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I want to implement a String comparison function that doesn't take a different amount of time depending on the number of characters that match or the position of the first mismatch. I assume there must be a library out there somewhere that provides this, but I was unable to find it via a quick search.

So far, the best idea I've got is to sum the XOR of each character and return whether or not the sum is 0. However, I'm pretty sure this wouldn't work so well with Unicode. I also have a vague concern that HotSpot would do some optimizations that would change my constant-time property, but I can't think of a specific optimization that would do this off the top of my head.

Thanks.

UPDATE: Sorry, I don't believe I was clear. I'm not looking for O(1), I'm looking for something that won't leak timing information. This would be used to compare hashed password values, and if the time it took to compare was different based on where the first mismatch occurred, that would be leaking information to an attacker.

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7  
The time it takes to compare 2 strings would always be a function of the length of the string. You have to do some sort of comparison one way or another - and the more characters you have, the longer this comparison would take. –  Aleks G Aug 25 '11 at 13:25
    
How would the complexity of XORing each character not depend on the number of characters? –  Kerrek SB Aug 25 '11 at 13:26
1  
Am I correct in assuming you're asking for a String comparison function (returning true of false for equal or non-equal) that is entirely independent from String length? I don't actually think that's theoretically possible unless you have a number of processors/cores equal to the maximum String length. The best I can think of is optimizing strongly through comparing hash codes and length first, but even the hash code calculation depends on String length. –  G_H Aug 25 '11 at 13:27
1  
you might be able to use the hash field, it might help to determine 2 strings are not equal, if the hash was already computed, but I think that's about it. –  amit Aug 25 '11 at 13:28
    
Can you tell us why you want to do this? Given the answers telling you that this is either impossible or impractical, knowing what you are trying to achieve would help us give you a good answer. –  DJClayworth Aug 25 '11 at 13:43
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5 Answers

up vote 2 down vote accepted

I'm not sure how you think that's any better than simply comparing characters until you get a mismatch. Yes, your solution is constant time (for a given input (a)) but based on the worst case of checking all characters in that input.

A simple character-by-character comparison has that as the upper bound and will be better if it finds a mismatch (which, in the vast majority of cases, it probably would).


(a) Note that this is not constant time complexity which would be a fixed upper bound regardless of the inputs. This cannot be done since you have to, worst case, check every single character in the string.


I'm also not certain why you don't think it would work with "Unicode" (quoted because Unicode is a mapping of code points to characters, not an encoding like UTF-8 or UCS-2.

Certainly it would work for well formed UTF-8 where a code point only has one representation (such as 0x0a being only represented by 0x0a and not one of the longer alternates like 0xf0 0x80 0x80 0x8a or 0xfc 0x80 0x80 0x80 0x80 0x8a).

Of course, it wouldn't work when comparing big-endian UCS-2 with little-endian (or UTF-32 with UTF-8) but, provided your encoding was the same, I can't see a problem.


Based on your added information (paraphrased):

I'm looking for something that won't leak timing information, for the purposes of password checking.

I see two immediate possibilities:

1/ Pad both the password string and candidate string out to 1K, with a known, fixed character (like A). Then run the following (pseudo-code):

match = true
for i = 0 to 1023:
    if password[i] != candidate[i]:
        match = false

That way, you're always taking the same amount of loops to do the comparison regardless of where it matches.

There's no need to muck about with xor since you can still do a simple comparison, but without exiting the loop early.

Just set the match flag to false if a mismatch is found and keep going. Once the loop exits (taking the same time regardless of size or content of password and candidate), then check whether it matched.

2/ Just add a one-second delay at the end of the comparison. The time taken to compare two passwords will be minuscule compared to that. In other words, there'll still be a difference but it should be nigh on undetectable.

That also has the added advantage of preventing brute force attacks since a password check takes at least one second.

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My concern is that the strings might not be normalized, so the function might return false even if both values are español (to use a completely made up and perhaps not even valid example). Also, I'm aware that Unicode is not an encoding, but as I understand it, normalization is a problem no matter what encoding is in use. –  Hank Gay Aug 25 '11 at 14:04
    
@Hank, now your requirement makes a little more sense - I've actually had to do this sort of stuff before, hence my wonder answer at stackoverflow.com/questions/712339/… :-) I've updated this answer with a couple of possibilities for you. –  paxdiablo Aug 25 '11 at 14:15
    
The padding will have the nice benefit of not even revealing the length of the password, thanks. Do you have any thoughts on the normalization issue? –  Hank Gay Aug 25 '11 at 14:41
    
@Hank: yes, normalise them before comparison. All your stored passwords should be normalised in whatever DB/file you store them in (this should be done whenever they're created or updated). Normalise the user input before comparison. This will take a variable length of time based on the size of the user input but the attacker already knows that, so you're revealing nothing. –  paxdiablo Aug 25 '11 at 14:43
    
You may want to change the comparison in 1/ to match |= password[i] ^ candidate[i] (Note that this also inverts the value of match, so it really should be no_match and initialized to 0). The different branches of the if statement can stil leak timing information. (There's an extra jump if the characters match.) –  Michael Mior Sep 12 '12 at 18:21
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I want to implement a String comparison function that doesn't take a different amount of time depending on the number of characters that match or the position of the first mismatch. I assume there must be a library out there somewhere that provides this, but I was unable to find it via a quick search.

So far, the best idea I've got is to sum the XOR of each character

Do you see the contradiction?

update:

To the updated, and therefore different question:

Can you gain information once, how much time is spent for comparing 2 Strings, in terms of constant amount and time, depending on the length of the two strings?

a + b*s(1).length + c*s(2).length + d*f(s(1), s(2))? 

Is there an upper bound of characters for String 1 and 2?

If the time is, depending on a factor for the machine, for example for the longest strings you expect 0.01ms. You measure the time to encode the string, and stay idle until you reach that time, maybe + a factor of rand(10%) of the time.

If the length of the input is not limited, you could calculate the timing in a way, that will fit for 99%, 99.9% or 99.99% of typical input, depending on your security needs, and the speed of the machine. If the program is interacting with the user, a delay up to 0.2s is normally experienced as instant reaction, so it wouldn't annoy the user, if your code sleeps for 0.19994s, while doing real calculations for 0.00006s.

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Sorry. I've updated my question to (hopefully) be more clear, but essentially I just want to avoid timing info leaks, not O(1) properties. –  Hank Gay Aug 25 '11 at 14:06
    
I noticed and updated my answer as well. –  user unknown Aug 27 '11 at 7:31
2  
The randomness doesn't necessarily help since the attacker can just take more samples to exclude it completely. –  Michael Mior Sep 12 '12 at 18:23
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This should take approximately the same time for any matching length Strings. It's constant-time with a big constant.

public static boolean areEqualConstantTime(String a, String b) {
    if ( a.length != b.length ) {
        return false;
    }

    boolean equal = true;
    for ( long i = 0; i < (Long)Integer.MAX_INT; i++ ) {
        if ( a.charAt((int)(i % aChars.length)) != b.charAt((int)(i % bChars.length))) {
            equal = false;
        }
    }
    return equal;
}

Edit

Wow, if you're just trying to avoid leaking timing information this facetious answer got pretty close to the mark! We can start with a naive approach like this:

public static boolean arePasswordsEqual(String a, String b) {
    boolean equal = true;
    if ( a.length != b.length ) {
       equal = false;
    }

    for ( int i = 0; i < MAX_PASSWORD_LENGTH; i++ ) {
        if ( a.charAt(i%a.length()) != b.charAt(i%b.length()) ) {
            equal = false;
        }
    }
    return equal;
 }

We need the MAX_PASSWORD_LENGTH constant because we can't simply use either the max or the min of the two input lengths as that would also leak timing information. An attacker could start with a very small guess and see how long the function takes. When the function time plateaus, he would know his password has the right length which eliminates much of the range of values he needs to try.

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Thanks for your answer, Mark. –  Hank Gay Aug 25 '11 at 15:13
    
@Hank: No problem. Just as an aside, the popular cryptographically secure hashes have constant length outputs and due to the snowball principle leaking timing information probably wouldn't be as big of a deal. Are you comparing passwords in clear text? –  Mark Peters Aug 25 '11 at 15:22
    
No, I'm looking at the source to a Java impl of bcrypt. It's certainly not that big of a deal, but w/ security I always opt for safer than I think is remotely necessary. I'm thinking about patching it to use this comparison instead of the built-in Java comparison. –  Hank Gay Aug 25 '11 at 16:47
    
@Hank: Cool. And by "snowball principle" I meant "avalanche property" –  Mark Peters Aug 25 '11 at 16:59
1  
@Qerub: Yep, you could do that. As I said earlier, this is pretty irrelevant if you're hashing passwords to a fixed-length hash. –  Mark Peters Nov 4 '12 at 3:52
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You can do constant time string comparisons if you intern your strings. Then you can compare them with == operator resulting in a constant time equality check.

Read this for further detials

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Interning is not an O(1) operation though! –  Mark Peters Aug 25 '11 at 13:49
    
Yes thats the tradeoff. It depends on whether you have more unique strings or duplicates in your data set. –  numan salati Aug 25 '11 at 14:08
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The usual solution is to set a timer, and not return the result until the timer has expired.

The time taken to compare strings or hashes is not important, just set the time-out value sufficiently large.

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