1112 lines
37 KiB
Haskell
1112 lines
37 KiB
Haskell
{- git-annex file content managing
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-
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- Copyright 2010-2024 Joey Hess <id@joeyh.name>
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-
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- Licensed under the GNU AGPL version 3 or higher.
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-}
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{-# LANGUAGE CPP #-}
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{-# LANGUAGE OverloadedStrings #-}
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module Annex.Content (
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inAnnex,
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inAnnex',
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inAnnexSafe,
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inAnnexCheck,
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objectFileExists,
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lockContentShared,
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lockContentForRemoval,
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ContentRemovalLock,
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RetrievalSecurityPolicy(..),
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getViaTmp,
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getViaTmpFromDisk,
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verificationOfContentFailed,
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checkDiskSpaceToGet,
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checkSecureHashes,
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prepTmp,
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withTmp,
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checkDiskSpace,
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needMoreDiskSpace,
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moveAnnex,
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populatePointerFile,
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linkToAnnex,
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linkFromAnnex,
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linkFromAnnex',
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LinkAnnexResult(..),
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unlinkAnnex,
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checkedCopyFile,
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linkOrCopy,
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linkOrCopy',
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sendAnnex,
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prepSendAnnex,
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prepSendAnnex',
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removeAnnex,
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moveBad,
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KeyLocation(..),
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listKeys,
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listKeys',
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saveState,
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downloadUrl,
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preseedTmp,
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dirKeys,
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withObjectLoc,
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staleKeysPrune,
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pruneTmpWorkDirBefore,
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isUnmodified,
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isUnmodifiedCheap,
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verifyKeyContentPostRetrieval,
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verifyKeyContent,
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VerifyConfig,
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VerifyConfigA(..),
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Verification(..),
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unVerified,
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withTmpWorkDir,
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KeyStatus(..),
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isKeyUnlockedThin,
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getKeyStatus,
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getKeyFileStatus,
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cleanObjectDirs,
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contentSize,
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) where
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import System.IO.Unsafe (unsafeInterleaveIO)
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import qualified Data.Set as S
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import Annex.Common
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import Annex.Content.Presence
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import Annex.Content.LowLevel
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import Annex.Content.PointerFile
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import Annex.Verify
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import qualified Git
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import qualified Annex
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import qualified Annex.Queue
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import qualified Annex.Branch
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import qualified Annex.Url as Url
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import qualified Backend
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import qualified Database.Keys
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import Git.FilePath
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import Annex.Perms
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import Annex.Link
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import Annex.LockPool
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import Annex.LockFile
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import Annex.UUID
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import Annex.InodeSentinal
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import Annex.ReplaceFile
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import Annex.AdjustedBranch (adjustedBranchRefresh)
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import Annex.DirHashes
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import Messages.Progress
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import Types.Remote (RetrievalSecurityPolicy(..), VerifyConfigA(..))
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import Types.NumCopies
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import Types.Key
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import Types.Transfer
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import Logs.Transfer
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import Logs.Location
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import Utility.InodeCache
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import Utility.CopyFile
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import Utility.Metered
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import Utility.HumanTime
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import Utility.TimeStamp
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#ifndef mingw32_HOST_OS
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import Utility.FileMode
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#endif
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import qualified Utility.RawFilePath as R
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import qualified System.FilePath.ByteString as P
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import System.PosixCompat.Files (isSymbolicLink, linkCount)
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import Data.Time.Clock.POSIX
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{- Prevents the content from being removed while the action is running.
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- Uses a shared lock.
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-
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- If locking fails, or the content is not present, throws an exception
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- rather than running the action.
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-
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- When a Duration is provided, the content is prevented from being removed
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- for that amount of time, even if the current process is terminated.
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- (This is only done when using a separate lock file from the content
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- file eg in v10 and higher repositories.)
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-}
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lockContentShared :: Key -> Maybe Duration -> (VerifiedCopy -> Annex a) -> Annex a
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lockContentShared key mduration a = do
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retention <- case mduration of
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Nothing -> pure Nothing
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Just duration -> do
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rt <- calcRepo (gitAnnexContentRetentionTimestamp key)
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now <- liftIO getPOSIXTime
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pure $ Just
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( rt
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, now + fromIntegral (durationSeconds duration)
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)
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lockContentUsing (lock retention) key notpresent $
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ifM (inAnnex key)
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( do
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u <- getUUID
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withVerifiedCopy LockedCopy u (return (Right True)) a
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, notpresent
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)
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where
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notpresent = giveup $ "failed to lock content: not present"
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#ifndef mingw32_HOST_OS
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lock retention _ (Just lockfile) =
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( posixLocker tryLockShared lockfile >>= \case
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Just lck -> do
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writeretention retention
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return (Just lck)
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Nothing -> return Nothing
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, Just $ posixLocker tryLockExclusive lockfile >>= \case
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Just lck -> do
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dropretention retention
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return (Just lck)
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Nothing -> return Nothing
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)
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lock _ contentfile Nothing =
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( tryLockShared Nothing contentfile
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, Nothing
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)
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#else
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lock retention v =
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let (locker, postunlock) = winLocker lockShared v
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in
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( locker >>= \case
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Just lck -> do
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writeretention retention
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return (Just lck)
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Nothing -> return Nothing
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, \lckfile -> do
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maybe noop (\a -> a lckfile) postunlock
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lockdropretention v retention
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)
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lockdropretention _ Nothing = noop
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lockdropretention v retention@(Just _) = do
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-- In order to dropretention, have to
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-- take an exclusive lock.
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let (exlocker, expostunlock) =
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winLocker lockExclusive v
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exlocker >>= \case
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Nothing -> noop
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Just lck -> do
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dropretention retention
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liftIO $ dropLock lck
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fromMaybe noop expostunlock
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#endif
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writeretention Nothing = noop
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writeretention (Just (rt, retentionts)) =
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writeContentRetentionTimestamp key rt retentionts
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-- When this is called, an exclusive lock has been taken, so no other
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-- processes can be writing to the retention time stamp file.
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-- The timestamp in the file may have been written by this
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-- call to lockContentShared or a later call. Only delete the file
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-- in the former case.
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dropretention Nothing = noop
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dropretention (Just (rt, retentionts)) =
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readContentRetentionTimestamp rt >>= \case
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Just ts | ts == retentionts ->
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removeRetentionTimeStamp key rt
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_ -> noop
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{- Exclusively locks content, including checking the retention timestamp,
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- while performing an action that might remove it.
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-
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- If locking fails, throws an exception rather than running the action.
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-
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- When the content file itself is used as the lock file,
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- and locking fails because the the content is not present, runs the
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- fallback action instead. However, the content is not guaranteed to be
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- present when this succeeds.
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-}
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lockContentForRemoval :: Key -> Annex a -> (ContentRemovalLock -> Annex a) -> Annex a
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lockContentForRemoval key fallback a = lockContentUsing lock key fallback $
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a (ContentRemovalLock key)
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where
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#ifndef mingw32_HOST_OS
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lock _ (Just lockfile) =
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( checkRetentionTimestamp key
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(posixLocker tryLockExclusive lockfile)
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, Nothing
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)
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{- No lock file, so the content file itself is locked.
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- Since content files are stored with the write bit
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- disabled, have to fiddle with permissions to open
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- for an exclusive lock. -}
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lock contentfile Nothing =
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let lck = bracket_
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(thawContent contentfile)
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(freezeContent contentfile)
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(tryLockExclusive Nothing contentfile)
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in (lck, Nothing)
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#else
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lock = checkRetentionTimestamp key
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(winLocker lockExclusive)
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#endif
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{- Passed the object content file, and maybe a separate lock file to use,
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- when the content file itself should not be locked. -}
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type ContentLocker
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= RawFilePath
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-> Maybe LockFile
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->
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( Annex (Maybe LockHandle)
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-- ^ Takes the lock, which may be shared or exclusive.
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#ifndef mingw32_HOST_OS
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, Maybe (Annex (Maybe LockHandle))
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-- ^ When the above takes a shared lock, this is used
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-- to take an exclusive lock, after dropping the shared lock,
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-- and prior to deleting the lock file, in order to
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-- ensure that no other processes also have a shared lock.
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#else
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, Maybe (RawFilePath -> Annex ())
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-- ^ On Windows, this is called after the lock is dropped,
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-- but before the lock file is cleaned up.
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#endif
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)
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#ifndef mingw32_HOST_OS
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posixLocker :: (Maybe ModeSetter -> LockFile -> Annex (Maybe LockHandle)) -> LockFile -> Annex (Maybe LockHandle)
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posixLocker takelock lockfile = do
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mode <- annexFileMode
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modifyContentDirWhenExists lockfile $
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takelock (Just mode) lockfile
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#else
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winLocker :: (LockFile -> IO (Maybe LockHandle)) -> ContentLocker
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winLocker takelock _ (Just lockfile) =
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let lck = do
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modifyContentDir lockfile $
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void $ liftIO $ tryIO $
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writeFile (fromRawFilePath lockfile) ""
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liftIO $ takelock lockfile
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in (lck, Nothing)
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-- never reached; windows always uses a separate lock file
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winLocker _ _ Nothing = (return Nothing, Nothing)
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#endif
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{- The fallback action is run if the ContentLocker throws an IO exception
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- and the content is not present. It's not guaranteed to always run when
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- the content is not present, because the content file is not always
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- the file that is locked. -}
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lockContentUsing :: ContentLocker -> Key -> Annex a -> Annex a -> Annex a
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lockContentUsing contentlocker key fallback a = withContentLockFile key $ \mlockfile -> do
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contentfile <- calcRepo (gitAnnexLocation key)
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let (locker, sharedtoexclusive) = contentlocker contentfile mlockfile
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bracket
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(lock locker mlockfile)
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(either (const noop) (unlock sharedtoexclusive mlockfile))
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go
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where
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alreadylocked = giveup "content is locked"
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failedtolock e = giveup $ "failed to lock content: " ++ show e
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#ifndef mingw32_HOST_OS
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lock locker mlockfile =
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#else
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lock locker _mlockfile =
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#endif
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tryIO $ locker >>= \case
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Nothing -> alreadylocked
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Just h ->
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#ifndef mingw32_HOST_OS
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case mlockfile of
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Nothing -> return h
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Just lockfile ->
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ifM (checkSaneLock lockfile h)
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( return h
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, alreadylocked
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)
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#else
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return h
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#endif
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go (Right _) = a
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go (Left e) = ifM (inAnnex key)
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( failedtolock e
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, fallback
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)
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#ifndef mingw32_HOST_OS
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unlock sharedtoexclusive mlockfile lck = case (sharedtoexclusive, mlockfile) of
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-- We have a shared lock, so other processes may also
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-- have shared locks of the same lock file. To avoid
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-- deleting the lock file when there are other shared
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-- locks, try to convert to an exclusive lock, and only
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-- delete it when that succeeds.
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--
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-- Since other processes might be doing the same,
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-- a race is possible where we open the lock file
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-- and then another process takes the exclusive lock and
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-- deletes it, leaving us with an invalid lock. To avoid
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-- that race, checkSaneLock is used after taking the lock
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-- here, and above.
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(Just exclusivelocker, Just lockfile) -> do
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liftIO $ dropLock lck
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exclusivelocker >>= \case
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Nothing -> return ()
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Just h -> do
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whenM (checkSaneLock lockfile h) $ do
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cleanuplockfile lockfile
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liftIO $ dropLock h
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-- We have an exclusive lock, so no other process can have
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-- the lock file locked, and so it's safe to remove it, as
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-- long as all lock attempts use checkSaneLock.
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_ -> do
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maybe noop cleanuplockfile mlockfile
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liftIO $ dropLock lck
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#else
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unlock postunlock mlockfile lck = do
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-- Can't delete a locked file on Windows,
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-- so close our lock first. If there are other shared
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-- locks, they will prevent the lock file deletion from
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-- happening.
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liftIO $ dropLock lck
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case mlockfile of
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Nothing -> noop -- never reached
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Just lockfile -> do
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maybe noop (\a -> a lockfile) postunlock
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cleanuplockfile lockfile
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#endif
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cleanuplockfile lockfile = void $ tryNonAsync $ do
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thawContentDir lockfile
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liftIO $ removeWhenExistsWith R.removeLink lockfile
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cleanObjectDirs lockfile
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{- Runs an action, passing it the temp file to get,
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- and if the action succeeds, verifies the file matches
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- the key and moves the file into the annex as a key's content. -}
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getViaTmp :: RetrievalSecurityPolicy -> VerifyConfig -> Key -> AssociatedFile -> Maybe FileSize -> (RawFilePath -> Annex (Bool, Verification)) -> Annex Bool
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getViaTmp rsp v key af sz action =
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checkDiskSpaceToGet key sz False $
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getViaTmpFromDisk rsp v key af action
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{- Like getViaTmp, but does not check that there is enough disk space
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- for the incoming key. For use when the key content is already on disk
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- and not being copied into place. -}
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getViaTmpFromDisk :: RetrievalSecurityPolicy -> VerifyConfig -> Key -> AssociatedFile -> (RawFilePath -> Annex (Bool, Verification)) -> Annex Bool
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getViaTmpFromDisk rsp v key af action = checkallowed $ do
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tmpfile <- prepTmp key
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resuming <- liftIO $ R.doesPathExist tmpfile
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(ok, verification) <- action tmpfile
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-- When the temp file already had content, we don't know if
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-- that content is good or not, so only trust if it the action
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-- Verified it in passing. Otherwise, force verification even
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-- if the VerifyConfig normally disables it.
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let verification' = if resuming
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then case verification of
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Verified -> Verified
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_ -> MustVerify
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else verification
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if ok
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then ifM (verifyKeyContentPostRetrieval rsp v verification' key tmpfile)
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( pruneTmpWorkDirBefore tmpfile (moveAnnex key af)
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, do
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verificationOfContentFailed tmpfile
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return False
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)
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-- On transfer failure, the tmp file is left behind, in case
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-- caller wants to resume its transfer
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else return False
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where
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-- Avoid running the action to get the content when the
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-- RetrievalSecurityPolicy would cause verification to always fail.
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checkallowed a = case rsp of
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RetrievalAllKeysSecure -> a
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RetrievalVerifiableKeysSecure -> ifM (isVerifiable key)
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( a
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, ifM (annexAllowUnverifiedDownloads <$> Annex.getGitConfig)
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( a
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, warnUnverifiableInsecure key >> return False
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)
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)
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{- When the content of a file that was successfully transferred from a remote
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- fails to verify, use this to display a message so the user knows why it
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- failed, and to clean up the corrupted content.
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-
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- The bad content is not retained, because the transfer of it succeeded.
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- So it's not incomplete and a resume using it will not work. While
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- some protocols like rsync could recover such a bad content file,
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- they are assumed to not write out bad data to a file in the first place.
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- Most protocols, including the P2P protocol, pick up downloads where they
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- left off, and so if the bad content were not deleted, repeated downloads
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- would continue to fail.
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-}
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verificationOfContentFailed :: RawFilePath -> Annex ()
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verificationOfContentFailed tmpfile = do
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warning "Verification of content failed"
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pruneTmpWorkDirBefore tmpfile
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(liftIO . removeWhenExistsWith R.removeLink)
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{- Checks if there is enough free disk space to download a key
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- to its temp file.
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-
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- When the temp file already exists, count the space it is using as
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- free, since the download will overwrite it or resume.
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-
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- Wen there's enough free space, runs the download action.
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-}
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checkDiskSpaceToGet :: Key -> Maybe FileSize -> a -> Annex a -> Annex a
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checkDiskSpaceToGet key sz unabletoget getkey = do
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tmp <- fromRepo (gitAnnexTmpObjectLocation key)
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e <- liftIO $ doesFileExist (fromRawFilePath tmp)
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alreadythere <- liftIO $ if e
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then getFileSize tmp
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else return 0
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ifM (checkDiskSpace sz Nothing key alreadythere True)
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( do
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-- The tmp file may not have been left writable
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when e $ thawContent tmp
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getkey
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, return unabletoget
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)
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prepTmp :: Key -> Annex RawFilePath
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prepTmp key = do
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tmp <- fromRepo $ gitAnnexTmpObjectLocation key
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createAnnexDirectory (parentDir tmp)
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return tmp
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{- Prepares a temp file for a key, runs an action on it, and cleans up
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- the temp file. If the action throws an exception, the temp file is
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- left behind, which allows for resuming.
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-}
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withTmp :: Key -> (RawFilePath -> Annex a) -> Annex a
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withTmp key action = do
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tmp <- prepTmp key
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res <- action tmp
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pruneTmpWorkDirBefore tmp (liftIO . removeWhenExistsWith R.removeLink)
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return res
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{- Moves a key's content into .git/annex/objects/
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-
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- When a key has associated pointer files, the object is hard
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- linked (or copied) to the files, and the object file is left thawed.
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-
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- What if the key there already has content? This could happen for
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- various reasons; perhaps the same content is being annexed again.
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- Perhaps there has been a hash collision generating the keys.
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-
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- The current strategy is to assume that in this case it's safe to delete
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- one of the two copies of the content; and the one already in the annex
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- is left there, assuming it's the original, canonical copy.
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-
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- I considered being more paranoid, and checking that both files had
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- the same content. Decided against it because A) users explicitly choose
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- a backend based on its hashing properties and so if they're dealing
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- with colliding files it's their own fault and B) adding such a check
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- would not catch all cases of colliding keys. For example, perhaps
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- a remote has a key; if it's then added again with different content then
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- the overall system now has two different pieces of content for that
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- key, and one of them will probably get deleted later. So, adding the
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- check here would only raise expectations that git-annex cannot truly
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- meet.
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-
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- May return false, when a particular variety of key is not being
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- accepted into the repository. Will display a warning message in this
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- case. May also throw exceptions in some cases.
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-}
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moveAnnex :: Key -> AssociatedFile -> RawFilePath -> Annex Bool
|
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moveAnnex key af src = ifM (checkSecureHashes' key)
|
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( do
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withObjectLoc key storeobject
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return True
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, return False
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)
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where
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storeobject dest = ifM (liftIO $ R.doesPathExist dest)
|
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( alreadyhave
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, adjustedBranchRefresh af $ modifyContentDir dest $ do
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liftIO $ moveFile src dest
|
|
-- Freeze the object file now that it is in place.
|
|
-- Waiting until now to freeze it allows for freeze
|
|
-- hooks that prevent moving the file.
|
|
freezeContent dest
|
|
g <- Annex.gitRepo
|
|
fs <- map (`fromTopFilePath` g)
|
|
<$> Database.Keys.getAssociatedFiles key
|
|
unless (null fs) $ do
|
|
destic <- withTSDelta $
|
|
liftIO . genInodeCache dest
|
|
ics <- mapM (populatePointerFile (Restage True) key dest) fs
|
|
Database.Keys.addInodeCaches key
|
|
(catMaybes (destic:ics))
|
|
)
|
|
alreadyhave = liftIO $ R.removeLink src
|
|
|
|
checkSecureHashes :: Key -> Annex (Maybe String)
|
|
checkSecureHashes key = ifM (Backend.isCryptographicallySecureKey key)
|
|
( return Nothing
|
|
, ifM (annexSecureHashesOnly <$> Annex.getGitConfig)
|
|
( return $ Just $ "annex.securehashesonly blocked adding " ++ decodeBS (formatKeyVariety (fromKey keyVariety key)) ++ " key"
|
|
, return Nothing
|
|
)
|
|
)
|
|
|
|
checkSecureHashes' :: Key -> Annex Bool
|
|
checkSecureHashes' key = checkSecureHashes key >>= \case
|
|
Nothing -> return True
|
|
Just msg -> do
|
|
warning $ UnquotedString $ msg ++ " to annex objects"
|
|
return False
|
|
|
|
data LinkAnnexResult = LinkAnnexOk | LinkAnnexFailed | LinkAnnexNoop
|
|
deriving (Eq)
|
|
|
|
{- Populates the annex object file by hard linking or copying a source
|
|
- file to it. -}
|
|
linkToAnnex :: Key -> RawFilePath -> Maybe InodeCache -> Annex LinkAnnexResult
|
|
linkToAnnex key src srcic = ifM (checkSecureHashes' key)
|
|
( do
|
|
dest <- calcRepo (gitAnnexLocation key)
|
|
modifyContentDir dest $ linkAnnex To key src srcic dest Nothing
|
|
, return LinkAnnexFailed
|
|
)
|
|
|
|
{- Makes a destination file be a link or copy from the annex object.
|
|
-
|
|
- linkAnnex stats the file after copying it to add to the inode
|
|
- cache. But dest may be a file in the working tree, which could
|
|
- get modified immediately after being populated. To avoid such a
|
|
- race, call linkAnnex on a temporary file and move it into place
|
|
- afterwards. Note that a consequence of this is that, if the file
|
|
- already exists, it will be overwritten.
|
|
-}
|
|
linkFromAnnex :: Key -> RawFilePath -> Maybe FileMode -> Annex LinkAnnexResult
|
|
linkFromAnnex key dest destmode =
|
|
replaceFile' (const noop) (fromRawFilePath dest) (== LinkAnnexOk) $ \tmp ->
|
|
linkFromAnnex' key tmp destmode
|
|
|
|
{- This is only safe to use when dest is not a worktree file. -}
|
|
linkFromAnnex' :: Key -> RawFilePath -> Maybe FileMode -> Annex LinkAnnexResult
|
|
linkFromAnnex' key dest destmode = do
|
|
src <- calcRepo (gitAnnexLocation key)
|
|
srcic <- withTSDelta (liftIO . genInodeCache src)
|
|
linkAnnex From key src srcic dest destmode
|
|
|
|
data FromTo = From | To
|
|
|
|
{- Hard links or copies from or to the annex object location.
|
|
- Updates inode cache.
|
|
-
|
|
- Freezes or thaws the destination appropriately.
|
|
-
|
|
- When a hard link is made, the annex object necessarily has to be thawed
|
|
- too. So, adding an object to the annex with a hard link can prevent
|
|
- losing the content if the source file is deleted, but does not
|
|
- guard against modifications.
|
|
-
|
|
- Nothing is done if the destination file already exists.
|
|
-}
|
|
linkAnnex :: FromTo -> Key -> RawFilePath -> Maybe InodeCache -> RawFilePath -> Maybe FileMode -> Annex LinkAnnexResult
|
|
linkAnnex _ _ _ Nothing _ _ = return LinkAnnexFailed
|
|
linkAnnex fromto key src (Just srcic) dest destmode =
|
|
withTSDelta (liftIO . genInodeCache dest) >>= \case
|
|
Just destic -> do
|
|
cs <- Database.Keys.getInodeCaches key
|
|
if null cs
|
|
then Database.Keys.addInodeCaches key [srcic, destic]
|
|
else Database.Keys.addInodeCaches key [srcic]
|
|
return LinkAnnexNoop
|
|
Nothing -> linkOrCopy key src dest destmode >>= \case
|
|
Nothing -> failed
|
|
Just r -> do
|
|
case fromto of
|
|
From -> thawContent dest
|
|
To -> case r of
|
|
Copied -> freezeContent dest
|
|
Linked -> noop
|
|
checksrcunchanged
|
|
where
|
|
failed = do
|
|
Database.Keys.addInodeCaches key [srcic]
|
|
return LinkAnnexFailed
|
|
checksrcunchanged = withTSDelta (liftIO . genInodeCache src) >>= \case
|
|
Just srcic' | compareStrong srcic srcic' -> do
|
|
destic <- withTSDelta (liftIO . genInodeCache dest)
|
|
Database.Keys.addInodeCaches key $
|
|
catMaybes [destic, Just srcic]
|
|
return LinkAnnexOk
|
|
_ -> do
|
|
liftIO $ removeWhenExistsWith R.removeLink dest
|
|
failed
|
|
|
|
{- Removes the annex object file for a key. Lowlevel. -}
|
|
unlinkAnnex :: Key -> Annex ()
|
|
unlinkAnnex key = do
|
|
obj <- calcRepo (gitAnnexLocation key)
|
|
modifyContentDir obj $ do
|
|
secureErase obj
|
|
liftIO $ removeWhenExistsWith R.removeLink obj
|
|
|
|
{- Runs an action to transfer an object's content. The action is also
|
|
- passed the size of the object.
|
|
-
|
|
- In some cases, it's possible for the file to change as it's being sent.
|
|
- If this happens, runs the rollback action and throws an exception.
|
|
- The rollback action should remove the data that was transferred.
|
|
-}
|
|
sendAnnex :: Key -> Maybe FilePath -> Annex () -> (FilePath -> FileSize -> Annex a) -> Annex a
|
|
sendAnnex key o rollback sendobject = go =<< prepSendAnnex' key o
|
|
where
|
|
go (Just (f, sz, check)) = do
|
|
r <- sendobject f sz
|
|
check >>= \case
|
|
Nothing -> return r
|
|
Just err -> do
|
|
rollback
|
|
giveup err
|
|
go Nothing = giveup "content not available to send"
|
|
|
|
{- Returns a file that contains an object's content,
|
|
- and a check to run after the transfer is complete.
|
|
-
|
|
- When a file is unlocked, it's possible for its content to
|
|
- change as it's being sent. The check detects this case
|
|
- and returns False.
|
|
-
|
|
- Note that the returned check action is, in some cases, run in the
|
|
- Annex monad of the remote that is receiving the object, rather than
|
|
- the sender. So it cannot rely on Annex state.
|
|
-}
|
|
prepSendAnnex :: Key -> Maybe FilePath -> Annex (Maybe (FilePath, FileSize, Annex Bool))
|
|
prepSendAnnex key Nothing = withObjectLoc key $ \f -> do
|
|
let retval c cs = return $ Just
|
|
( fromRawFilePath f
|
|
, inodeCacheFileSize c
|
|
, sameInodeCache f cs
|
|
)
|
|
cache <- Database.Keys.getInodeCaches key
|
|
if null cache
|
|
-- Since no inode cache is in the database, this
|
|
-- object is not currently unlocked. But that could
|
|
-- change while the transfer is in progress, so
|
|
-- generate an inode cache for the starting
|
|
-- content.
|
|
then maybe (return Nothing) (\fc -> retval fc [fc])
|
|
=<< withTSDelta (liftIO . genInodeCache f)
|
|
-- Verify that the object is not modified. Usually this
|
|
-- only has to check the inode cache, but if the cache
|
|
-- is somehow stale, it will fall back to verifying its
|
|
-- content.
|
|
else withTSDelta (liftIO . genInodeCache f) >>= \case
|
|
Just fc -> ifM (isUnmodified' key f fc cache)
|
|
( retval fc (fc:cache)
|
|
, return Nothing
|
|
)
|
|
Nothing -> return Nothing
|
|
-- If the provided object file is the annex object file, handle as above.
|
|
prepSendAnnex key (Just o) = withObjectLoc key $ \aof ->
|
|
let o' = toRawFilePath o
|
|
in if aof == o'
|
|
then prepSendAnnex key Nothing
|
|
else do
|
|
withTSDelta (liftIO . genInodeCache o') >>= \case
|
|
Nothing -> return Nothing
|
|
Just c -> return $ Just
|
|
( o
|
|
, inodeCacheFileSize c
|
|
, sameInodeCache o' [c]
|
|
)
|
|
|
|
prepSendAnnex' :: Key -> Maybe FilePath -> Annex (Maybe (FilePath, FileSize, Annex (Maybe String)))
|
|
prepSendAnnex' key o = prepSendAnnex key o >>= \case
|
|
Just (f, sz, checksuccess) ->
|
|
let checksuccess' = ifM checksuccess
|
|
( return Nothing
|
|
, return (Just "content changed while it was being sent")
|
|
)
|
|
in return (Just (f, sz, checksuccess'))
|
|
Nothing -> return Nothing
|
|
|
|
cleanObjectLoc :: Key -> Annex () -> Annex ()
|
|
cleanObjectLoc key cleaner = do
|
|
file <- calcRepo (gitAnnexLocation key)
|
|
void $ tryIO $ thawContentDir file
|
|
{- Thawing is not necessary when the file was frozen only
|
|
- by removing write perms. But if there is a thaw hook, it may do
|
|
- something else that is necessary to allow the file to be
|
|
- deleted.
|
|
-}
|
|
whenM hasThawHook $
|
|
void $ tryIO $ thawContent file
|
|
|
|
cleaner
|
|
cleanObjectDirs file
|
|
|
|
{- Given a filename inside the object directory, tries to remove the object
|
|
- directory, as well as the object hash directories.
|
|
-
|
|
- Does nothing if the object directory is not empty, and does not
|
|
- throw an exception if it's unable to remove a directory. -}
|
|
cleanObjectDirs :: RawFilePath -> Annex ()
|
|
cleanObjectDirs f = do
|
|
HashLevels n <- objectHashLevels <$> Annex.getGitConfig
|
|
liftIO $ go f (succ n)
|
|
where
|
|
go _ 0 = noop
|
|
go file n = do
|
|
let dir = parentDir file
|
|
maybe noop (const $ go dir (n-1))
|
|
<=< catchMaybeIO $ tryWhenExists $
|
|
removeDirectory (fromRawFilePath dir)
|
|
|
|
{- Removes a key's file from .git/annex/objects/ -}
|
|
removeAnnex :: ContentRemovalLock -> Annex ()
|
|
removeAnnex (ContentRemovalLock key) = withObjectLoc key $ \file ->
|
|
cleanObjectLoc key $ do
|
|
secureErase file
|
|
liftIO $ removeWhenExistsWith R.removeLink file
|
|
g <- Annex.gitRepo
|
|
mapM_ (\f -> void $ tryIO $ resetpointer $ fromTopFilePath f g)
|
|
=<< Database.Keys.getAssociatedFiles key
|
|
Database.Keys.removeInodeCaches key
|
|
where
|
|
-- Check associated pointer file for modifications, and reset if
|
|
-- it's unmodified.
|
|
resetpointer file = unlessM (liftIO $ isSymbolicLink <$> R.getSymbolicLinkStatus file) $
|
|
ifM (isUnmodified key file)
|
|
( adjustedBranchRefresh (AssociatedFile (Just file)) $
|
|
depopulatePointerFile key file
|
|
-- Modified file, so leave it alone.
|
|
-- If it was a hard link to the annex object,
|
|
-- that object might have been frozen as part of the
|
|
-- removal process, so thaw it.
|
|
, void $ tryIO $ thawContent file
|
|
)
|
|
|
|
{- Moves a key out of .git/annex/objects/ into .git/annex/bad, and
|
|
- returns the file it was moved to. -}
|
|
moveBad :: Key -> Annex RawFilePath
|
|
moveBad key = do
|
|
src <- calcRepo (gitAnnexLocation key)
|
|
bad <- fromRepo gitAnnexBadDir
|
|
let dest = bad P.</> P.takeFileName src
|
|
createAnnexDirectory (parentDir dest)
|
|
cleanObjectLoc key $
|
|
liftIO $ moveFile src dest
|
|
logStatus key InfoMissing
|
|
return dest
|
|
|
|
data KeyLocation = InAnnex | InAnywhere
|
|
|
|
{- InAnnex only lists keys with content in .git/annex/objects.
|
|
- InAnywhere lists all keys that have directories in
|
|
- .git/annex/objects, whether or not the content is present.
|
|
-}
|
|
listKeys :: KeyLocation -> Annex [Key]
|
|
listKeys keyloc = listKeys' keyloc (const (pure True))
|
|
|
|
{- Due to use of unsafeInterleaveIO, the passed filter action
|
|
- will be run in a copy of the Annex state, so any changes it
|
|
- makes to the state will not be preserved. -}
|
|
listKeys' :: KeyLocation -> (Key -> Annex Bool) -> Annex [Key]
|
|
listKeys' keyloc want = do
|
|
dir <- fromRepo gitAnnexObjectDir
|
|
s <- Annex.getState id
|
|
r <- Annex.getRead id
|
|
depth <- gitAnnexLocationDepth <$> Annex.getGitConfig
|
|
liftIO $ walk (s, r) depth (fromRawFilePath dir)
|
|
where
|
|
walk s depth dir = do
|
|
contents <- catchDefaultIO [] (dirContents dir)
|
|
if depth < 2
|
|
then do
|
|
contents' <- filterM present contents
|
|
keys <- filterM (Annex.eval s . want) $
|
|
mapMaybe (fileKey . P.takeFileName . toRawFilePath) contents'
|
|
continue keys []
|
|
else do
|
|
let deeper = walk s (depth - 1)
|
|
continue [] (map deeper contents)
|
|
continue keys [] = return keys
|
|
continue keys (a:as) = do
|
|
{- Force lazy traversal with unsafeInterleaveIO. -}
|
|
morekeys <- unsafeInterleaveIO a
|
|
continue (morekeys++keys) as
|
|
|
|
inanywhere = case keyloc of
|
|
InAnywhere -> True
|
|
_ -> False
|
|
|
|
present _ | inanywhere = pure True
|
|
present d = presentInAnnex d
|
|
|
|
presentInAnnex = doesFileExist . contentfile
|
|
contentfile d = d </> takeFileName d
|
|
|
|
{- Things to do to record changes to content when shutting down.
|
|
-
|
|
- It's acceptable to avoid committing changes to the branch,
|
|
- especially if performing a short-lived action.
|
|
-}
|
|
saveState :: Bool -> Annex ()
|
|
saveState nocommit = doSideAction $ do
|
|
Annex.Queue.flush
|
|
Database.Keys.flushDb
|
|
unless nocommit $
|
|
whenM (annexAlwaysCommit <$> Annex.getGitConfig) $
|
|
Annex.Branch.commit =<< Annex.Branch.commitMessage
|
|
|
|
{- Downloads content from any of a list of urls, displaying a progress
|
|
- meter.
|
|
-
|
|
- Only displays error message if all the urls fail to download.
|
|
- When listfailedurls is set, lists each url and why it failed.
|
|
- Otherwise, only displays one error message, from one of the urls
|
|
- that failed.
|
|
-}
|
|
downloadUrl :: Bool -> Key -> MeterUpdate -> Maybe IncrementalVerifier -> [Url.URLString] -> FilePath -> Url.UrlOptions -> Annex Bool
|
|
downloadUrl listfailedurls k p iv urls file uo =
|
|
-- Poll the file to handle configurations where an external
|
|
-- download command is used.
|
|
meteredFile (toRawFilePath file) (Just p) k (go urls [])
|
|
where
|
|
go (u:us) errs p' = Url.download' p' iv u file uo >>= \case
|
|
Right () -> return True
|
|
Left err -> do
|
|
-- If the incremental verifier was fed anything
|
|
-- while the download that failed ran, it's unable
|
|
-- to be used for the other urls.
|
|
case iv of
|
|
Just iv' ->
|
|
liftIO $ positionIncrementalVerifier iv' >>= \case
|
|
Just n | n > 0 -> unableIncrementalVerifier iv'
|
|
_ -> noop
|
|
Nothing -> noop
|
|
go us ((u, err) : errs) p'
|
|
go [] [] _ = return False
|
|
go [] errs@((_, err):_) _ = do
|
|
if listfailedurls
|
|
then warning $ UnquotedString $
|
|
unlines $ flip map errs $ \(u, err') ->
|
|
u ++ " " ++ err'
|
|
else warning $ UnquotedString err
|
|
return False
|
|
|
|
{- Copies a key's content, when present, to a temp file.
|
|
- This is used to speed up some rsyncs. -}
|
|
preseedTmp :: Key -> FilePath -> Annex Bool
|
|
preseedTmp key file = go =<< inAnnex key
|
|
where
|
|
go False = return False
|
|
go True = do
|
|
ok <- copy
|
|
when ok $ thawContent (toRawFilePath file)
|
|
return ok
|
|
copy = ifM (liftIO $ doesFileExist file)
|
|
( return True
|
|
, do
|
|
s <- fromRawFilePath <$> (calcRepo $ gitAnnexLocation key)
|
|
liftIO $ ifM (doesFileExist s)
|
|
( copyFileExternal CopyTimeStamps s file
|
|
, return False
|
|
)
|
|
)
|
|
|
|
{- Finds files directly inside a directory like gitAnnexBadDir
|
|
- (not in subdirectories) and returns the corresponding keys. -}
|
|
dirKeys :: (Git.Repo -> RawFilePath) -> Annex [Key]
|
|
dirKeys dirspec = do
|
|
dir <- fromRawFilePath <$> fromRepo dirspec
|
|
ifM (liftIO $ doesDirectoryExist dir)
|
|
( do
|
|
contents <- liftIO $ getDirectoryContents dir
|
|
files <- liftIO $ filterM doesFileExist $
|
|
map (dir </>) contents
|
|
return $ mapMaybe (fileKey . P.takeFileName . toRawFilePath) files
|
|
, return []
|
|
)
|
|
|
|
{- Looks in the specified directory for bad/tmp keys, and returns a list
|
|
- of those that might still have value, or might be stale and removable.
|
|
-
|
|
- Also, stale keys that can be proven to have no value
|
|
- (ie, their content is already present) are deleted.
|
|
-}
|
|
staleKeysPrune :: (Git.Repo -> RawFilePath) -> Bool -> Annex [Key]
|
|
staleKeysPrune dirspec nottransferred = do
|
|
contents <- dirKeys dirspec
|
|
|
|
dups <- filterM inAnnex contents
|
|
let stale = contents `exclude` dups
|
|
|
|
dir <- fromRepo dirspec
|
|
forM_ dups $ \k ->
|
|
pruneTmpWorkDirBefore (dir P.</> keyFile k)
|
|
(liftIO . R.removeLink)
|
|
|
|
if nottransferred
|
|
then do
|
|
inprogress <- S.fromList . map (transferKey . fst)
|
|
<$> getTransfers
|
|
return $ filter (`S.notMember` inprogress) stale
|
|
else return stale
|
|
|
|
{- Prune the work dir associated with the specified content file,
|
|
- before performing an action that deletes the file, or moves it away.
|
|
-
|
|
- This preserves the invariant that the workdir never exists without
|
|
- the content file.
|
|
-}
|
|
pruneTmpWorkDirBefore :: RawFilePath -> (RawFilePath -> Annex a) -> Annex a
|
|
pruneTmpWorkDirBefore f action = do
|
|
let workdir = fromRawFilePath $ gitAnnexTmpWorkDir f
|
|
liftIO $ whenM (doesDirectoryExist workdir) $
|
|
removeDirectoryRecursive workdir
|
|
action f
|
|
|
|
{- Runs an action, passing it a temporary work directory where
|
|
- it can write files while receiving the content of a key.
|
|
-
|
|
- Preserves the invariant that the workdir never exists without the
|
|
- content file, by creating an empty content file first.
|
|
-
|
|
- On exception, or when the action returns Nothing,
|
|
- the temporary work directory is retained (unless
|
|
- empty), so anything in it can be used on resume.
|
|
-}
|
|
withTmpWorkDir :: Key -> (RawFilePath -> Annex (Maybe a)) -> Annex (Maybe a)
|
|
withTmpWorkDir key action = do
|
|
-- Create the object file if it does not exist. This way,
|
|
-- staleKeysPrune only has to look for object files, and can
|
|
-- clean up gitAnnexTmpWorkDir for those it finds.
|
|
obj <- prepTmp key
|
|
let obj' = fromRawFilePath obj
|
|
unlessM (liftIO $ doesFileExist obj') $ do
|
|
liftIO $ writeFile obj' ""
|
|
setAnnexFilePerm obj
|
|
let tmpdir = gitAnnexTmpWorkDir obj
|
|
createAnnexDirectory tmpdir
|
|
res <- action tmpdir
|
|
case res of
|
|
Just _ -> liftIO $ removeDirectoryRecursive (fromRawFilePath tmpdir)
|
|
Nothing -> liftIO $ void $ tryIO $ removeDirectory (fromRawFilePath tmpdir)
|
|
return res
|
|
|
|
{- Finds items in the first, smaller list, that are not
|
|
- present in the second, larger list.
|
|
-
|
|
- Constructing a single set, of the list that tends to be
|
|
- smaller, appears more efficient in both memory and CPU
|
|
- than constructing and taking the S.difference of two sets. -}
|
|
exclude :: Ord a => [a] -> [a] -> [a]
|
|
exclude [] _ = [] -- optimisation
|
|
exclude smaller larger = S.toList $ remove larger $ S.fromList smaller
|
|
where
|
|
remove a b = foldl (flip S.delete) b a
|
|
|
|
data KeyStatus
|
|
= KeyMissing
|
|
| KeyPresent
|
|
| KeyUnlockedThin
|
|
-- ^ An annex.thin worktree file is hard linked to the object.
|
|
| KeyLockedThin
|
|
-- ^ The object has hard links, but the file being fscked
|
|
-- is not the one that hard links to it.
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deriving (Show)
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|
|
|
isKeyUnlockedThin :: KeyStatus -> Bool
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|
isKeyUnlockedThin KeyUnlockedThin = True
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|
isKeyUnlockedThin KeyLockedThin = False
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|
isKeyUnlockedThin KeyPresent = False
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|
isKeyUnlockedThin KeyMissing = False
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|
|
|
getKeyStatus :: Key -> Annex KeyStatus
|
|
getKeyStatus key = catchDefaultIO KeyMissing $ do
|
|
afs <- not . null <$> Database.Keys.getAssociatedFiles key
|
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obj <- calcRepo (gitAnnexLocation key)
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|
multilink <- ((> 1) . linkCount <$> liftIO (R.getFileStatus obj))
|
|
return $ if multilink && afs
|
|
then KeyUnlockedThin
|
|
else KeyPresent
|
|
|
|
getKeyFileStatus :: Key -> RawFilePath -> Annex KeyStatus
|
|
getKeyFileStatus key file = do
|
|
s <- getKeyStatus key
|
|
case s of
|
|
KeyUnlockedThin -> catchDefaultIO KeyUnlockedThin $
|
|
ifM (isJust <$> isAnnexLink file)
|
|
( return KeyLockedThin
|
|
, return KeyUnlockedThin
|
|
)
|
|
_ -> return s
|
|
|
|
{- Gets the size of the content of a key when it is present.
|
|
- Useful when the key does not have keySize set.
|
|
-
|
|
- When the object file appears possibly modified with annex.thin set, does
|
|
- not do an expensive verification that the content is good, just returns
|
|
- Nothing.
|
|
-}
|
|
contentSize :: Key -> Annex (Maybe FileSize)
|
|
contentSize key = catchDefaultIO Nothing $
|
|
withObjectLoc key $ \loc ->
|
|
withTSDelta (liftIO . genInodeCache loc) >>= \case
|
|
Just ic -> ifM (unmodified ic)
|
|
( return (Just (inodeCacheFileSize ic))
|
|
, return Nothing
|
|
)
|
|
Nothing -> return Nothing
|
|
where
|
|
unmodified ic =
|
|
ifM (annexThin <$> Annex.getGitConfig)
|
|
( isUnmodifiedCheap' key ic
|
|
, return True
|
|
)
|
|
|
|
{- Avoids writing a timestamp when the file already contains a later
|
|
- timestamp. The file is written atomically, so when it contained an
|
|
- earlier timestamp, a reader will always see one or the other timestamp.
|
|
-}
|
|
writeContentRetentionTimestamp :: Key -> RawFilePath -> POSIXTime -> Annex ()
|
|
writeContentRetentionTimestamp key rt t = do
|
|
lckfile <- calcRepo (gitAnnexContentRetentionTimestampLock key)
|
|
modifyContentDirWhenExists lckfile $ bracket (lock lckfile) unlock $ \_ ->
|
|
readContentRetentionTimestamp rt >>= \case
|
|
Just ts | ts >= t -> return ()
|
|
_ -> replaceFile (const noop) (fromRawFilePath rt) $ \tmp ->
|
|
liftIO $ writeFile (fromRawFilePath tmp) $ show t
|
|
where
|
|
lock = takeExclusiveLock
|
|
unlock = liftIO . dropLock
|
|
|
|
{- Does not need locking because the file is written atomically. -}
|
|
readContentRetentionTimestamp :: RawFilePath -> Annex (Maybe POSIXTime)
|
|
readContentRetentionTimestamp rt =
|
|
liftIO $ join <$> tryWhenExists
|
|
(parsePOSIXTime <$> readFile (fromRawFilePath rt))
|
|
|
|
{- Checks if the retention timestamp is in the future, if so returns
|
|
- Nothing.
|
|
-
|
|
- If the retention timestamp is in the past, the retention timestamp file
|
|
- is deleted. This cleans up stale retention timestamps.
|
|
-
|
|
- The locker should take a lock that prevents any other processes from
|
|
- writing to the retention timestamp. So the retention timestamp lock
|
|
- is not used here and can also be deleted when deleting the retention
|
|
- timestamp file.
|
|
-}
|
|
checkRetentionTimestamp :: Key -> Annex (Maybe LockHandle) -> Annex (Maybe LockHandle)
|
|
checkRetentionTimestamp key locker = do
|
|
rt <- calcRepo (gitAnnexContentRetentionTimestamp key)
|
|
readContentRetentionTimestamp rt >>= \case
|
|
Nothing -> locker
|
|
Just ts -> do
|
|
now <- liftIO getPOSIXTime
|
|
if now > ts
|
|
then locker >>= \case
|
|
Nothing -> return Nothing
|
|
Just lock -> do
|
|
removeRetentionTimeStamp key rt
|
|
return (Just lock)
|
|
else return Nothing
|
|
|
|
{- Remove the retention timestamp and its lock file. Another lock must
|
|
- be held, that prevents anything else writing to the file at the same
|
|
- time. -}
|
|
removeRetentionTimeStamp :: Key -> RawFilePath -> Annex ()
|
|
removeRetentionTimeStamp key rt = modifyContentDirWhenExists rt $ do
|
|
liftIO $ removeWhenExistsWith R.removeLink rt
|
|
rtl <- calcRepo (gitAnnexContentRetentionTimestampLock key)
|
|
liftIO $ removeWhenExistsWith R.removeLink rtl
|