7

Suppose I have a secret which I keep in a type

data Secret a = Secret a deriving Functor, Show
sec :: Secret String

and I want to allow computation on the secret, and some way to view results e.g.

getSecretHash :: Show a => Secret a -> String

or

askQuestion :: (a->Bool) -> Secret a -> Bool

but I don't want to allow the secret to be directly extracted (I know you could bruteforce one of the above ways, but assume the secret is large so this is unfeasible).

Of course someone could just write

reveal :: Secret a -> a
reveal (Secret x) = x

and I know I can prevent this by putting secret in a module and not exporting the constructor but instead giving a makeSecret :: a->Secret a, but I want to know if there's a way to do it using the type system.

Without hiding the constructor, how can I make a type that can't have its value arbitrarily extracted?

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  • 5
    Why do you not want to use the hiding-the-constructor method? Commented Oct 12, 2017 at 17:08
  • 3
    This can be done with some fancy crypto by never storing the a in the first place, but in all the approaches I know of you must significantly restrict what computation can be done (e.g. by deciding on a fixed set of operations). See e.g. fully homomorphic encryption and multi-party computation as starting points for discussion. Commented Oct 12, 2017 at 17:14
  • Do you need to be able to combine secret values with each other?
    – dfeuer
    Commented Oct 12, 2017 at 17:22
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    Keep in mind that, if the secret has N bits of information, using N askQuestion calls we can retrieve it, hence it can be recovered in linear time. But I guess you want "hiding" in the programming languages sense, rather than in the cryptography sense.
    – chi
    Commented Oct 12, 2017 at 18:33
  • 2
    I can't say anything about this particular library, but I had remembered seeing something along these lines before. Using a security monad of sorts to ensure data is never leaked. Take a look: hackage.haskell.org/package/seclib
    – jkeuhlen
    Commented Oct 12, 2017 at 20:28

3 Answers 3

7

This

askQuestion :: (a -> Bool) -> Secret a -> Bool

looks a bit like a flipped version of runCont

λ import Control.Monad.Trans.Cont
λ :t runCont
runCont :: forall r a. Cont r a -> (a -> r) -> r
λ :set -XTypeApplications
λ :t runCont @Bool
runCont @Bool :: forall a. Cont Bool a -> (a -> Bool) -> Bool
λ :t flip (runCont @Bool)
flip (runCont @Bool) :: forall a. (a -> Bool) -> Cont Bool a -> Bool

So perhaps in that respect your Secret type is Cont Bool, and you can create values with cont:

 cont :: forall a. ((a -> Bool) -> Bool) -> Cont Bool a

 makeSecret :: forall a. a -> Cont Bool a
 makeSecret a = cont $ \f -> f a

The actual value is hidden behind a function.

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    I suppose there are some types a for which you can reconstruct the a using this representation, though. (a ~ Bool would be an obvious example.) Commented Oct 12, 2017 at 19:57
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    @BenjaminHodgson isn't this unavoidable if we want to be able to view the results of computations eventually?
    – Sean D
    Commented Oct 12, 2017 at 21:07
  • @Benjamin Hodgson Perhaps some form of linear types could be used to forbid "too many queries"? Or perhaps Secret values could only be created and queried inside a ST-like environment which tracked the number of accesses and could throw errors at runtime.
    – danidiaz
    Commented Oct 12, 2017 at 21:25
5

Without hiding the constructor, how can I make a type that can't have its value arbitrarily extracted?

No. Hiding the constructor is precisely the right tool for that, and the only reasonable method I can think of.

3
  • 1
    Existential types can do it too.
    – dfeuer
    Commented Oct 12, 2017 at 17:14
  • 1
    @dfeuer Sounds like you should compose an answer! Commented Oct 12, 2017 at 17:16
  • @dfeuer I'd also like to see an answer with existential types
    – Sean D
    Commented Oct 13, 2017 at 15:01
5

Well, if using fancy Haskell types isn't a requirement, then you can use the old function closure trick. Just define the data type as the query function:

data Secret a = Secret { query :: (a -> Bool) -> Bool }

Exporting a helper function to construct secrets may be helpful (though it's entirely optional, as the constructor is public and anyone can make their own makeSecret function):

makeSecret :: a -> Secret a
makeSecret x = Secret (\f -> f x)   -- or Secret ($x) if you're feeling clever

The definition of askQuestion is straightforward:

askQuestion :: (a -> Bool) -> Secret a -> Bool
askQuestion = flip query

I guess this is ultimately similar to danidiaz's answer, but the monad machinery isn't really necessary just to store a secret in a function.

Note that, if you need a functor instance for this Secret, Haskell has no problem deriving one, and it works as expected:

> askQuestion (=="Stack Overflow") $ fmap (++" Overflow") $ makeSecret "Stack"
True

I guess technically you can get it back out by cheating, like so, but I'm not sure that any of the other methods can avoid this:

> askQuestion (\x -> unsafePerformIO (putStrLn (show x) 
     >> return False)) $ makeSecret "secret"
"secret"
False
>
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  • Cool answer! As for your final comment, is it true that you still can't obtain the raw value inside the secret in the code (unless you write it to a file and read it or similar)?
    – Sean D
    Commented Oct 13, 2017 at 14:59
  • You wouldn't have to store it in a file, you could store it in an IORef
    – pat
    Commented Oct 13, 2017 at 17:04
  • I like this answer quite a lot, but it seems impossible to gauge the value without more context wrt the question and situation. For example, if you give me a Secret ByteString in this construction I can certainly use unsafe calls to write the secret out to a file (among other things). Commented Oct 14, 2017 at 5:01

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