{- Persistent sqlite database handles. - - Copyright 2015-2023 Joey Hess - - Licensed under the GNU AGPL version 3 or higher. -} {-# LANGUAGE TypeFamilies, FlexibleContexts, OverloadedStrings #-} module Database.Handle ( DbHandle, openDb, TableName, queryDb, closeDb, commitDb, commitDb', ) where import Utility.Exception import Utility.FileSystemEncoding import Utility.Debug import Utility.DebugLocks import Utility.InodeCache import Database.Persist.Sqlite import qualified Database.Sqlite as Sqlite import Control.Monad import Control.Monad.IO.Class (liftIO) import Control.Monad.IO.Unlift (MonadUnliftIO, withRunInIO) import Control.Monad.Logger (MonadLoggerIO, askLoggerIO) import Control.Concurrent import Control.Concurrent.Async import Control.Exception (throwIO, BlockedIndefinitelyOnMVar(..)) import qualified Data.Text as T import Control.Monad.Trans.Resource (runResourceT) import Control.Monad.Logger (runNoLoggingT) import System.IO {- A DbHandle is a reference to a worker thread that communicates with - the database. It has a MVar which Jobs are submitted to. - There is also an MVar which it will fill when there is a fatal error-} data DbHandle = DbHandle RawFilePath (Async ()) (MVar Job) (MVar String) {- Name of a table that should exist once the database is initialized. -} type TableName = String {- Opens the database, but does not perform any migrations. Only use - once the database is known to exist and have the right tables. -} openDb :: RawFilePath -> TableName -> IO DbHandle openDb db tablename = do jobs <- newEmptyMVar errvar <- newEmptyMVar worker <- async (workerThread db tablename jobs errvar) -- work around https://github.com/yesodweb/persistent/issues/474 liftIO $ fileEncoding stderr return $ DbHandle db worker jobs errvar {- This is optional; when the DbHandle gets garbage collected it will - auto-close. -} closeDb :: DbHandle -> IO () closeDb (DbHandle _db worker jobs _) = do debugLocks $ putMVar jobs CloseJob wait worker {- Makes a query using the DbHandle. This should not be used to make - changes to the database! - - Note that the action is not run by the calling thread, but by a - worker thread. Exceptions are propigated to the calling thread. - - Only one action can be run at a time against a given DbHandle. - If called concurrently in the same process, this will block until - it is able to run. -} queryDb :: DbHandle -> SqlPersistM a -> IO a queryDb (DbHandle _db _ jobs errvar) a = do res <- newEmptyMVar putMVar jobs $ QueryJob $ debugLocks $ liftIO . putMVar res =<< tryNonAsync a debugLocks $ takeMVarSafe res >>= \case Right r -> either throwIO return r Left BlockedIndefinitelyOnMVar -> do err <- takeMVar errvar error $ "sqlite worker thread crashed: " ++ err {- Writes a change to the database. - - Writes can fail when another write is happening concurrently. - So write failures are caught and retried. - - Retries repeatedly for up to 60 seconds. Part that point, it continues - retrying only if the database shows signs of being modified by another - process at least once each 30 seconds. -} commitDb :: DbHandle -> SqlPersistM () -> IO () commitDb h@(DbHandle db _ _ _) wa = robustly (commitDb' h wa) maxretries emptyDatabaseInodeCache where robustly a retries ic = do r <- a case r of Right _ -> return () Left err -> do threadDelay briefdelay retryHelper "write to" err maxretries db retries ic $ robustly a briefdelay = 100000 -- 1/10th second maxretries = 300 :: Int -- 30 seconds of briefdelay commitDb' :: DbHandle -> SqlPersistM () -> IO (Either SomeException ()) commitDb' (DbHandle _ _ jobs _) a = do debug "Database.Handle" "commitDb start" res <- newEmptyMVar putMVar jobs $ ChangeJob $ debugLocks $ liftIO . putMVar res =<< tryNonAsync a r <- debugLocks $ takeMVar res case r of Right () -> debug "Database.Handle" "commitDb done" Left e -> debug "Database.Handle" ("commitDb failed: " ++ show e) return r data Job = QueryJob (SqlPersistM ()) | ChangeJob (SqlPersistM ()) | CloseJob workerThread :: RawFilePath -> TableName -> MVar Job -> MVar String -> IO () workerThread db tablename jobs errvar = newconn where newconn = do v <- tryNonAsync (runSqliteRobustly tablename db loop) case v of Left e -> putMVar errvar (show e) Right cont -> cont loop = do job <- liftIO (takeMVarSafe jobs) case job of -- Exception is thrown when the MVar is garbage -- collected, which means the whole DbHandle -- is not used any longer. Shutdown cleanly. Left BlockedIndefinitelyOnMVar -> return (return ()) Right CloseJob -> return (return ()) Right (QueryJob a) -> a >> loop Right (ChangeJob a) -> do a -- Exit the sqlite connection so the -- database gets updated on disk. return newconn {- Like runSqlite, but more robust. - - New database connections can sometimes take a while to become usable, - and selects will fail with ErrorBusy in the meantime. This may be due to - WAL mode recovering after a crash, or a concurrent writer. - So, wait until a select succeeds; once one succeeds the connection will - stay usable. - - Also sqlite sometimes throws ErrorIO when there's not really an IO - problem, but perhaps just a short read(). So also retry on ErrorIO. - - Retries repeatedly for up to 60 seconds. Part that point, it continues - retrying only if the database shows signs of being modified by another - process at least once each 30 seconds. -} runSqliteRobustly :: TableName -> RawFilePath -> (SqlPersistM a) -> IO a runSqliteRobustly tablename db a = do conn <- opensettle maxretries emptyDatabaseInodeCache go conn maxretries emptyDatabaseInodeCache where go conn retries ic = do r <- try $ runResourceT $ runNoLoggingT $ withSqlConnRobustly db (wrapConnection conn) $ runSqlConn a case r of Right v -> return v Left ex@(Sqlite.SqliteException { Sqlite.seError = e }) | e == Sqlite.ErrorIO -> do briefdelay retryHelper "access" ex maxretries db retries ic $ go conn | otherwise -> rethrow $ errmsg "after successful open" ex opensettle retries ic = do conn <- Sqlite.open tdb settle conn retries ic tdb = T.pack (fromRawFilePath db) settle conn retries ic = do r <- try $ do stmt <- Sqlite.prepare conn nullselect void $ Sqlite.step stmt void $ Sqlite.finalize stmt case r of Right _ -> return conn Left ex@(Sqlite.SqliteException { Sqlite.seError = e }) | e == Sqlite.ErrorBusy || e == Sqlite.ErrorIO -> do when (e == Sqlite.ErrorIO) $ Sqlite.close conn briefdelay retryHelper "open" ex maxretries db retries ic $ if e == Sqlite.ErrorIO then opensettle else settle conn | otherwise -> rethrow $ errmsg "while opening database connection" ex -- This should succeed for any table. nullselect = T.pack $ "SELECT null from " ++ tablename ++ " limit 1" briefdelay = threadDelay 1000 -- 1/1000th second maxretries = 30000 :: Int -- 30 seconds of briefdelays rethrow = throwIO . userError errmsg msg e = show e ++ "(" ++ msg ++ ")" -- Like withSqlConn, but more robust. withSqlConnRobustly :: (MonadUnliftIO m , MonadLoggerIO m , IsPersistBackend backend , BaseBackend backend ~ SqlBackend , BackendCompatible SqlBackend backend ) => RawFilePath -> (LogFunc -> IO backend) -> (backend -> m a) -> m a withSqlConnRobustly db open f = do logFunc <- askLoggerIO withRunInIO $ \run -> bracket (open logFunc) (closeRobustly db) (run . f) {- Sqlite can throw ErrorBusy while closing a database; this catches - the exception and retries. - - Retries repeatedly for up to 60 seconds. Part that point, it continues - retrying only if the database shows signs of being modified by another - process at least once each 30 seconds. -} closeRobustly :: (IsPersistBackend backend , BaseBackend backend ~ SqlBackend , BackendCompatible SqlBackend backend ) => RawFilePath -> backend -> IO () closeRobustly db conn = go maxretries emptyDatabaseInodeCache where go retries ic = do r <- try $ close' conn case r of Right () -> return () Left ex@(Sqlite.SqliteException { Sqlite.seError = e }) | e == Sqlite.ErrorBusy -> do threadDelay briefdelay retryHelper "close" ex maxretries db retries ic go | otherwise -> rethrow $ errmsg "while closing database connection" ex briefdelay = 1000 -- 1/1000th second maxretries = 30000 :: Int -- 30 seconds of briefdelays rethrow = throwIO . userError errmsg msg e = show e ++ "(" ++ msg ++ ")" {- Retries a sqlite action repeatedly, but not forever. Detects situations - when another git-annex process is suspended and has the database locked, - and eventually gives up. The retries is the current number of retries - that are left. The maxretries is how many retries to make each time - the database is seen to have been modified by some other process. -} retryHelper :: Show err => String -> err -> Int -> RawFilePath -> Int -> DatabaseInodeCache -> (Int -> DatabaseInodeCache -> IO a) -> IO a retryHelper action err maxretries db retries ic a = do let retries' = retries - 1 if retries' < 1 then do ic' <- getDatabaseInodeCache db if isDatabaseModified ic ic' then a maxretries ic' else giveup (databaseAccessStalledMsg action db err) else a retries' ic databaseAccessStalledMsg :: Show err => String -> RawFilePath -> err -> String databaseAccessStalledMsg action db err = "Repeatedly unable to " ++ action ++ " sqlite database " ++ fromRawFilePath db ++ ": " ++ show err ++ ". " ++ "Perhaps another git-annex process is suspended and is " ++ "keeping this database locked?" data DatabaseInodeCache = DatabaseInodeCache (Maybe InodeCache) (Maybe InodeCache) emptyDatabaseInodeCache :: DatabaseInodeCache emptyDatabaseInodeCache = DatabaseInodeCache Nothing Nothing getDatabaseInodeCache :: RawFilePath -> IO DatabaseInodeCache getDatabaseInodeCache db = DatabaseInodeCache <$> genInodeCache db noTSDelta <*> genInodeCache (db <> "-wal") noTSDelta isDatabaseModified :: DatabaseInodeCache -> DatabaseInodeCache -> Bool isDatabaseModified (DatabaseInodeCache a1 b1) (DatabaseInodeCache a2 b2) = ismodified a1 a2 || ismodified b1 b2 where ismodified (Just a) (Just b) = not (compareStrong a b) ismodified Nothing Nothing = False ismodified _ _ = True takeMVarSafe :: MVar a -> IO (Either BlockedIndefinitelyOnMVar a) takeMVarSafe = try . takeMVar