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.