{-# LANGUAGE ConstraintKinds #-}
{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE ScopedTypeVariables #-}
{-# LANGUAGE TypeFamilies #-}
module Database.Persist.Sql.Run where

import Database.Persist.Class.PersistStore
import Database.Persist.Sql.Types
import Database.Persist.Sql.Raw
import Control.Monad.Trans.Control
import Data.Pool as P
import Control.Monad.Trans.Reader hiding (local)
import Control.Monad.Trans.Resource
import Control.Monad.Logger
import Control.Monad.Base
import Control.Exception.Lifted (onException, bracket)
import Control.Monad.IO.Class
import Control.Exception (mask)
import System.Timeout (timeout)
import Data.IORef (readIORef, writeIORef, newIORef)
import qualified Data.Map as Map
import Control.Monad (liftM)

-- | Get a connection from the pool, run the given action, and then return the
-- connection to the pool.
--
-- Note: This function previously timed out after 2 seconds, but this behavior
-- was buggy and caused more problems than it solved. Since version 2.1.2, it
-- performs no timeout checks.
runSqlPool
    :: (MonadBaseControl IO m, IsSqlBackend backend)
    => ReaderT backend m a -> Pool backend -> m a
runSqlPool r pconn = withResource pconn $ runSqlConn r

-- | Like 'withResource', but times out the operation if resource
-- allocation does not complete within the given timeout period.
--
-- @since 2.0.0
withResourceTimeout
  :: forall a m b.  (MonadBaseControl IO m)
  => Int -- ^ Timeout period in microseconds
  -> Pool a
  -> (a -> m b)
  -> m (Maybe b)
{-# SPECIALIZE withResourceTimeout :: Int -> Pool a -> (a -> IO b) -> IO (Maybe b) #-}
withResourceTimeout ms pool act = control $ \runInIO -> mask $ \restore -> do
    mres <- timeout ms $ takeResource pool
    case mres of
        Nothing -> runInIO $ return (Nothing :: Maybe b)
        Just (resource, local) -> do
            ret <- restore (runInIO (liftM Just $ act resource)) `onException`
                    destroyResource pool local resource
            putResource local resource
            return ret
{-# INLINABLE withResourceTimeout #-}

runSqlConn :: (MonadBaseControl IO m, IsSqlBackend backend) => ReaderT backend m a -> backend -> m a
runSqlConn r conn = control $ \runInIO -> mask $ \restore -> do
    let conn' = persistBackend conn
        getter = getStmtConn conn'
    restore $ connBegin conn' getter
    x <- onException
            (restore $ runInIO $ runReaderT r conn)
            (restore $ connRollback conn' getter)
    restore $ connCommit conn' getter
    return x

runSqlPersistM
    :: (IsSqlBackend backend)
    => ReaderT backend (NoLoggingT (ResourceT IO)) a -> backend -> IO a
runSqlPersistM x conn = runResourceT $ runNoLoggingT $ runSqlConn x conn

runSqlPersistMPool
    :: (IsSqlBackend backend)
    => ReaderT backend (NoLoggingT (ResourceT IO)) a -> Pool backend -> IO a
runSqlPersistMPool x pool = runResourceT $ runNoLoggingT $ runSqlPool x pool

liftSqlPersistMPool
    :: (MonadIO m, IsSqlBackend backend)
    => ReaderT backend (NoLoggingT (ResourceT IO)) a -> Pool backend -> m a
liftSqlPersistMPool x pool = liftIO (runSqlPersistMPool x pool)

withSqlPool
    :: (MonadIO m, MonadLogger m, MonadBaseControl IO m, IsSqlBackend backend)
    => (LogFunc -> IO backend) -- ^ create a new connection
    -> Int -- ^ connection count
    -> (Pool backend -> m a)
    -> m a
withSqlPool mkConn connCount f =
    bracket (createSqlPool mkConn connCount) (liftIO . destroyAllResources) f

createSqlPool
    :: (MonadIO m, MonadLogger m, MonadBaseControl IO m, IsSqlBackend backend)
    => (LogFunc -> IO backend)
    -> Int
    -> m (Pool backend)
createSqlPool mkConn size = do
    logFunc <- askLogFunc
    liftIO $ createPool (mkConn logFunc) close' 1 20 size

-- NOTE: This function is a terrible, ugly hack. It would be much better to
-- just clean up monad-logger.
--
-- FIXME: in a future release, switch over to the new askLoggerIO function
-- added in monad-logger 0.3.10. That function was not available at the time
-- this code was written.
askLogFunc :: forall m. (MonadBaseControl IO m, MonadLogger m) => m LogFunc
askLogFunc = do
    ref <- liftBase $ newIORef undefined
    liftBaseWith $ \run -> writeIORef ref run
    runInBase <- liftBase $ readIORef ref
    return $ \a b c d -> do
        _ <- runInBase (monadLoggerLog a b c d)
        return ()

withSqlConn
    :: (MonadIO m, MonadBaseControl IO m, MonadLogger m, IsSqlBackend backend)
    => (LogFunc -> IO backend) -> (backend -> m a) -> m a
withSqlConn open f = do
    logFunc <- askLogFunc
    bracket (liftIO $ open logFunc) (liftIO . close') f

close' :: (IsSqlBackend backend) => backend -> IO ()
close' conn = do
    readIORef (connStmtMap $ persistBackend conn) >>= mapM_ stmtFinalize . Map.elems
    connClose $ persistBackend conn