-{-# OPTIONS_GHC -XNoImplicitPrelude #-}
+{-# LANGUAGE CPP, NoImplicitPrelude, ExistentialQuantification #-}
-----------------------------------------------------------------------------
-- |
-- asynchronous exceptions during a critical region.
mask,
+#ifndef __NHC__
mask_,
uninterruptibleMask,
uninterruptibleMask_,
MaskingState(..),
getMaskingState,
+ allowInterrupt,
+#endif
-- ** (deprecated) Asynchronous exception control
unblock,
blocked,
- -- *** Applying @block@ to an exception handler
+ -- *** Applying @mask@ to an exception handler
-- $block_handler
#ifdef __GLASGOW_HASKELL__
import GHC.Base
+import GHC.IO (unsafeUnmask)
import Data.Maybe
#else
import Prelude hiding (catch)
-- -----------------------------------------------------------------------------
-- Asynchronous exceptions
+-- | When invoked inside 'mask', this function allows a blocked
+-- asynchronous exception to be raised, if one exists. It is
+-- equivalent to performing an interruptible operation (see
+-- #interruptible#), but does not involve any actual blocking.
+--
+-- When called outside 'mask', or inside 'uninterruptibleMask', this
+-- function has no effect.
+allowInterrupt :: IO ()
+allowInterrupt = unsafeUnmask $ return ()
+
{- $async
#AsynchronousExceptions# Asynchronous exceptions are so-called because they arise due to
> throwTo :: ThreadId -> Exception -> IO ()
-'throwTo' (also 'throwDynTo' and 'Control.Concurrent.killThread') allows one
+'throwTo' (also 'Control.Concurrent.killThread') allows one
running thread to raise an arbitrary exception in another thread. The
exception is therefore asynchronous with respect to the target thread,
which could be doing anything at the time it receives the exception.
what you want most of the time - it eliminates a common race condition
in starting an exception handler, because there may be no exception
handler on the stack to handle another exception if one arrives
-immediately. If asynchronous exceptions are blocked on entering the
+immediately. If asynchronous exceptions are masked on entering the
handler, though, we have time to install a new exception handler
before being interrupted. If this weren\'t the default, one would have
to write something like
-> block $ \restore ->
+> mask $ \restore ->
> catch (restore (...))
> (\e -> handler)
If you need to unblock asynchronous exceptions again in the exception
-handler, just use 'unblock' as normal.
+handler, 'restore' can be used there too.
Note that 'try' and friends /do not/ have a similar default, because
there is no exception handler in this case. Don't use 'try' for
#interruptible#
Some operations are /interruptible/, which means that they can receive
-asynchronous exceptions even in the scope of a 'block'. Any function
+asynchronous exceptions even in the scope of a 'mask'. Any function
which may itself block is defined as interruptible; this includes
'Control.Concurrent.MVar.takeMVar'
(but not 'Control.Concurrent.MVar.tryTakeMVar'),
until the point when the 'Control.Concurrent.MVar.takeMVar' succeeds.
Similar arguments apply for other interruptible operations like
'System.IO.openFile'.
+
+It is useful to think of 'mask' not as a way to completely prevent
+asynchronous exceptions, but as a way to switch from asynchronous mode
+to polling mode. The main difficulty with asynchronous
+exceptions is that they normally can occur anywhere, but within a
+'mask' an asynchronous exception is only raised by operations that are
+interruptible (or call other interruptible operations). In many cases
+these operations may themselves raise exceptions, such as I\/O errors,
+so the caller will usually be prepared to handle exceptions arising from the
+operation anyway. To perfom an explicit poll for asynchronous exceptions
+inside 'mask', use 'allowInterrupt'.
+
+Sometimes it is too onerous to handle exceptions in the middle of a
+critical piece of stateful code. There are three ways to handle this
+kind of situation:
+
+ * Use STM. Since a transaction is always either completely executed
+ or not at all, transactions are a good way to maintain invariants
+ over state in the presence of asynchronous (and indeed synchronous)
+ exceptions.
+
+ * Use 'mask', and avoid interruptible operations. In order to do
+ this, we have to know which operations are interruptible. It is
+ impossible to know for any given library function whether it might
+ invoke an interruptible operation internally; so instead we give a
+ list of guaranteed-not-to-be-interruptible operations below.
+
+ * Use 'uninterruptibleMask'. This is generally not recommended,
+ unless you can guarantee that any interruptible operations invoked
+ during the scope of 'uninterruptibleMask' can only ever block for
+ a short time. Otherwise, 'uninterruptibleMask' is a good way to
+ make your program deadlock and be unresponsive to user interrupts.
+
+The following operations are guaranteed not to be interruptible:
+
+ * operations on 'IORef' from "Data.IORef"
+ * STM transactions that do not use 'retry'
+ * everything from the @Foreign@ modules
+ * everything from @Control.Exception@
+ * @tryTakeMVar@, @tryPutMVar@, @isEmptyMVar@
+ * @takeMVar@ if the @MVar@ is definitely full, and conversely @putMVar@ if the @MVar@ is definitely empty
+ * @newEmptyMVar@, @newMVar@
+ * @forkIO@, @forkIOUnmasked@, @myThreadId@
+
-}
{- $catchall