My goal is to generate a short Hash string of 6 characters (possibly containing characters [A-Z][a-z][0-9]) for a string which is 42 case-insensitive alphanumeric characters in length. Uniqueness is the key requirement. Security or performance is not so important.
Is there a specific algorithm which will give this result or should I stick to truncating a MD5 Hash or a SHA-1 Hash (Like in this question)? If so, what is the probability of a collision?
Your best bet would be the truncating well-known hash function (MD5 or SHA-family) because these algorithms have statistically good uniform distributions of the hash values (and also using full hash and not just 6 chars there).
Now some calculations for probability of collision
- Number of letters in English alphabet: 26 - Add capitals: 26 - Add numerics: 10 -------------- In total you get 26 + 26 + 10 = 62 characters. Now you have 6 places, which gives you 62^6 possible combinations. That is 56.800.235.584 ~ 57 billion combinations. This is a space of possible hash values - N. -------------- To compute collisions let's use the formula Pcollision = K^2 / 2N Which is a very rough approximation of collision probability
Now let's see the result table for a number of items in a table - K
# items | Probability of collision --------------------------------------- 10 | 1.7 * 10^-9 100 | 1.7 * 10^-7 1K | 1.7 * 10^-5 10K | 1.7 * 10^-3 100K | 0.17
This formula can only be used for small K, but it shows that given 100K entries in the hash table you would roughly have 17% chance of collision.
Pcollision = K^2 / N in your table rather than Pcollision = K^2 / 2N?
Apr 3, 2020 at 21:14
Easy hash :)
private string Hash(string str)
{
var allowedSymbols = "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz".ToCharArray();
var hash = new char[6];
for (int i = 0; i < str.Length; i++)
{
hash[i % 6] = (char)(hash[i % 6] ^ str[i]);
}
for (int i = 0; i < 6; i++)
{
hash[i] = allowedSymbols[hash[i] % allowedSymbols.Length];
}
return new string(hash);
}
hash[i % 6] ^ str[i]. OP states that the input string is case-insensative, for both a-z and A-Z the highest two bits are the same for all characters. Even if you used all the normal printable ASCII characters (0x20-0x7e) the top two bits are still identical for 66% of the character set.
The best solution is almost certainly to use SHA1, convert to Base62 (although Base64 would be much easier as it's built in to the framework Convert.ToBase64String. You'll have to do some looking for a decent Base62 library), and then truncate the output to 6 bytes.
I would not use GetHashCode() as it has a history of collision problems. (I'm not trying to claim that this specific bug would apply to you, only mentioning this as evidence that GetHashCode hasn't been implemented well in the past.)
I also would not implement a custom hashing algorithm, it's extremely easy to accidentally write an algorithm with a high collision rate. A lot of research and scrutiny has gone in to SHA1 and the other major hashing algorithms, and you'd be very hard pressed to come up with anything better.
