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I want to write a function

forkos_try :: IO (Maybe α) -> IO (Maybe α)

which Takes a command x. x is an imperative operation which first mutates state, and then checks whether that state is messed up or not. (It does not do anything external, which would require some kind of OS-level sandboxing to revert the state.)

  • if x evaluates to Just y, forkos_try returns Just y.
  • otherwise, forkos_try rolls back state, and returns Nothing.

Internally, it should fork() into threads parent and child, with x running on child.

  • if x succeeds, child should keep running (returning x's result) and parent should die
  • otherwise, parent should keep running (returning Nothing) and child should die

Question: What's the way to write something with equivalent, or more powerful semantics than forkos_try? N.B. -- the state mutated (by x) is in an external library, and cannot be passed between threads. Hence, the semantic of which thread to keep alive is important.

Formally, "keep running" means "execute some continuation rest :: Maybe α -> IO () ". But, that continuation isn't kept anywhere explicit in code.

For my case, I think it will (for the time) work to write it in different style, using forkOS (which takes the entire computation child will run), since I can write an explicit expression for rest. But, it troubles me that I can't figure out how do this with the primitive function forkOS -- one would think it would be general enough to support any specific case (which could appear as a high-level API, like forkos_try).

EDIT -- please see the example code with explicit rest if the problem's still not clear [ http://pastebin.com/nJ1NNdda ].

p.s. I haven't written concurrency code in a while; hopefully my knowledge of POSIX fork() is correct! Thanks in advance.

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Here is a novice implementation taking an explicit continuation: pastebin.com/nJ1NNdda –  gatoatigrado Feb 29 '12 at 10:38
I'm having trouble understanding your question. The state appears to be in the IO monad, but you want to roll it back - since that can't be done in general (e.g. maybe you launched some missiles), how is the state to be rolled back? –  Simon Marlow Feb 29 '12 at 12:14
I think the OP wants to use OS-level fork (i.e., not forkIO). That would allow you to roll back all internal state like IORefs. Of course, it can't roll back things written into files. –  nominolo Feb 29 '12 at 14:48
@gatoatigrado Your solution would be very heavyweight if it uses forkOS (e.g., the child process would have to start up a new IO manager and other runtime services). Since you only want to mutate state, have you considered using the ST monad? That allows you to have state, but does not require you to be in IO. –  nominolo Feb 29 '12 at 14:51
Note: forkOS is not fork(). Perhaps you meant forkProcess? –  hammar Feb 29 '12 at 22:27

1 Answer 1

Things are a lot simpler to reason about if you model state explicitly.

someStateFunc :: (s -> Maybe (a, s))

-- inside some other function
case someStateFunc initialState of
  Nothing -> ... -- it failed. stick with initial state
  Just (a, newState) -> ... -- it suceeded. do something with
                            -- the result and new state

With immutable state, "rolling back" is simple: just keep using initialState. And "not rolling back" is also simple: just use newState.

So...I'm assuming from your explanation that this "external library" performs some nontrivial IO effects that are nevertheless restricted to a few knowable and reversible operations (modify a file, an IORef, etc). There is no way to reverse some things (launch the missiles, write to stdout, etc), so I see one of two choices for you here:

  1. clone the world, and run the action in a sandbox. If it succeeds, then go ahead and run the action in the Real World.
  2. clone the world, and run the action in the real world. If it fails, then replace the Real World with the snapshot you took earlier.

Of course, both of these are actually the same approach: fork the world. One world runs the action, one world doesn't. If the action succeeds, then that world continues; otherwise, the other world continues. You are proposing to accomplish this by building upon forkOS, which would clone the entire state of the program, but this would not be sufficient to deal with, for example, file modifications. Allow me to suggest instead an approach that is nearer to the simplicity of immutable state:

tryIO :: IO s -> (s -> IO ()) -> IO (Maybe a) -> IO (Maybe a)
tryIO save restore action = do
  initialState <- save
  result <- action
  case result of
    Nothing -> restore initialState >> return Nothing
    Just x  -> return (Just x)

Here you must provide some data structure s, and a way to save to and restore from said data structure. This allows you the flexibility to perform any cloning you know to be necessary. (e.g. save could copy a certain file to a temporary location, and then restore could copy it back and delete the temporary file. Or save could copy the value of certain IORefs, and then restore could put the value back.) This approach may not be the most efficient, but it's very straightforward.

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Sorry, I said in bold text that s can't be passed between threads; in particular, it can't be turned into a Haskell type either. It's some state that exists in a C library. –  gatoatigrado Feb 29 '12 at 22:07
Note: forkOS just starts a thread, like forkIO, but bound to a new OS-level thread. To fork the process, you want System.Posix.forkProcess. –  hammar Feb 29 '12 at 22:32
@gatoatigrado the solution I suggest is singly-threaded, so that isn't an issue. But you have no way to snapshot this state? If you want to be able to roll it back, that will prove quite problematic. Having no recourse other than resorting to a process fork is a very strong code smell. –  Dan Burton Feb 29 '12 at 23:20
@DanBurton, Yes, resorting to a process fork is inoptimal. But, I'm not going to rewrite hundreds of thousands of lines of C code so that I can serialize or functionalize certain parts of it. Thanks anyway though. –  gatoatigrado Mar 1 '12 at 20:46

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