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I have been taught that nobody tries to open a door when one does not know that the door even exist. The best defense would be then to hide a door. It could be easily seen in the old war movies - nobody would keep a hideout in the light. It was always covered with something suggesting that 'there is nothing interesting there.'

I would assume that in cryptography that would work the same way. Why would then hash generated by MD5 started from $1$, and telling what this is a hash in the first place, and then what kind of hash it is (MD5)?

Now, I see that sha512 does exactly the same thing. Isn't it a weakness by itself? Is there any particular reason why we would have it done this way?

The main question the is: Should I scramble my hash before storing it to hide this from a potential enemy? If there is no need for that then why?

Edit 1

Since I see answers that suggest that obscurity is not security, I would propose this picture. It is WWII. You have just received a hint that SS is coming to your house suspecting that you are hiding partisans, and this is true. They have no time to escape. You have two choices where you could hide them - in the best in the world safe, or in the hidden hole underneath the floor, hidden so well that even your parents would did not suspect that it is there. What is your proposal? Would you convince yourself that the best safe is the best choice?

If I know there is a treasure hidden on an island then I would like to know which island it is or I will not start searching.

I am still not convinced. Chris Jester-Young so far gave me something to think about when suggesting that there can be more algorithms generating the same hash from different data.

Edit 2

I have moved this question to cryptography exchange with edited comment that I am not looking for a private opinion but a source of the final decision to keep it this way. If the 'on hold' state means that the question may be deleted then please, delete it.

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closed as primarily opinion-based by Vatev, Rowland Shaw, Felix Yan, Riser, Jeen Broekstra Apr 16 '14 at 9:51

Many good questions generate some degree of opinion based on expert experience, but answers to this question will tend to be almost entirely based on opinions, rather than facts, references, or specific expertise. If this question can be reworded to fit the rules in the help center, please edit the question.

2 Answers 2

One fundamental principle of security is that you aim to minimise the number of things that need to be hidden, so that there are fewer things that could potentially be compromised.

In the case of Unix passwords, the algorithm and salt do not need to be hidden, so they are not. The security of the salt lies in its uniqueness, not its secrecy, and if you use a hashing algorithm that is slow to run (bcrypt and scrypt are recommended for this), it will make bulk password-guessing less feasible, if users choose long passwords.

You could theoretically argue that if you "chop out" the algorithm identifier, the system could just go through and attempt the password for each supported algorithm. However, this introduces a new weakness: suppose you encrypted a user's password using algorithm 1, but chopped out the algorithm identifier. What if an attacker used an incorrect password, that is invalid for algorithm 1 (obviously), but happened to validate correctly for algorithm 2? You've just allowed the attacker to get in using a wrong password. By fixing the specific algorithm in use, the attacker would not get that opportunity.

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If I my password is A, but someone got the same hash from password B then I would really not care for that. That person would not be able to login to my system with password B. Would only increase number of failures and ultimately lock the account out. Short password is not such a danger from my point of view if I use long and unique seed. Long passwords are danger to the user whose password could be guessed not by reading the shadow file but by knowing the personal information which usually is used in case of short passwords. Thank you for your thoughts! –  Grzegorz Apr 15 '14 at 17:52

Security through obscurity is never a good thing. Would you trust more an hashing algorithm whose employ needs to be hidden?

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This is not the case. I know what function I am using. I question the output which, IMHO, tells too much. –  Grzegorz Apr 15 '14 at 17:37
2  
But, if you think that revealing which is your function is insecure, then you're implying that the function itself is insecure... –  Roberto Reale Apr 15 '14 at 17:39
    
Hmm, I don't think so. By replacing $1$ by $6$ I do not make the function insecure. I understand your point - if the thief thinks that I do not have strong security he/she can attempt to break in. I could always put a sign 'the best security in the world' in from of the hash. That could scare some people off, but that would be 'obscurity' applied which you think is not secure. Thank you for you for your input, though! –  Grzegorz Apr 15 '14 at 17:56

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