
-- The check action is going to be run in
deal with unlocked files when calling rsyncParamsRemote In copyFromRemote, it used to check isDirect, but that was not needed; the remote is sending the file, so it doesn't matter if the local, receiving repository is in direct mode or not. And, since the content is not present, yet, it's certianly not unlocked. Note that, the remote may indeed be sending an unlocked file, but sendkey uses sendAnnex, which will detect if the file is modified before or during transfer, and will exit nonzero, aborting the upload. So, the receiver doesn't need any checks. In copyToRemote, it forces recvkey to verify content whenever it's being sent from a v6 repository. recvkey is almost always going to verify content anyway, unless annex.verify is not set. So, this doesn't make it any more expensive, except for in that unusual configuration. The alternative would be to change the recvkey interface, so that the sender checks afterwards if what it was sending changed, and the receiver then throws out the bad transfer. That would be less expensive for the reciever, as it would not need to do a checksum verification. But, it would mean another network round trip, and since rsync closes the connection, it would need to open another ssh connection to do this. Even with connction caching, that would add latency to uploads. It would also complicate the interface, especially because an older git-annex-shell would not have the new interface available. For these reasons, I prefer punting on that at this time, and instead someone might set annex.verify=false and be unhappy that it still verifies.. (One other gotcha not dealt with is that a v5 repo could be upgraded to v6 while an upload is in progress, and a file unlocked and modified.) (Also, I double-checked Remote.GCrypt's calls to rsyncParamsRemote, and they're fine. When a file is being uploaded to gcrypt, or any other special repository, it is mediated by sendAnnex, so changes will be detected at that level and the special remote implementation doesn't need to worry about them.)
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-- the remote's Annex, but it needs access to the local
-- Annex monad's state.
checkio <- Annex.withCurrentState check
u <- getUUID
hardlink <- wantHardLink
let bwlimit = remoteAnnexBwLimit (gitconfig r)
-- run copy from perspective of remote
res <- onLocalFast st $ ifM (Annex.Content.inAnnex key)
( return True
, runTransfer (Transfer Download u (fromKey id key)) Nothing file Nothing stdRetry $ \p -> do
let verify = RemoteVerify r
copier <- mkFileCopier hardlink st
let rsp = RetrievalAllKeysSecure
let checksuccess = liftIO checkio >>= \case
Just err -> giveup err
Nothing -> return True
avoid flushing keys db queue after each Annex action The flush was only done Annex.run' to make sure that the queue was flushed before git-annex exits. But, doing it there means that as soon as one change gets queued, it gets flushed soon after, which contributes to excessive writes to the database, slowing git-annex down. (This does not yet speed git-annex up, but it is a stepping stone to doing so.) Database queues do not autoflush when garbage collected, so have to be flushed explicitly. I don't think it's possible to make them autoflush (except perhaps if git-annex sqitched to using ResourceT..). The comment in Database.Keys.closeDb used to be accurate, since the automatic flushing did mean that all writes reached the database even when closeDb was not called. But now, closeDb or flushDb needs to be called before stopping using an Annex state. So, removed that comment. In Remote.Git, change to using quiesce everywhere that it used to use stopCoProcesses. This means that uses on onLocal in there are just as slow as before. I considered only calling closeDb on the local git remotes when git-annex exits. But, the reason that Remote.Git calls stopCoProcesses in each onLocal is so as not to leave git processes running that have files open on the remote repo, when it's on removable media. So, it seemed to make sense to also closeDb after each one, since sqlite may also keep files open. Although that has not seemed to cause problems with removable media so far. It was also just easier to quiesce in each onLocal than once at the end. This does likely leave performance on the floor, so could be revisited. In Annex.Content.saveState, there was no reason to close the db, flushing it is enough. The rest of the changes are from auditing for Annex.new, and making sure that quiesce is called, after any action that might possibly need it. After that audit, I'm pretty sure that the change to Annex.run' is safe. The only concern might be that this does let more changes get queued for write to the db, and if git-annex is interrupted, those will be lost. But interrupting git-annex can obviously already prevent it from writing the most recent change to the db, so it must recover from such lost data... right? Sponsored-by: Dartmouth College's Datalad project
2022-10-12 17:50:46 +00:00
logStatusAfter key $ Annex.Content.getViaTmp rsp verify key file $ \dest ->
metered (Just (combineMeterUpdate meterupdate p)) key bwlimit $ \_ p' ->
copier object (fromRawFilePath dest) key p' checksuccess verify
)
unless res $
giveup "failed to send content to remote"
fsckOnRemote :: Git.Repo -> [CommandParam] -> Annex (IO Bool)
fsckOnRemote r params
| Git.repoIsUrl r = return $ return False
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| otherwise = return $ do
program <- programPath
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r' <- Git.Config.read r
environ <- getEnvironment
let environ' = addEntries
[ ("GIT_WORK_TREE", fromRawFilePath $ Git.repoPath r')
, ("GIT_DIR", fromRawFilePath $ Git.localGitDir r')
] environ
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batchCommandEnv program (Param "fsck" : params) (Just environ')
{- The passed repair action is run in the Annex monad of the remote. -}
repairRemote :: Git.Repo -> Annex Bool -> Annex (IO Bool)
repairRemote r a = return $ do
s <- Annex.new r
Annex.eval s $ do
Annex.BranchState.disableUpdate
ensureInitialized (pure [])
avoid flushing keys db queue after each Annex action The flush was only done Annex.run' to make sure that the queue was flushed before git-annex exits. But, doing it there means that as soon as one change gets queued, it gets flushed soon after, which contributes to excessive writes to the database, slowing git-annex down. (This does not yet speed git-annex up, but it is a stepping stone to doing so.) Database queues do not autoflush when garbage collected, so have to be flushed explicitly. I don't think it's possible to make them autoflush (except perhaps if git-annex sqitched to using ResourceT..). The comment in Database.Keys.closeDb used to be accurate, since the automatic flushing did mean that all writes reached the database even when closeDb was not called. But now, closeDb or flushDb needs to be called before stopping using an Annex state. So, removed that comment. In Remote.Git, change to using quiesce everywhere that it used to use stopCoProcesses. This means that uses on onLocal in there are just as slow as before. I considered only calling closeDb on the local git remotes when git-annex exits. But, the reason that Remote.Git calls stopCoProcesses in each onLocal is so as not to leave git processes running that have files open on the remote repo, when it's on removable media. So, it seemed to make sense to also closeDb after each one, since sqlite may also keep files open. Although that has not seemed to cause problems with removable media so far. It was also just easier to quiesce in each onLocal than once at the end. This does likely leave performance on the floor, so could be revisited. In Annex.Content.saveState, there was no reason to close the db, flushing it is enough. The rest of the changes are from auditing for Annex.new, and making sure that quiesce is called, after any action that might possibly need it. After that audit, I'm pretty sure that the change to Annex.run' is safe. The only concern might be that this does let more changes get queued for write to the db, and if git-annex is interrupted, those will be lost. But interrupting git-annex can obviously already prevent it from writing the most recent change to the db, so it must recover from such lost data... right? Sponsored-by: Dartmouth College's Datalad project
2022-10-12 17:50:46 +00:00
a `finally` quiesce True
data LocalRemoteAnnex = LocalRemoteAnnex Git.Repo (MVar [(Annex.AnnexState, Annex.AnnexRead)])
{- This can safely be called on a Repo that is not local, but of course
- onLocal will not work if used with the result. -}
mkLocalRemoteAnnex :: Git.Repo -> Annex (LocalRemoteAnnex)
mkLocalRemoteAnnex repo = LocalRemoteAnnex repo <$> liftIO (newMVar [])
{- Runs an action from the perspective of a local remote.
-
- The AnnexState is cached for speed and to avoid resource leaks.
avoid flushing keys db queue after each Annex action The flush was only done Annex.run' to make sure that the queue was flushed before git-annex exits. But, doing it there means that as soon as one change gets queued, it gets flushed soon after, which contributes to excessive writes to the database, slowing git-annex down. (This does not yet speed git-annex up, but it is a stepping stone to doing so.) Database queues do not autoflush when garbage collected, so have to be flushed explicitly. I don't think it's possible to make them autoflush (except perhaps if git-annex sqitched to using ResourceT..). The comment in Database.Keys.closeDb used to be accurate, since the automatic flushing did mean that all writes reached the database even when closeDb was not called. But now, closeDb or flushDb needs to be called before stopping using an Annex state. So, removed that comment. In Remote.Git, change to using quiesce everywhere that it used to use stopCoProcesses. This means that uses on onLocal in there are just as slow as before. I considered only calling closeDb on the local git remotes when git-annex exits. But, the reason that Remote.Git calls stopCoProcesses in each onLocal is so as not to leave git processes running that have files open on the remote repo, when it's on removable media. So, it seemed to make sense to also closeDb after each one, since sqlite may also keep files open. Although that has not seemed to cause problems with removable media so far. It was also just easier to quiesce in each onLocal than once at the end. This does likely leave performance on the floor, so could be revisited. In Annex.Content.saveState, there was no reason to close the db, flushing it is enough. The rest of the changes are from auditing for Annex.new, and making sure that quiesce is called, after any action that might possibly need it. After that audit, I'm pretty sure that the change to Annex.run' is safe. The only concern might be that this does let more changes get queued for write to the db, and if git-annex is interrupted, those will be lost. But interrupting git-annex can obviously already prevent it from writing the most recent change to the db, so it must recover from such lost data... right? Sponsored-by: Dartmouth College's Datalad project
2022-10-12 17:50:46 +00:00
- However, it is quiesced after each call to avoid git processes
- hanging around on removable media.
-
- The remote will be automatically initialized/upgraded first,
- when possible.
-}
onLocal :: State -> Annex a -> Annex a
onLocal (State _ _ _ _ lra) = onLocal' lra
onLocalRepo :: Git.Repo -> Annex a -> Annex a
onLocalRepo repo a = do
lra <- mkLocalRemoteAnnex repo
onLocal' lra a
newLocal :: Git.Repo -> Annex (Annex.AnnexState, Annex.AnnexRead)
newLocal repo = do
(st, rd) <- liftIO $ Annex.new repo
debugenabled <- Annex.getRead Annex.debugenabled
debugselector <- Annex.getRead Annex.debugselector
return (st, rd
{ Annex.debugenabled = debugenabled
, Annex.debugselector = debugselector
})
onLocal' :: LocalRemoteAnnex -> Annex a -> Annex a
onLocal' (LocalRemoteAnnex repo mv) a = liftIO (takeMVar mv) >>= \case
[] -> do
liftIO $ putMVar mv []
v <- newLocal repo
go (v, ensureInitialized (pure []) >> a)
(v:rest) -> do
liftIO $ putMVar mv rest
go (v, a)
where
go ((st, rd), a') = do
curro <- Annex.getState Annex.output
let act = Annex.run (st { Annex.output = curro }, rd) $
avoid flushing keys db queue after each Annex action The flush was only done Annex.run' to make sure that the queue was flushed before git-annex exits. But, doing it there means that as soon as one change gets queued, it gets flushed soon after, which contributes to excessive writes to the database, slowing git-annex down. (This does not yet speed git-annex up, but it is a stepping stone to doing so.) Database queues do not autoflush when garbage collected, so have to be flushed explicitly. I don't think it's possible to make them autoflush (except perhaps if git-annex sqitched to using ResourceT..). The comment in Database.Keys.closeDb used to be accurate, since the automatic flushing did mean that all writes reached the database even when closeDb was not called. But now, closeDb or flushDb needs to be called before stopping using an Annex state. So, removed that comment. In Remote.Git, change to using quiesce everywhere that it used to use stopCoProcesses. This means that uses on onLocal in there are just as slow as before. I considered only calling closeDb on the local git remotes when git-annex exits. But, the reason that Remote.Git calls stopCoProcesses in each onLocal is so as not to leave git processes running that have files open on the remote repo, when it's on removable media. So, it seemed to make sense to also closeDb after each one, since sqlite may also keep files open. Although that has not seemed to cause problems with removable media so far. It was also just easier to quiesce in each onLocal than once at the end. This does likely leave performance on the floor, so could be revisited. In Annex.Content.saveState, there was no reason to close the db, flushing it is enough. The rest of the changes are from auditing for Annex.new, and making sure that quiesce is called, after any action that might possibly need it. After that audit, I'm pretty sure that the change to Annex.run' is safe. The only concern might be that this does let more changes get queued for write to the db, and if git-annex is interrupted, those will be lost. But interrupting git-annex can obviously already prevent it from writing the most recent change to the db, so it must recover from such lost data... right? Sponsored-by: Dartmouth College's Datalad project
2022-10-12 17:50:46 +00:00
a' `finally` quiesce True
(ret, (st', _rd)) <- liftIO $ act `onException` cache (st, rd)
liftIO $ cache (st', rd)
return ret
cache v = do
l <- takeMVar mv
putMVar mv (v:l)
{- Faster variant of onLocal.
-
- The repository's git-annex branch is not updated, as an optimisation.
- No caller of onLocalFast can query data from the branch and be ensured
- it gets the most current value. Caller of onLocalFast can make changes
- to the branch, however.
-}
onLocalFast :: State -> Annex a -> Annex a
onLocalFast st a = onLocal st $ Annex.BranchState.disableUpdate >> a
commitOnCleanup :: Git.Repo -> Remote -> State -> Annex a -> Annex a
commitOnCleanup repo r st a = go `after` a
where
go = Annex.addCleanupAction (RemoteCleanup $ uuid r) cleanup
cleanup
| not $ Git.repoIsUrl repo = onLocalFast st $
doQuietSideAction $
Annex.Branch.commit =<< Annex.Branch.commitMessage
| otherwise = noop
wantHardLink :: Annex Bool
wantHardLink = (annexHardLink <$> Annex.getGitConfig)
-- Not unlocked files that are hard linked in the work tree,
-- because they can be modified at any time.
<&&> (not <$> annexThin <$> Annex.getGitConfig)
type FileCopier = FilePath -> FilePath -> Key -> MeterUpdate -> Annex Bool -> VerifyConfig -> Annex (Bool, Verification)
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-- If either the remote or local repository wants to use hard links,
-- the copier will do so (falling back to copying if a hard link cannot be
-- made).
--
-- When a hard link is created, returns Verified; the repo being linked
-- from is implicitly trusted, so no expensive verification needs to be
-- done. Also returns Verified if the key's content is verified while
-- copying it.
mkFileCopier :: Bool -> State -> Annex FileCopier
mkFileCopier remotewanthardlink (State _ _ copycowtried _ _) = do
localwanthardlink <- wantHardLink
let linker = \src dest -> R.createLink (toRawFilePath src) (toRawFilePath dest) >> return True
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if remotewanthardlink || localwanthardlink
then return $ \src dest k p check verifyconfig ->
ifM (liftIO (catchBoolIO (linker src dest)))
( ifM check
( return (True, Verified)
, do
verificationOfContentFailed (toRawFilePath dest)
return (False, UnVerified)
)
, copier src dest k p check verifyconfig
)
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else return copier
where
copier src dest k p check verifyconfig = do
iv <- startVerifyKeyContentIncrementally verifyconfig k
liftIO (fileCopier copycowtried src dest p iv) >>= \case
Copied -> ifM check
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( finishVerifyKeyContentIncrementally iv
, do
verificationOfContentFailed (toRawFilePath dest)
return (False, UnVerified)
)
CopiedCoW -> unVerified check
{- Normally the UUID of a local repository is checked at startup,
- but annex-checkuuid config can prevent that. To avoid getting
- confused, a deferred check is done just before the repository
- is used.
- This returns False when the repository UUID is not as expected. -}
type DeferredUUIDCheck = Annex Bool
data State = State Ssh.P2PSshConnectionPool DeferredUUIDCheck CopyCoWTried (Annex (Git.Repo, GitConfig)) LocalRemoteAnnex
getRepoFromState :: State -> Annex Git.Repo
getRepoFromState (State _ _ _ a _) = fst <$> a
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#ifndef mingw32_HOST_OS
{- The config of the remote git repository, cached for speed. -}
getGitConfigFromState :: State -> Annex GitConfig
getGitConfigFromState (State _ _ _ a _) = snd <$> a
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#endif
mkState :: Git.Repo -> UUID -> RemoteGitConfig -> Annex State
mkState r u gc = do
pool <- Ssh.mkP2PSshConnectionPool
copycowtried <- liftIO newCopyCoWTried
lra <- mkLocalRemoteAnnex r
(duc, getrepo) <- go
return $ State pool duc copycowtried getrepo lra
where
go
| remoteAnnexCheckUUID gc = return
(return True, return (r, extractGitConfig FromGitConfig r))
| otherwise = do
rv <- liftIO newEmptyMVar
let getrepo = ifM (liftIO $ isEmptyMVar rv)
( do
r' <- tryGitConfigRead False r True
let t = (r', extractGitConfig FromGitConfig r')
void $ liftIO $ tryPutMVar rv t
return t
, liftIO $ readMVar rv
)
cv <- liftIO newEmptyMVar
let duc = ifM (liftIO $ isEmptyMVar cv)
( do
r' <- fst <$> getrepo
u' <- getRepoUUID r'
let ok = u' == u
void $ liftIO $ tryPutMVar cv ok
unless ok $
warning $ UnquotedString $ Git.repoDescribe r ++ " is not the expected repository. The remote's annex-checkuuid configuration prevented noticing the change until now."
return ok
, liftIO $ readMVar cv
)
return (duc, getrepo)