{- git-annex assistant sceduled jobs runner - - Copyright 2013 Joey Hess - - Licensed under the GNU GPL version 3 or higher. -} {-# LANGUAGE DeriveDataTypeable #-} module Assistant.Threads.Cronner ( cronnerThread ) where import Assistant.Common import Assistant.DaemonStatus import Utility.NotificationBroadcaster import Annex.UUID import Annex.Path import Logs.Schedule import Utility.Scheduled import Types.ScheduledActivity import Utility.ThreadScheduler import Utility.HumanTime import Utility.Batch import Assistant.TransferQueue import Annex.Content import Types.Transfer import Assistant.Types.UrlRenderer import Assistant.Alert import Remote import qualified Types.Remote as Remote import qualified Git import qualified Git.Fsck import Assistant.Fsck import Assistant.Repair import Control.Concurrent.Async import Control.Concurrent.MVar import Data.Time.LocalTime import Data.Time.Clock import qualified Data.Map as M import qualified Data.Set as S {- Loads schedules for this repository, and fires off one thread for each - scheduled event that runs on this repository. Each thread sleeps until - its event is scheduled to run. - - To handle events that run on remotes, which need to only run when - their remote gets connected, threads are also started, and are passed - a MVar to wait on, which is stored in the DaemonStatus's - connectRemoteNotifiers. - - In the meantime the main thread waits for any changes to the - schedules. When there's a change, compare the old and new list of - schedules to find deleted and added ones. Start new threads for added - ones, and kill the threads for deleted ones. -} cronnerThread :: UrlRenderer -> NamedThread cronnerThread urlrenderer = namedThreadUnchecked "Cronner" $ do fsckNudge urlrenderer Nothing dstatus <- getDaemonStatus h <- liftIO $ newNotificationHandle False (scheduleLogNotifier dstatus) go h M.empty M.empty where go h amap nmap = do activities <- liftAnnex $ scheduleGet =<< getUUID let addedactivities = activities `S.difference` M.keysSet amap let removedactivities = M.keysSet amap `S.difference` activities forM_ (S.toList removedactivities) $ \activity -> case M.lookup activity amap of Just a -> do debug ["stopping removed job for", fromScheduledActivity activity, show (asyncThreadId a)] liftIO $ cancel a Nothing -> noop lastruntimes <- liftAnnex getLastRunTimes started <- startactivities (S.toList addedactivities) lastruntimes let addedamap = M.fromList $ map fst started let addednmap = M.fromList $ catMaybes $ map snd started let removefiltered = M.filterWithKey (\k _ -> S.member k removedactivities) let amap' = M.difference (M.union addedamap amap) (removefiltered amap) let nmap' = M.difference (M.union addednmap nmap) (removefiltered nmap) modifyDaemonStatus_ $ \s -> s { connectRemoteNotifiers = M.fromListWith (++) (M.elems nmap') } liftIO $ waitNotification h debug ["reloading changed activities"] go h amap' nmap' startactivities as lastruntimes = forM as $ \activity -> case connectActivityUUID activity of Nothing -> do runner <- asIO2 (sleepingActivityThread urlrenderer) a <- liftIO $ async $ runner activity (M.lookup activity lastruntimes) return ((activity, a), Nothing) Just u -> do mvar <- liftIO newEmptyMVar runner <- asIO2 (remoteActivityThread urlrenderer mvar) a <- liftIO $ async $ runner activity (M.lookup activity lastruntimes) return ((activity, a), Just (activity, (u, [mvar]))) {- Calculate the next time the activity is scheduled to run, then - sleep until that time, and run it. Then call setLastRunTime, and - loop. -} sleepingActivityThread :: UrlRenderer -> ScheduledActivity -> Maybe LocalTime -> Assistant () sleepingActivityThread urlrenderer activity lasttime = go lasttime =<< getnexttime lasttime where getnexttime = liftIO . nextTime schedule go _ Nothing = debug ["no scheduled events left for", desc] go l (Just (NextTimeExactly t)) = waitrun l t Nothing go l (Just (NextTimeWindow windowstart windowend)) = waitrun l windowstart (Just windowend) desc = fromScheduledActivity activity schedule = getSchedule activity waitrun l t mmaxt = do seconds <- liftIO $ secondsUntilLocalTime t when (seconds > Seconds 0) $ do debug ["waiting", show seconds, "for next scheduled", desc] liftIO $ threadDelaySeconds seconds now <- liftIO getCurrentTime tz <- liftIO $ getTimeZone now let nowt = utcToLocalTime tz now if tolate nowt tz then do debug ["too late to run scheduled", desc] go l =<< getnexttime l else run nowt where tolate nowt tz = case mmaxt of Just maxt -> nowt > maxt -- allow the job to start 10 minutes late Nothing ->diffUTCTime (localTimeToUTC tz nowt) (localTimeToUTC tz t) > 600 run nowt = do runActivity urlrenderer activity nowt go (Just nowt) =<< getnexttime (Just nowt) {- Wait for the remote to become available by waiting on the MVar. - Then check if the time is within a time window when activity - is scheduled to run, and if so run it. - Otherwise, just wait again on the MVar. -} remoteActivityThread :: UrlRenderer -> MVar () -> ScheduledActivity -> Maybe LocalTime -> Assistant () remoteActivityThread urlrenderer mvar activity lasttime = do liftIO $ takeMVar mvar go =<< liftIO (nextTime (getSchedule activity) lasttime) where go (Just (NextTimeWindow windowstart windowend)) = do now <- liftIO getCurrentTime tz <- liftIO $ getTimeZone now if now >= localTimeToUTC tz windowstart && now <= localTimeToUTC tz windowend then do let nowt = utcToLocalTime tz now runActivity urlrenderer activity nowt loop (Just nowt) else loop lasttime go _ = noop -- running at exact time not handled here loop = remoteActivityThread urlrenderer mvar activity secondsUntilLocalTime :: LocalTime -> IO Seconds secondsUntilLocalTime t = do now <- getCurrentTime tz <- getTimeZone now let secs = truncate $ diffUTCTime (localTimeToUTC tz t) now return $ if secs > 0 then Seconds secs else Seconds 0 runActivity :: UrlRenderer -> ScheduledActivity -> LocalTime -> Assistant () runActivity urlrenderer activity nowt = do debug ["starting", desc] runActivity' urlrenderer activity debug ["finished", desc] liftAnnex $ setLastRunTime activity nowt where desc = fromScheduledActivity activity runActivity' :: UrlRenderer -> ScheduledActivity -> Assistant () runActivity' urlrenderer (ScheduledSelfFsck _ d) = do program <- liftIO programPath g <- liftAnnex gitRepo fsckresults <- showFscking urlrenderer Nothing $ tryNonAsync $ do void $ batchCommand program (Param "fsck" : annexFsckParams d) Git.Fsck.findBroken True g u <- liftAnnex getUUID void $ repairWhenNecessary urlrenderer u Nothing fsckresults mapM_ reget =<< liftAnnex (dirKeys gitAnnexBadDir) where reget k = queueTransfers "fsck found bad file; redownloading" Next k Nothing Download runActivity' urlrenderer (ScheduledRemoteFsck u s d) = dispatch =<< liftAnnex (remoteFromUUID u) where dispatch Nothing = debug ["skipping remote fsck of uuid without a configured remote", fromUUID u, fromSchedule s] dispatch (Just rmt) = void $ case Remote.remoteFsck rmt of Nothing -> go rmt $ do program <- programPath void $ batchCommand program $ [ Param "fsck" -- avoid downloading files , Param "--fast" , Param "--from" , Param $ Remote.name rmt ] ++ annexFsckParams d Just mkfscker -> do {- Note that having mkfsker return an IO action - avoids running a long duration fsck in the - Annex monad. -} go rmt =<< liftAnnex (mkfscker (annexFsckParams d)) go rmt annexfscker = do fsckresults <- showFscking urlrenderer (Just rmt) $ tryNonAsync $ do void annexfscker let r = Remote.repo rmt if Git.repoIsLocal r && not (Git.repoIsLocalUnknown r) then Just <$> Git.Fsck.findBroken True r else pure Nothing maybe noop (void . repairWhenNecessary urlrenderer u (Just rmt)) fsckresults annexFsckParams :: Duration -> [CommandParam] annexFsckParams d = [ Param "--incremental-schedule=1d" , Param $ "--time-limit=" ++ fromDuration d ]