17

I've written a library called amqp-worker that provides a function called worker that polls a message queue (like RabbitMQ) for messages, calling a handler when a message is found. Then it goes back to polling.

It's leaking memory. I've profiled it and the graph says PAP (partial function application) is the culprit. Where is the leak in my code? How can I avoid leaks when looping in IO with forever?

enter image description here

Here are some relevant functions. The full source is here.

Example Program. This leaks

main :: IO ()
main = do
  -- connect
  conn <- Worker.connect (fromURI "amqp://guest:guest@localhost:5672")

  -- initialize the queues
  Worker.initQueue conn queue
  Worker.initQueue conn results

  -- publish a message
  Worker.publish conn queue (TestMessage "hello world")

  -- create a worker, the program loops here
  Worker.worker def conn queue onError (onMessage conn)

worker

worker :: (FromJSON a, MonadBaseControl IO m, MonadCatch m) => WorkerOptions -> Connection -> Queue key a -> (WorkerException SomeException -> m ()) -> (Message a -> m ()) -> m ()
worker opts conn queue onError action =
  forever $ do
    eres <- consumeNext (pollDelay opts) conn queue
    case eres of
      Error (ParseError reason bd) ->
        onError (MessageParseError bd reason)

      Parsed msg ->
        catch
          (action msg)
          (onError . OtherException (body msg))
    liftBase $ threadDelay (loopDelay opts)

consumeNext

consumeNext :: (FromJSON msg, MonadBaseControl IO m) => Microseconds -> Connection -> Queue key msg -> m (ConsumeResult msg)
consumeNext pd conn queue =
    poll pd $ consume conn queue

poll

poll :: (MonadBaseControl IO m) => Int -> m (Maybe a) -> m a
poll us action = do
    ma <- action
    case ma of
      Just a -> return a
      Nothing -> do
        liftBase $ threadDelay us
        poll us action
6
  • What's your ghc version and how are you compiling?
    – jberryman
    Dec 23 '16 at 20:21
  • 1
    It's set to lts-7.3 so that's GHC 8.0.1. I'm compiling with stack install --profile. But I get the memory leak with a normal stack install. Using the default ghc options from the stack template: -threaded -rtsopts -with-rtsopts=-N Dec 23 '16 at 20:50
  • 2
    This example is very far from minimal - you are importing your entire library (Network.AMQP.Worker) in your example program. As it stands, this is far too broad. Dec 23 '16 at 22:25
  • 1
    This is my first time hunting down a memory leak. I am wondering if there's a good way to figure out where they are in a program like this Dec 24 '16 at 0:11
  • 1
    I would try getting rid of the monad type classes and just using IO. I'm not sure if it is likely to be the problem but it would be nice to have one fewer thing to worry about. Dec 28 '16 at 19:47
16

Here is a very simple example that demonstrates your problem:

main :: IO ()
main = worker

{-# NOINLINE worker #-}
worker :: (Monad m) => m ()
worker =
  let loop = poll >> loop
  in loop

poll :: (Monad m) => m a
poll = return () >> poll
If you remove the `NOINLINE`, or specialize `m` to
`IO` (while compiling with `-O`), the leak goes away.

I wrote a detailed blog post about why exactly this code leaks memory. The quick summary is, as Reid points out in his answer, that the code creates and remembers a chain of partial applications of >>s.

I also filed a ghc ticket about this.

4

Maybe an easier example to understand is this one

main :: IO ()
main = let c = count 0
       in c >> c

{-# NOINLINE count #-}
count :: Monad m => Int -> m ()
count 1000000 = return ()
count n = return () >> count (n+1)

Evaluating f >> g for IO actions yields some kind of closure that has references to both f and g (it's basically the composition of f and g as functions on state tokens). count 0 returns a thunk c that will evaluate to a big structure of closures of the form return () >> return () >> return () >> .... When we execute c we build up this structure, and since we have to execute c a second time the whole structure is still live. So this program leaks memory (regardless of optimization flags).

When count is specialized to IO and optimizations are enabled, GHC has a variety of tricks available to avoid building up this data structure; but they all rely on knowing that the monad is IO.

Returning to the original count :: Monad m => Int -> m (), we can try to avoid building this big structure by changing the last line to

count n = return () >>= (\_ -> count (n+1))

Now the recursive call is hidden inside a lambda, so c is just a small structure return () >>= (\_ -> BODY). This does actually avoid the space leak when compiling without optimizations. However when optimizations are enabled, GHC floats out count (n+1) from the body of the lambda (since it doesn't depend on the argument) producing

count n = return () >>= (let body = count (n+1) in \_ -> body)

and now c is a large structure again...

2
  • How does the use of NOINLINE make the program comparable to the original leaky one?
    – Michael
    Jan 8 '17 at 17:32
  • GHC not inlining or specializing is the generic case (when the function is defined in a different module, not small, etc.) GHC knows many tricks, and when you minimize these tricks may kick in. Using NOINLINE stops many of these tricks lets you minimize further. Jan 8 '17 at 18:15
3

The memory leak was in poll. Using monad-loops, I changed the definition to the following: It looks like untilJust does the same thing as my recursion, but fixes the leak.

Can anyone comment as to why my previous definition of poll was leaking memory?

{-# LANGUAGE FlexibleContexts #-}

module Network.AMQP.Worker.Poll where

import Control.Concurrent (threadDelay)
import Control.Monad.Trans.Control (MonadBaseControl)
import Control.Monad.Base (liftBase)
import Control.Monad.Loops (untilJust)

poll :: (MonadBaseControl IO m) => Int -> m (Maybe a) -> m a
poll us action = untilJust $ do
    ma <- action
    case ma of
      Just a -> return $ Just a
      Nothing -> do
        liftBase $ threadDelay us
        return Nothing

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