{- Sqlite database of information about Keys
-
- Copyright 2015-2019 Joey Hess <id@joeyh.name>
-
- Licensed under the GNU AGPL version 3 or higher.
-}
{-# LANGUAGE QuasiQuotes, TypeFamilies, TemplateHaskell #-}
{-# LANGUAGE OverloadedStrings, GADTs, FlexibleContexts #-}
{-# LANGUAGE MultiParamTypeClasses, GeneralizedNewtypeDeriving #-}
{-# LANGUAGE RankNTypes, ScopedTypeVariables #-}
{-# LANGUAGE UndecidableInstances #-}
module Database.Keys.SQL where
import Database.Types
import Database.Handle
import qualified Database.Queue as H
import Utility.InodeCache
import Git.FilePath
import Database.Persist.Sql
import Database.Persist.TH
import Data.Time.Clock
import Control.Monad
import Data.Maybe
import qualified Data.Text as T
import qualified Data.Conduit.List as CL
share [mkPersist sqlSettings, mkMigrate "migrateKeysDb"] [persistLowerCase|
Associated
key IKey
file SFilePath
KeyFileIndex key file
FileKeyIndex file key
Content
key IKey
cache SInodeCache
KeyCacheIndex key cache
|]
containedTable :: TableName
containedTable = "content"
createTables :: SqlPersistM ()
createTables = void $ runMigrationSilent migrateKeysDb
newtype ReadHandle = ReadHandle H.DbQueue
readDb :: SqlPersistM a -> ReadHandle -> IO a
readDb a (ReadHandle h) = H.queryDbQueue h a
newtype WriteHandle = WriteHandle H.DbQueue
queueDb :: SqlPersistM () -> WriteHandle -> IO ()
queueDb a (WriteHandle h) = H.queueDb h checkcommit a
where
-- commit queue after 1000 changes or 5 minutes, whichever comes first
checkcommit sz lastcommittime
| sz > 1000 = return True
| otherwise = do
now <- getCurrentTime
return $ diffUTCTime now lastcommittime > 300
addAssociatedFile :: IKey -> TopFilePath -> WriteHandle -> IO ()
addAssociatedFile ik f = queueDb $ do
-- If the same file was associated with a different key before,
-- remove that.
deleteWhere [AssociatedFile ==. af, AssociatedKey !=. ik]
void $ insertUnique $ Associated ik af
where
af = toSFilePath (getTopFilePath f)
-- Does not remove any old association for a file, but less expensive
-- than addAssociatedFile. Calling dropAllAssociatedFiles first and then
-- this is an efficient way to update all associated files.
addAssociatedFileFast :: IKey -> TopFilePath -> WriteHandle -> IO ()
addAssociatedFileFast ik f = queueDb $ void $ insertUnique $ Associated ik af
where
af = toSFilePath (getTopFilePath f)
dropAllAssociatedFiles :: WriteHandle -> IO ()
dropAllAssociatedFiles = queueDb $
deleteWhere ([] :: [Filter Associated])
{- Note that the files returned were once associated with the key, but
- some of them may not be any longer. -}
getAssociatedFiles :: IKey -> ReadHandle -> IO [TopFilePath]
getAssociatedFiles ik = readDb $ do
l <- selectList [AssociatedKey ==. ik] []
return $ map (asTopFilePath . fromSFilePath . associatedFile . entityVal) l
{- Gets any keys that are on record as having a particular associated file.
- (Should be one or none but the database doesn't enforce that.) -}
getAssociatedKey :: TopFilePath -> ReadHandle -> IO [IKey]
getAssociatedKey f = readDb $ do
l <- selectList [AssociatedFile ==. af] []
return $ map (associatedKey . entityVal) l
where
af = toSFilePath (getTopFilePath f)
removeAssociatedFile :: IKey -> TopFilePath -> WriteHandle -> IO ()
removeAssociatedFile ik f = queueDb $
deleteWhere [AssociatedKey ==. ik, AssociatedFile ==. af]
where
af = toSFilePath (getTopFilePath f)
addInodeCaches :: IKey -> [InodeCache] -> WriteHandle -> IO ()
addInodeCaches ik is = queueDb $
forM_ is $ \i -> insertUnique $ Content ik (toSInodeCache i)
{- A key may have multiple InodeCaches; one for the annex object, and one
- for each pointer file that is a copy of it. -}
getInodeCaches :: IKey -> ReadHandle -> IO [InodeCache]
getInodeCaches ik = readDb $ do
l <- selectList [ContentKey ==. ik] []
return $ map (fromSInodeCache . contentCache . entityVal) l
removeInodeCaches :: IKey -> WriteHandle -> IO ()
removeInodeCaches ik = queueDb $
deleteWhere [ContentKey ==. ik]
{- Check if the inode is known to be used for an annexed file.
-
- This is currently slow due to the lack of indexes.
-}
isInodeKnown :: InodeCache -> SentinalStatus -> ReadHandle -> IO Bool
isInodeKnown i s = readDb query
where
query
| sentinalInodesChanged s =
withRawQuery likesql [] $ isJust <$> CL.head
| otherwise =
isJust <$> selectFirst [ContentCache ==. si] []
si = toSInodeCache i
likesql = T.concat
[ "SELECT key FROM content WHERE "
, T.intercalate " OR " $ map mklike (likeInodeCacheWeak i)
, " LIMIT 1"
]
mklike p = T.concat
[ "cache LIKE "
, "'I \"" -- SInodeCache serializes as I "..."
, T.pack p
, "\"'"
]