module Happstack.Server.Internal.TimeoutManager
( Manager
, Handle
, initialize
, register
, registerKillThread
, tickle
, pause
, resume
, cancel
) where
import qualified Data.IORef as I
import Control.Concurrent (forkIO, threadDelay, myThreadId, killThread)
import Control.Monad (forever)
import qualified Control.Exception as E
newtype Manager = Manager (I.IORef [Handle])
data Handle = Handle (I.IORef (IO ())) (I.IORef State)
data State = Active | Inactive | Paused | Canceled
initialize :: Int -> IO Manager
initialize timeout = do
ref <- I.newIORef []
_ <- forkIO $ forever $ do
threadDelay timeout
ms <- I.atomicModifyIORef ref (\x -> ([], x))
ms' <- go ms id
I.atomicModifyIORef ref (\x -> (ms' x, ()))
return $ Manager ref
where
go [] front = return front
go (m@(Handle onTimeout iactive):rest) front = do
state <- I.atomicModifyIORef iactive (\x -> (go' x, x))
case state of
Inactive -> do
action <- I.readIORef onTimeout
action `E.catch` ignoreAll
go rest front
Canceled -> go rest front
_ -> go rest (front . (:) m)
go' Active = Inactive
go' x = x
ignoreAll :: E.SomeException -> IO ()
ignoreAll _ = return ()
register :: Manager -> IO () -> IO Handle
register (Manager ref) onTimeout = do
iactive <- I.newIORef Active
action <- I.newIORef onTimeout
let h = Handle action iactive
I.atomicModifyIORef ref (\x -> (h : x, ()))
return h
registerKillThread :: Manager -> IO Handle
registerKillThread m = do
tid <- myThreadId
register m $ killThread tid
tickle, pause, resume, cancel :: Handle -> IO ()
tickle (Handle _ iactive) = I.writeIORef iactive $! Active
pause (Handle _ iactive) = I.writeIORef iactive $! Paused
resume = tickle
cancel (Handle action iactive) =
do I.writeIORef iactive $! Canceled
I.writeIORef action $! (return ())