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I am by no means a security expert or even a novice. I'm a newbie at security at best.

Someone suggested I use SHA1 instead of MD5 - why would I choose one over the other? Is one more secure?

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Beware of "cargo cult" answers claiming that a hash algorithm is "broken" or "flawed" without stating for which purpose the algorithm is flawed. If you store plain SHA-1 hashes of passwords in a database, your approach is as flawed as with MD5 (see en.wikipedia.org/wiki/Rainbow_table). I believe the afford required to generate hash collisions is not very important in the use case of securely storing user's passwords in a database. The right answers is along the lines of using a salt, keyed hash, PBKDF2, etc. – dtb Jun 17 '10 at 17:05
+1 - This is a great example of a tiny little question that seems perfectly innocent on the surface but which is actually a brilliant entry point into a much bigger, very murky and very important minefield. – Andras Zoltan Jun 17 '10 at 19:26
up vote 10 down vote accepted

I would use SHA2(256) at the minimum - however:

There is little or no point in simply hashing a password in a database due to rainbow table attacks. Equally, salted hashing is better, but if someone has access to your database, then the chances are that they have access to your code in which case they can probably disassemble a fixed salt. Equally, if you use a random salt, then you're storing it inside the row anyway, so while it slows people down they can still attack it with a rainbow table.

A better solution is to use Password Stretching which uses a random salt as well as a random (high) number of iterations so that attempting a brute-force attack against each password takes significantly longer and therefore makes it physically harder to crack all the passwords.

I believe in .Net this can be achieved using PBKDF - but I've mislaid a link to it (somebody supplied it to me an answer to a question I asked a while ago). EDIT-Found the link for .Net: Rfc2898DeriveBytes Class.

On MD5

Whilst MD5 has indeed been shown to be 'broken' as mentioned by the other answers, the main reason why I wouldn't use it - and why I've read that it's inadvisable to use it - is because it's actually very fast, thereby increasing the possibility of a crack within a given period of time.

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+1. This is the only answer that got it right so far. – dtb Jun 17 '10 at 17:12
@Longpoke -- here you go: My password hash is "2pVji9p6NbnWV2SebMK9TruOdvsVIbenBF+fX3PJfXdv/DyBlgTpkv1tKsgGVpjzDyHoVUEvzhzZ L30mIWmiYOSZ6FcN6BJeWPrP4lCxZ4J1lmSL8MEYDyNHVFwS05LsH5jpdCir7ew32cBLaTB84a1e xmuvsim97l1H6rsx+EquMRlXg1HP9SKrjqfIWMZ4XFa4cbP8r469kZjtdkTlVEMCDtzkL8IjyfPY KKDycKrgVHDiU9X/qFgY3tgkSME0TmRukyCfzQUIkRB6kBaB7R63aPr/cs2OmfbggNL3SlLeQoNw cijKW0TuWQX4UfQY3e/uIcoDd4C8ldYN4wgCUA==". Its calculation took {00:00:00.4656027}. It's a word that can be found in the English dictionary. If you can tell my password within a reasonable time frame I'm honestly impressed :) – dtb Jun 17 '10 at 20:49
@Longpoke: It's 3 lines of C# code using only standard .NET classes. If that's "too much work" then I guess that I've just proven that these 3 lines are perfectly enough to protect my asset. In case you still want to try, here is the hash of "A": "3ZyM1YZhl8bFf6x99xDDBsPbm18givBckaAU561gDtHCMIwTT2urk8Z88L8f9sDaYjfpFJi06Wl3 g5i4HlaAGTP4+ADkkWHPasFVQuQ3zKjVWpOPkE40H6D7Crk3xnKjAF5bzgfeyiqupa0OKMuYrzUu YA19ypJjo4+mz++6eJbjD4/HhKFfFrpieZtSRTWk6EBy3Xd4py9bur+uDaJI6pnRJC4UYBmvF4H9 fd1NkHnrG6axut3+/WSq63R0UABpAk5g8C6ym0SRPfv6QJY7OFAPsk9QcBZGV5Lyl9XGn0qTjktX rizIypgnKHXku7Z78+FeqQ1/YtpPPvMIualJhw==" – dtb Jun 17 '10 at 21:32
@Longpoke: Real problems require real solutions. There is a reason why passwords have survived as the only universal means of authentication in common use. But you have posited client certificates as a superior solution. What happens when you need to authenticate from a different machine? Client certificates are not portable. So how do you fix that? And yes, I'm setting you up. – James K Polk Jun 19 '10 at 3:27
Equally, if you use a random salt, then you're storing it inside the row anyway, so while it slows people down they can still attack it with a rainbow table. - For a 256-bit salt, the rainbow table would need more bits than there are atoms in the universe. You can always make something "more secure,", but this is the point most sane people stop and say "Secure enough!" – BlueRaja - Danny Pflughoeft Jun 23 '10 at 20:47

MD5 and SHA1 are both considered insecure, with SHA-1 being better. However, there are 2 things that you should consider:

  1. By "insecure", they mean to say that it's mathematically easier than brute force to determine the pre-hashed value. Sometimes this means they could cut it down from a billion computations to 900 million, other times it's significantly less. This is nowhere near as insecure as my point #2.

  2. Because you are creating a hash, it's easy for a hacker to determine your database's passwords by populating a table full of common passwords, and running it through the same hash algorithm, regardless of which one you use. This is called a rainbow table.

For example, a lot of people use "password" and "john" as their passwords. In MD5, these two passwords always generate to: password: 5f4dcc3b5aa765d61d8327deb882cf99 john : 527bd5b5d689e2c32ae974c6229ff785

So if you just MD5 your passwords, and someone's naive enough to make that their password, it would probably be compromised if a hacker controlled your database and ran it against a rainbow table.

However, if you add some sort of gibberish to every pre-hashed value, like "password12345" and "johnxyz" then you get 2 entirely different hashes that would not be the same as those above. This is called a salt value, and it prevents rainbow tables from being as effective.

My recommendation would be to use the highest level of the SHA algorithms that you can in your programming language, and hash against a salt value (you can create a "random" one by hashing the current time if you like) that you store in the database record with the hashed password.

DB columns: Username | Password | Salt

This isn't the most secure system anyone's ever thought of, but it will likely work for yours.

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You could hash with the username as well, which will most likely be unique in a user database, i.e. a "random salt". – Patrick Jun 17 '10 at 17:51
Yup, pretty much anything you wanted would work if you didn't have any need for it to be truly random. There are of course random number generators that you could hash if you really cared too. – Jordan Jun 17 '10 at 18:02
+1 Though there are many ways a hash could become "insecure" in the eyes of the security community; that is just one of them. Whether the known vulnerabilities currently affect your application is beside the point: Why use a theoretically insecure hash when using a theoretically secure one is just as easy? Besides, better-safe-than-sorry because, as Bruce Schneier always says, "Attacks only get better, never worse!" :) – BlueRaja - Danny Pflughoeft Jun 23 '10 at 20:52

Whichever you use, use salted hashes.

Good luck.

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storage is cheap and processors are fast. use a 1 kilobyte salt with SHA-512.

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MD5 has been "broken", and higher levels of security now require SHA-2, actually. It's a quite interesting read here http://en.wikipedia.org/wiki/MD5.

Edit: 9 seconds late :)

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SHA2. Scheier has some new alternatives too

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