{-# LANGUAGE CPP, NamedFieldPuns, RecordWildCards, ScopedTypeVariables, RankNTypes, DeriveDataTypeable #-} #if MIN_VERSION_monad_control(0,3,0) {-# LANGUAGE FlexibleContexts #-} #endif #if !MIN_VERSION_base(4,3,0) {-# LANGUAGE RankNTypes #-} #endif -- | -- Module: Data.Pool -- Copyright: (c) 2011 MailRank, Inc. -- License: BSD3 -- Maintainer: Bryan O'Sullivan <bos@serpentine.com>, -- Bas van Dijk <v.dijk.bas@gmail.com> -- Stability: experimental -- Portability: portable -- -- A high-performance striped pooling abstraction for managing -- flexibly-sized collections of resources such as database -- connections. -- -- \"Striped\" means that a single 'Pool' consists of several -- sub-pools, each managed independently. A single stripe is fine for -- many applications, and probably what you should choose by default. -- More stripes will lead to reduced contention in high-performance -- multicore applications, at a trade-off of causing the maximum -- number of simultaneous resources in use to grow. module Data.Pool ( Pool(idleTime, maxResources, numStripes) , LocalPool , createPool , withResource , takeResource , tryWithResource , tryTakeResource , destroyResource , putResource , destroyAllResources ) where import Control.Applicative ((<$>)) import Control.Concurrent (ThreadId, forkIOWithUnmask, killThread, myThreadId, threadDelay) import Control.Concurrent.STM import Control.Exception (SomeException, onException, mask_) import Control.Monad (forM_, forever, join, liftM3, unless, when) import Data.Hashable (hash) import Data.IORef (IORef, newIORef, mkWeakIORef) import Data.List (partition) import Data.Time.Clock (NominalDiffTime, UTCTime, diffUTCTime, getCurrentTime) import Data.Typeable (Typeable) import GHC.Conc.Sync (labelThread) import qualified Control.Exception as E import qualified Data.Vector as V #if MIN_VERSION_monad_control(0,3,0) import Control.Monad.Trans.Control (MonadBaseControl, control) import Control.Monad.Base (liftBase) #else import Control.Monad.IO.Control (MonadControlIO, controlIO) import Control.Monad.IO.Class (liftIO) #define control controlIO #define liftBase liftIO #endif #if MIN_VERSION_base(4,3,0) import Control.Exception (mask) #else -- Don't do any async exception protection for older GHCs. mask :: ((forall a. IO a -> IO a) -> IO b) -> IO b mask f = f id #endif -- | A single resource pool entry. data Entry a = Entry { entry :: a , lastUse :: UTCTime -- ^ Time of last return. } -- | A single striped pool. data LocalPool a = LocalPool { inUse :: TVar Int -- ^ Count of open entries (both idle and in use). , entries :: TVar [Entry a] -- ^ Idle entries. , lfin :: IORef () -- ^ empty value used to attach a finalizer to (internal) } deriving (Typeable) data Pool a = Pool { create :: IO a -- ^ Action for creating a new entry to add to the pool. , destroy :: a -> IO () -- ^ Action for destroying an entry that is now done with. , numStripes :: Int -- ^ The number of stripes (distinct sub-pools) to maintain. -- The smallest acceptable value is 1. , idleTime :: NominalDiffTime -- ^ Amount of time for which an unused resource is kept alive. -- The smallest acceptable value is 0.5 seconds. -- -- The elapsed time before closing may be a little longer than -- requested, as the reaper thread wakes at 1-second intervals. , maxResources :: Int -- ^ Maximum number of resources to maintain per stripe. The -- smallest acceptable value is 1. -- -- Requests for resources will block if this limit is reached on a -- single stripe, even if other stripes have idle resources -- available. , localPools :: V.Vector (LocalPool a) -- ^ Per-capability resource pools. , fin :: IORef () -- ^ empty value used to attach a finalizer to (internal) } deriving (Typeable) instance Show (Pool a) where show Pool{..} = "Pool {numStripes = " ++ show numStripes ++ ", " ++ "idleTime = " ++ show idleTime ++ ", " ++ "maxResources = " ++ show maxResources ++ "}" -- | Create a striped resource pool. -- -- Although the garbage collector will destroy all idle resources when -- the pool is garbage collected it's recommended to manually -- 'destroyAllResources' when you're done with the pool so that the -- resources are freed up as soon as possible. createPool :: IO a -- ^ Action that creates a new resource. -> (a -> IO ()) -- ^ Action that destroys an existing resource. -> Int -- ^ The number of stripes (distinct sub-pools) to maintain. -- The smallest acceptable value is 1. -> NominalDiffTime -- ^ Amount of time for which an unused resource is kept open. -- The smallest acceptable value is 0.5 seconds. -- -- The elapsed time before destroying a resource may be a little -- longer than requested, as the reaper thread wakes at 1-second -- intervals. -> Int -- ^ Maximum number of resources to keep open per stripe. The -- smallest acceptable value is 1. -- -- Requests for resources will block if this limit is reached on a -- single stripe, even if other stripes have idle resources -- available. -> IO (Pool a) createPool create destroy numStripes idleTime maxResources = do when (numStripes < 1) $ modError "pool " $ "invalid stripe count " ++ show numStripes when (idleTime < 0.5) $ modError "pool " $ "invalid idle time " ++ show idleTime when (maxResources < 1) $ modError "pool " $ "invalid maximum resource count " ++ show maxResources localPools <- V.replicateM numStripes $ liftM3 LocalPool (newTVarIO 0) (newTVarIO []) (newIORef ()) reaperId <- forkIOLabeledWithUnmask "resource-pool: reaper" $ \unmask -> unmask $ reaper destroy idleTime localPools fin <- newIORef () let p = Pool { create , destroy , numStripes , idleTime , maxResources , localPools , fin } mkWeakIORef fin (killThread reaperId) >> V.mapM_ (\lp -> mkWeakIORef (lfin lp) (purgeLocalPool destroy lp)) localPools return p -- TODO: Propose 'forkIOLabeledWithUnmask' for the base library. -- | Sparks off a new thread using 'forkIOWithUnmask' to run the given -- IO computation, but first labels the thread with the given label -- (using 'labelThread'). -- -- The implementation makes sure that asynchronous exceptions are -- masked until the given computation is executed. This ensures the -- thread will always be labeled which guarantees you can always -- easily find it in the GHC event log. -- -- Like 'forkIOWithUnmask', the given computation is given a function -- to unmask asynchronous exceptions. See the documentation of that -- function for the motivation of this. -- -- Returns the 'ThreadId' of the newly created thread. forkIOLabeledWithUnmask :: String -> ((forall a. IO a -> IO a) -> IO ()) -> IO ThreadId forkIOLabeledWithUnmask label m = mask_ $ forkIOWithUnmask $ \unmask -> do tid <- myThreadId labelThread tid label m unmask -- | Periodically go through all pools, closing any resources that -- have been left idle for too long. reaper :: (a -> IO ()) -> NominalDiffTime -> V.Vector (LocalPool a) -> IO () reaper destroy idleTime pools = forever $ do threadDelay (1 * 1000000) now <- getCurrentTime let isStale Entry{..} = now `diffUTCTime` lastUse > idleTime V.forM_ pools $ \LocalPool{..} -> do resources <- atomically $ do (stale,fresh) <- partition isStale <$> readTVar entries unless (null stale) $ do writeTVar entries fresh modifyTVar_ inUse (subtract (length stale)) return (map entry stale) forM_ resources $ \resource -> do destroy resource `E.catch` \(_::SomeException) -> return () -- | Destroy all idle resources of the given 'LocalPool' and remove them from -- the pool. purgeLocalPool :: (a -> IO ()) -> LocalPool a -> IO () purgeLocalPool destroy LocalPool{..} = do resources <- atomically $ do idle <- swapTVar entries [] modifyTVar_ inUse (subtract (length idle)) return (map entry idle) forM_ resources $ \resource -> destroy resource `E.catch` \(_::SomeException) -> return () -- | Temporarily take a resource from a 'Pool', perform an action with -- it, and return it to the pool afterwards. -- -- * If the pool has an idle resource available, it is used -- immediately. -- -- * Otherwise, if the maximum number of resources has not yet been -- reached, a new resource is created and used. -- -- * If the maximum number of resources has been reached, this -- function blocks until a resource becomes available. -- -- If the action throws an exception of any type, the resource is -- destroyed, and not returned to the pool. -- -- It probably goes without saying that you should never manually -- destroy a pooled resource, as doing so will almost certainly cause -- a subsequent user (who expects the resource to be valid) to throw -- an exception. withResource :: #if MIN_VERSION_monad_control(0,3,0) (MonadBaseControl IO m) #else (MonadControlIO m) #endif => Pool a -> (a -> m b) -> m b {-# SPECIALIZE withResource :: Pool a -> (a -> IO b) -> IO b #-} withResource pool act = control $ \runInIO -> mask $ \restore -> do (resource, local) <- takeResource pool ret <- restore (runInIO (act resource)) `onException` destroyResource pool local resource putResource local resource return ret #if __GLASGOW_HASKELL__ >= 700 {-# INLINABLE withResource #-} #endif -- | Take a resource from the pool, following the same results as -- 'withResource'. Note that this function should be used with caution, as -- improper exception handling can lead to leaked resources. -- -- This function returns both a resource and the @LocalPool@ it came from so -- that it may either be destroyed (via 'destroyResource') or returned to the -- pool (via 'putResource'). takeResource :: Pool a -> IO (a, LocalPool a) takeResource pool@Pool{..} = do local@LocalPool{..} <- getLocalPool pool resource <- liftBase . join . atomically $ do ents <- readTVar entries case ents of (Entry{..}:es) -> writeTVar entries es >> return (return entry) [] -> do used <- readTVar inUse when (used == maxResources) retry writeTVar inUse $! used + 1 return $ create `onException` atomically (modifyTVar_ inUse (subtract 1)) return (resource, local) #if __GLASGOW_HASKELL__ >= 700 {-# INLINABLE takeResource #-} #endif -- | Similar to 'withResource', but only performs the action if a resource could -- be taken from the pool /without blocking/. Otherwise, 'tryWithResource' -- returns immediately with 'Nothing' (ie. the action function is /not/ called). -- Conversely, if a resource can be borrowed from the pool without blocking, the -- action is performed and it's result is returned, wrapped in a 'Just'. tryWithResource :: #if MIN_VERSION_monad_control(0,3,0) (MonadBaseControl IO m) #else (MonadControlIO m) #endif => Pool a -> (a -> m b) -> m (Maybe b) tryWithResource pool act = control $ \runInIO -> mask $ \restore -> do res <- tryTakeResource pool case res of Just (resource, local) -> do ret <- restore (runInIO (Just <$> act resource)) `onException` destroyResource pool local resource putResource local resource return ret Nothing -> restore . runInIO $ return Nothing #if __GLASGOW_HASKELL__ >= 700 {-# INLINABLE tryWithResource #-} #endif -- | A non-blocking version of 'takeResource'. The 'tryTakeResource' function -- returns immediately, with 'Nothing' if the pool is exhausted, or @'Just' (a, -- 'LocalPool' a)@ if a resource could be borrowed from the pool successfully. tryTakeResource :: Pool a -> IO (Maybe (a, LocalPool a)) tryTakeResource pool@Pool{..} = do local@LocalPool{..} <- getLocalPool pool resource <- liftBase . join . atomically $ do ents <- readTVar entries case ents of (Entry{..}:es) -> writeTVar entries es >> return (return . Just $ entry) [] -> do used <- readTVar inUse if used == maxResources then return (return Nothing) else do writeTVar inUse $! used + 1 return $ Just <$> create `onException` atomically (modifyTVar_ inUse (subtract 1)) return $ (flip (,) local) <$> resource #if __GLASGOW_HASKELL__ >= 700 {-# INLINABLE tryTakeResource #-} #endif -- | Get a (Thread-)'LocalPool' -- -- Internal, just to not repeat code for 'takeResource' and 'tryTakeResource' getLocalPool :: Pool a -> IO (LocalPool a) getLocalPool Pool{..} = do i <- liftBase $ ((`mod` numStripes) . hash) <$> myThreadId return $ localPools V.! i #if __GLASGOW_HASKELL__ >= 700 {-# INLINABLE getLocalPool #-} #endif -- | Destroy a resource. Note that this will ignore any exceptions in the -- destroy function. destroyResource :: Pool a -> LocalPool a -> a -> IO () destroyResource Pool{..} LocalPool{..} resource = do destroy resource `E.catch` \(_::SomeException) -> return () atomically (modifyTVar_ inUse (subtract 1)) #if __GLASGOW_HASKELL__ >= 700 {-# INLINABLE destroyResource #-} #endif -- | Return a resource to the given 'LocalPool'. putResource :: LocalPool a -> a -> IO () putResource LocalPool{..} resource = do now <- getCurrentTime atomically $ modifyTVar_ entries (Entry resource now:) #if __GLASGOW_HASKELL__ >= 700 {-# INLINABLE putResource #-} #endif -- | Destroy all resources in all stripes in the pool. Note that this -- will ignore any exceptions in the destroy function. -- -- This function is useful when you detect that all resources in the -- pool are broken. For example after a database has been restarted -- all connections opened before the restart will be broken. In that -- case it's better to close those connections so that 'takeResource' -- won't take a broken connection from the pool but will open a new -- connection instead. -- -- Another use-case for this function is that when you know you are -- done with the pool you can destroy all idle resources immediately -- instead of waiting on the garbage collector to destroy them, thus -- freeing up those resources sooner. destroyAllResources :: Pool a -> IO () destroyAllResources Pool{..} = V.forM_ localPools $ purgeLocalPool destroy modifyTVar_ :: TVar a -> (a -> a) -> STM () modifyTVar_ v f = readTVar v >>= \a -> writeTVar v $! f a modError :: String -> String -> a modError func msg = error $ "Data.Pool." ++ func ++ ": " ++ msg