Assuming a SHA 256 hash and a completely random password using the extended ASCII charset, is there a specific length after which additional characters offer no increase in entropy, and if so what is this?
Thanks.
Assuming a SHA 256 hash and a completely random password using the extended ASCII charset, is there a specific length after which additional characters offer no increase in entropy, and if so what is this? Thanks. 


SHA256 has 256 bits, obviously. The minimum UTF8 character length is one byte, i.e. 8 bits. Therefore, any password longer than 256/8=32 characters is Is this what you meant? 


A hash doesn't increase entropy, it just, so to speak, distills it. Since SHA256 produces 256 bits of output, if you supply it with a password that's completely unpredictable (i.e., each bit of input represents one bit of entropy) then anything beyond 256 bits of input is more or less wasted. Other than from a truly random source, however, it's really hard to get input that has one bit of entropy for every bit of input. For typical English text, Shannon's testing showed about one bit of entropy per character. 


I have come to roughly the same conclusion as the others did, but with a different rationale. Generally speaking, a preimage (brute force) attack on SHA256 requires 2^256 evaluations, regardless of password length. In other words, a hash of a "password" that is thousands of characters long would still take an average of 2^256 tries to duplicate. 2^256 is about 1.2 x 10^77. However, a very short password, where the number of possibilities is less than 2^256, is even easier to break. The threshold is passed when the number of possibilities is greater than 2^256. If you are using ISO 88591, which has 191 characters, there are 191^n possible random passwords of length n, where n is the length of the password. 191^33 is about 1.9 x 10^75 and 191^34 is about 3.6 x 10^77, so the threshold would be at 33 characters. If you were using plain ASCII, with 128 characters, there would be 128^n possible random passwords of length n, where n is the length of the password. 128^36 is about 7.2 x 10^75 and 128^37 is about 9.3 x 10^77, so the threshold would be at 36 characters. Some of the other answers seem to imply that the threshold is always at 32 characters. However, if my logic is correct, the threshold varies, depending on the number of characters you have in your character set. In fact, suppose that you used only characters az and 09, you would continue to add password strength up until your password was 49 characters long! (36^49 is about 1.8 x 10^76) Hopefully this answer gives you a mathematical basis for answering the question. As a side note, if a birthday (collision) attack were possible on SHA256, it would theoretically require only 2^128 evaluations (on average), which is about 3.4 x 10^38. In that case, the threshold for ISO 88591 would be at only 16 characters (191^16 is about 3.1 x 10^36). Thankfully, such an attack has not yet been publicly demonstrated. Please see the Wikipedia articles on SHA2, preimage attacks, and birthday attacks. 


I don't think there is an "effective" limit. Password of any length will be effective if it is effectively created (the usual rules, no words, mixed numbers, letters, cases and characters). It is best to force user to follow these rules rather then limit length. But minimum length should be imposed, sth like 810 characters, to save the users from themselves. 

