{-# LANGUAGE LambdaCase #-} {-# LANGUAGE RecordWildCards #-} {-| Device for running an action at (i.e. shortly after) a certain time, which can be used to implement things like time-based cache expiry. This implementation avoids the use of polling and leans on Haskell's scheduler to achieve low-latency without lots of computational overhead. The alarm can be set multiple times, and in this case the alarm will go off at the earliest requested time. If the alarm is set in the past, the action will run immediately. When the action runs, it clears all future alarms; the action can itself set the next alarm time. To perform time-based cache expiry, create an 'AlarmClock' whose action flushes any stale entries from the cache and then calls `setAlarm` for the next time that an entry will expire (if there are any). When expiring entries are added to the cache, call 'setAlarm' to ensure that they will expire in a timely fashion. -} module Control.Concurrent.AlarmClock ( AlarmClock() , newAlarmClock , newAlarmClock' , destroyAlarmClock , withAlarmClock , setAlarm , setAlarmSTM , setAlarmNow , isAlarmSet , isAlarmSetSTM , TimeScale , MonotonicTime(..) ) where import Control.Concurrent.Async (async, wait, waitSTM, withAsync) import Control.Concurrent.STM (STM, TVar, atomically, modifyTVar', newTVarIO, orElse, readTVar, retry, writeTVar) import Control.Concurrent.Thread.Delay (delay) import Control.Exception (bracket) import Control.Monad.Fix (mfix) import GHC.Conc (labelThread, myThreadId) import Control.Monad (join) import Control.Concurrent.AlarmClock.TimeScale data AlarmSetting t = AlarmNotSet | AlarmSet t | AlarmDestroyed {-| An 'AlarmClock' is a device for running an action at (or shortly after) a certain time. -} data AlarmClock t = AlarmClock { acWaitForExit :: IO () , acNewSetting :: TVar (AlarmSetting t) } {-| Create a new 'AlarmClock' that runs the given action. Initially, there is no wakeup time set: you must call 'setAlarm' for anything else to happen. -} newAlarmClock :: TimeScale t => (AlarmClock t -> IO ()) -- ^ Action to run when the alarm goes off. The action is provided the alarm clock -- so it can set a new alarm if desired. Note that `setAlarm` must be called once -- the alarm has gone off to cause it to go off again. -> IO (AlarmClock t) newAlarmClock onWakeUp = newAlarmClock' $ const . onWakeUp {-| Create a new 'AlarmClock' that runs the given action. Initially, there is no wakeup time set: you must call 'setAlarm' for anything else to happen. -} newAlarmClock' :: TimeScale t => (AlarmClock t -> t -> IO ()) -- ^ Action to run when the alarm goes off. The action is provided the alarm clock -- so it can set a new alarm if desired, and the current time. -- Note that `setAlarm` must be called once the alarm has gone off to cause -- it to go off again. -> IO (AlarmClock t) newAlarmClock' onWakeUp = mfix $ \ac -> do acAsync <- async $ runAlarmClock ac (onWakeUp ac) AlarmClock (wait acAsync) <$> newTVarIO AlarmNotSet {-| Destroy the 'AlarmClock' so no further alarms will occur. If the alarm is currently going off then this will block until the action is finished. -} destroyAlarmClock :: AlarmClock t -> IO () destroyAlarmClock AlarmClock{..} = atomically (writeTVar acNewSetting AlarmDestroyed) >> acWaitForExit {-| The action @withAlarmClock onWakeUp inner@ runs @inner@ with a new 'AlarmClock' which is destroyed when @inner@ exits. -} withAlarmClock :: TimeScale t => (AlarmClock t -> t -> IO ()) -> (AlarmClock t -> IO a) -> IO a withAlarmClock onWakeUp inner = bracket (newAlarmClock' onWakeUp) destroyAlarmClock inner {-| Make the 'AlarmClock' go off at (or shortly after) the given time. This can be called more than once; in which case, the alarm will go off at the earliest given time. -} setAlarm :: TimeScale t => AlarmClock t -> t -> IO () setAlarm ac t = atomically $ setAlarmSTM ac t {-| Make the 'AlarmClock' go off at (or shortly after) the given time. This can be called more than once; in which case, the alarm will go off at the earliest given time. -} setAlarmSTM :: TimeScale t => AlarmClock t -> t -> STM () setAlarmSTM AlarmClock{..} t = modifyTVar' acNewSetting $ \case AlarmNotSet -> AlarmSet t AlarmSet t' -> AlarmSet $! earlierOf t t' AlarmDestroyed -> AlarmDestroyed {-| Make the 'AlarmClock' go off right now. -} setAlarmNow :: TimeScale t => AlarmClock t -> IO () setAlarmNow alarm = getAbsoluteTime >>= setAlarm alarm {-| Is the alarm set - i.e. will it go off at some point in the future even if `setAlarm` is not called? -} isAlarmSet :: AlarmClock t -> IO Bool isAlarmSet = atomically . isAlarmSetSTM {-| Is the alarm set - i.e. will it go off at some point in the future even if `setAlarm` is not called? -} isAlarmSetSTM :: AlarmClock t -> STM Bool isAlarmSetSTM AlarmClock{..} = readTVar acNewSetting >>= \case { AlarmSet _ -> return True; _ -> return False } labelMyThread :: String -> IO () labelMyThread threadLabel = myThreadId >>= flip labelThread threadLabel runAlarmClock :: TimeScale t => AlarmClock t -> (t -> IO ()) -> IO () runAlarmClock AlarmClock{..} wakeUpAction = labelMyThread "alarmclock" >> loop where loop :: IO () loop = join $ atomically whenNotSet whenNotSet :: STM (IO ()) whenNotSet = readTVar acNewSetting >>= \case AlarmNotSet -> retry AlarmDestroyed -> return $ return () AlarmSet wakeUpTime -> return $ whenSet wakeUpTime whenSet wakeUpTime = do now <- getAbsoluteTime let microsecondsTimeout = microsecondsDiff wakeUpTime now if 0 < microsecondsTimeout then join $ withAsync (delay microsecondsTimeout) $ \a -> atomically $ waitSTM a >> return (whenSet wakeUpTime) `orElse` (readTVar acNewSetting >>= \case AlarmSet wakeUpTime' | earlierOf wakeUpTime' wakeUpTime /= wakeUpTime -> return $ whenSet wakeUpTime' AlarmDestroyed -> return $ return () _ -> retry ) else do atomically $ writeTVar acNewSetting AlarmNotSet wakeUpAction now loop