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Most services, programs, etc. have various password complexity checks. Without delving into the efficacy of such checks, I thought of one that might be interesting, but also potentially problematic check:

"The new password must be Y characters different from the last X passwords."

This would prevent people from using passwords like Password1!, Password2!, and so on. But if that's done, one cannot hash the previously used password - they would be at best encrypted... Right?

For a small Y and a fairly short password, you could probably still store the hash and bruteforce all Y letter variations of the new password, but this gets unfeasible as Y and the password length grows.

My original idea is this: since when you change the password you must provide your original password, hash the new password and store and the old one in encrypted form. Now it's reversible.

So assuming an active password is always hashed, is there a better way to do this? And also does having this in place increase or decrease the security of the application?

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in my opinion, changing passwords regurlarly always compromises security because you cannot expect people to remember 2000 different passwords. In my experience they change it to something new, then log in and change it back to the old one quite fase. –  Benjamin Udink ten Cate Sep 1 '11 at 3:20
    
I've never seen instances of preventing people from incrementing their password by one. However I have seen instants of checking users personal details and trying to guess passwords from it and against a list of most popular passwords. This being said, this question its better off in the security site I think. –  Ali Sep 1 '11 at 3:20
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Also id like to add that you should NEVER EVER store unhashed/salted passwords in your database –  Benjamin Udink ten Cate Sep 1 '11 at 3:22
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@Ali This is actually part of Oracle's password complexity verification –  NullUserException Sep 1 '11 at 3:23
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@Ali That doesn't really help, since one could easily bruteforce the characters and reassemble the password. –  NullUserException Sep 1 '11 at 3:30

3 Answers 3

up vote 2 down vote accepted

I tried to put this in a comment, but I think this is important enough to put in an answer.

The scheme proposed by OP is not necessarily a violation of CWE-257. The proposal does not allow a system administrator (say) to recover the old passwords.

The proposal is to use the new password as the encryption key for all of the old passwords. If you can live with the "new password verification" living on the client and not the server, then this is no less secure than encrypting anything else using the password.

So the "change password" gadget would be client-side code. The server would send the encrypted list of N earlier passwords, which the client could decrypt with the user's current password and then re-encrypt with the user's new password. At no time does the server have enough information to determine any of the passwords, whether old or new. Only the client has this information, but it has that in any case... The difference being that an attacker who learned your current password could also learn your old passwords. Since learning your current password is already a disaster, this does not strike me as all that much worse.

True, this does not guard against the "attack" of an employee writing their own password change utility to get around the password restrictions, since the validation is not done on the server side. But in no way is this a violation of CWE-257, in my opinion.

It is actually a reasonably clever idea.

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+1 I like this. –  NullUserException Sep 1 '11 at 18:54
    
I really disagree. By analyzing the pattern of past passwords the most recent one becomes much less secure. A hamming distance cuttoff of 4 bytes or so reduces the complexity to a few thousand guesses. I think cwe-257 is very applicable when attacking this system. –  rook Sep 1 '11 at 19:06
    
@Rook: I think you are missing the point, unless I am missing yours. In this proposed scheme, there is no way for an attacker to get the old passwords unless they already have the new password, because the old passwords are only ever stored encrypted by the new password. –  Nemo Sep 1 '11 at 23:43
    
@Nemo No, if you store passwords in a very insure fashion you should assume that they are plain text. After all what is keeping the attacker from reading the key from a text file? In fact this statement of yours goes against "Defense in depth" in every way. –  rook Sep 2 '11 at 2:07
    
@Rook: You have completely misunderstood the actual proposed scheme here. (That is, you are assuming it is something else.) There is no "key" in any "file", not at any time. In fact, there is no single "key" at all. Please re-read the OP's description and mine carefully, because your responses have nothing to do with the actual proposal. –  Nemo Sep 2 '11 at 2:40

The Oracle requirement you reference says that password n must differ sufficiently from password n-1, not that password n must differ from all previous passwords. Usually to change a password you make the user enter the current password as part of that. So you have everything you need to implement the requirement, and you don't need to store passwords in a reversable fashion (encryption, brute forcing, whatever).

I understand that this doesn't directly address the requirement as originally posed (differ from last X passwords), but my feeling is that it's a bogus requirement. Your requirement would require reversable passwords (the mechanism doesn't matter) and most experts will agree that that's incorrect. I believe you've simply misinterpreted the Oracle requirement, if that's indeed what's driving the question.

EDIT:

OK, I just thought of a way to implement what you're asking for without reversable passwords. I still think you're misinterpreting the Oracle requirement, and I wouldn't actually do what I'm about to describe myself, but it will meet the requirement without reversable passwords.

  1. Pick a reserved character that's not allowed to appear in a real password. For the sake of discussion, suppose it's a backslash.
  2. Enumerate all possible ways of substituting at most Y backslashes into the password, hashing the result each time.
  3. Maintain only the most recent X sets of hashes thus generated.
  4. When the user picks a new password, repeat the procedure on the tendered password and compare its individual hashes against the individual recent hashes.

Goofy, but that should meet the requirement.

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This solution is expensive, there could be hundreds of inflections for each user. –  rook Sep 1 '11 at 15:08
    
Yeah, absolutely. I'm in no way proposing it. :-) –  Willie Wheeler Sep 1 '11 at 22:11

Encrypting passwords is a clear violation of CWE-257 and there for should never be done. However in the case of an expired password, the user has just logged in, there for keep the plain text of this password. Then force the user to change the password and calcualte the hamming distance between the two. Once the user provides a password that is different enough, hash this new password and throw away the plain text.

EDIT: You could keep the salt+hash's of all of the old passwords to make sure the user doesn't pick a password he has in the past. But enforcing that the password is N letters different from all passwords weakens the system as a whole and is expensive as it would require o(n) comparisons.

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I thought so too, but you would still be hashing all active passwords. In a way, you could see the old passwords as any other data... Or couldn't you? –  NullUserException Sep 1 '11 at 4:17
    
@NullUserException I'm not sure what you mean. If the attacker was root on the system then he could attach a debugger and see the plain text passwords in memory. But usually an attacker uses sql injection to obtain password hashes, and this system is secure against this common attack. Or are you referring to session sate? –  rook Sep 1 '11 at 4:22
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What I mean by active password is just the password currently in use, and these would always be hashed. Symmetric encryption would only be used on older (ie: expired) passwords. Note that I am only talking about passwords (hashed or encrypted) being stolen from the database. –  NullUserException Sep 1 '11 at 4:40
    
@NullUserException hashed passwords being stolen from the database is always a problem. But did you read cwe-257? Encrypting the passwords makes the problem much much worse, and its not needed to solve your problem. The user gives you the plain text at the same time it needs to be changed. –  rook Sep 1 '11 at 14:53
    
O(N) is actually OK for something that doesn't run that often. In fact, I'd be willing to take anything with polynomial time complexity if it actually strengthens the system. –  NullUserException Sep 1 '11 at 18:49

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