Logging authentication attempts including passwords - security

I'm writing a comprehensive authentication system for an application and I was planning on logging failed authentication attempts in order to implement better security. I would like to check failed passwords for both brute force and dictionary attacks, however the only method I could think of doing this is by storing the raw password.
I have mixed feelings about doing this. Although I know that the failed login attempts will be cleared every so often I don't like the idea of raw passwords being stored in a database. I know I mistype passwords very often which are very similar to my real password, or worse yet I'll type a wrong password for a particular login that is actually an active password for another website I belong to.
It would however be impossible to implement advanced security without storing some raw passwords, so I'm trying to think about the best way to do it.
Here are some possible solutions I have thought of:
Don't store more then 24 hours of login attempts. This isn't really a solution, more of simply limiting the damage if the passwords are compromised.
Clear a users failed attempts if they are successfully authenticated.
Anyone have any input on this? Is this a good/bad idea? Should I use two-way encryption?

there's a big difference between a user making mistakes and a brute force / dictionary attack: the volume of requests. Don't store failed attempts - you're quite right that the plaintext password should be handled minimally - just look at the pattern of attempts. That should be enough data.
anything else, and your 'advanced security' starts looking like 'advanced attack vector possibilities'.

This seems like over-engineering. I would just keep track of failed login attempts & after $x amount of failed login attempts, you then block the IP from attempting another login for 1-24hrs or so.
If you're concerned someone is targeting a specific account you can note the number of failed attempts on a specific username & then take appropriate measures, such as limiting failed logins on that username to 2 or 3 per 24hr period on any ip address.
I can think of ways you could try to detect dictionary/brute attacks via comparison, but you're going to have to collect user input and compare it to previous attempts, this could be a security problem if you're storing slightly misspelled legitimate passwords in a database. Plus this is going to take up quite a bit of CPU power to churn through for every login.
The goal should be to make it intensively slow for brute-force attackers, but not annoying or compromising for legitimate users.
Though now that I am thinking on this a bit more, the prevention method could also be a way of denial-of-service by locking users out of being able to login, so take my suggestion with that in mind.

Logging raw passwords seems like a really bad idea, as you pointed out yourself.
Could you just log the username, and the times of failed logins, without actually logging the passwords? It would be fairly obvious if there was a bruteforce attack if there were hundreds of log-in attempts within a short space of time. You can also log the IP address.

I'm not sure what you mean when you mention storing raw passwords- presumably you only want to store the failed password attempts in plain text to analyze for patterns (dictionary attacks) and volume (brute force).
In my limited experience, you would take the user's inputted password, hash it (with a salt, the same salt used to hash the stored password) and compare with the stored hashed value. If the validation fails (the hashed values are not equal), log the plain text version of the password used for the attempt.
I would advise also implementing locking out of an account after a certain number of failed attempts and possibly having an exponential timeout window for when a login attempt can be tried again. If a user enters a password incorrectly to begin, but then enters a password correctly, you might consider deleting the password captured for the failed login for this particular session.

Depending on the authentication protocol you select, e.g., in the case of Kerberos, you may not even have access to the password entered.

Have you thought of a set amount of login's then a timed block? If login fails 3x/5x/10x if you want, then lock the account completely for a specified period of time.
By doing this you make it so painstaking for a brute-forcer to use, that they probably just won't bother trying. Logging every failed attempt, and more so even the thought of plain text passwords is a bad idea. Rather use the following analogy:
"If I make my house so difficult to get into, they'll try the neighbours first."
Make life difficult for the brute forcers and they won't bother.
Another option is after a set amount of failed logins, add a captcha. This again, if the captcha is good, hinders their progress dramatically.
HTH,
Kyle

As others have said, Logging passwords is a bad idea.
A much better idea is to throttle login attempts.
If done properly, throttling can greatly decrease the risk of password attacks as well as limiting denial of service attacks.

You could store hashes of failed passwords, if you really want to retain any information about them. It wouldn't allow you tomanually analyze patterns but would allow comparing failed attempts with each other.
That said, I do not think analyzing passwords would yield any useful information.

As others have pointed out, it's a very bad idea to store plaintext passwords and throttling/limiting login attempts is the right way to go.
If you are concerned about the security of passwords, then you should implement password policies when passwords are created, not at the time of authentication. You can then check in memory for dictionary words and have typical policies such as minimum length, must contain a number, a capital letter, etc.
Of course, password policies can be annoying to users, but they can, theoretically, ameliorate your concerns about weak passwords.
The ugly truth is that passwords are a poor way to prove identity, but the alternatives are more expensive and cumbersome.

Related

Why not using current hash password to sign the reset token?

I have read through many guides about best practice to create a user reset password token. They're all saying that we should create another database table and store the hashing of the token.
And it comes to my mind that why don't we just re-use the current hash password to sign the reset token? We email the user with that token, then check if they are match.
If the user changes the password, the token would be invalid then so it makes sure one time use. So now we don't have to add extra table.
Not sure if I miss something here?
Well, you wouldn't introduce a major and directly exploitable vulnerability by doing so, but consider a few things to see why I think it wouldn't really be recommended.
The password hash is known to anybody that knows the password. It's probably not the actual user, but what if as an attacker, I don't want to directly try passwords because that's too noisy, gets into logs, provokes alerts and so on. Instead, I make the user change their password somehow (eg. as a man in the middle I intercept all login responses or whatever, it doesn't matter how) and then I guess their password by trying to change it, knowing the only secret that was used for the token. This might corrupt auditability at the very least.
Also crypto algorithms sometimes have weaknesses. Not very likely, but one such weakness might allow finding out bits of the key if enough ciphertexts or hashes (some potentially with plaintexts) are known. You don't want an attacker to ever be able to find out user passwords, especially because those tend to be reused unfortunately.
So basically it's all a bit subtle, maybe only a building block in a complex attack, but you shouldn't use secrets beyond their purpose. If you do so, weaknesses will be linked together, weakness of one component (password reset in this case) will become the weakness of another (password storage). It's better to keep separate things separate and thus kind of compartmentalize their vulnerabilities (reduce impact of an exploit if you like).

Value of hashing/encrypting passwords in the greater scheme of things

If someone is able to get passwords out of my app's database, surely they could just get the data out instead, seeing as at the end of the day no hacker is really interested in a password alone I would imagine, therefore what is the real value of obscuring users passwords?
Would keeping security data and app data in different databases strengthen security, by assuming that if they are able to get into one database, they cannot necessarily get into the other?
The cleartext value of the password can be used to attack the user's account elsewhere. This is especially relevant if the value of your data to the potential attacker is perceived as low.
This is a rather common attack scenario, in fact. Instead of brute-forcing someone's account at Google, you brute-force their account at mydinkyforum.com, where there's no CAPTCHA and no account lockout due to its inherently dinky nature. Then try the retrieved password at Google. You'd be surprised.

Insecure to inform user specifically what part of login credentials was wrong when login fails?

I couldn't come up with anything on Google, but this is a question I've had in my mind for a while, so I figured I'd present it here.
Let's say you're designing a typical username/password login. You set up a form where the user enters their username and password and then clicks a button to log in. Now, let's say they typed the password wrong. Is it better to generically say the login failed, or is it acceptable to specifically inform the user that it was their password that was wrong?
My thinking is that telling them exactly what part of their credentials was wrong would make hacking attempts easier because a hacker could determine a username that is valid and then keep trying passwords for that username. If the error message is generic and doesn't say whether it was the username or the password that was wrong, then it becomes more difficult for them. Of course, ideally the system would be designed to make brute-force hacking infeasible.
When I'm trying to log in somewhere and the login fails, I find it somewhat frustrating when I am given a generic error message. If I don't remember what my username was exactly, and then on top of that I may have used a different password than normal, it makes it much more difficult for me to figure it out because I'm working with two variables and never know if I got one of the two right.
I'd appreciate any input on this. I'm leaning toward specific error messages for a system I'm designing because it's more informative and convenient for the user, but I can be convinced otherwise.
Thanks!
Depends on the nature of the site. If this is an online banking app then don't give anything away.
If it's simply a logon to a forum or comment then telling me that I used the wrong username/email/passwd will avoid a lot of frustration
I personally think telling the user that an account does not exist is bad practice. Take a look at the example of Google (or most other large provider of web services). The error message returned for a failed login with Gmail is this: http://support.google.com/accounts/bin/answer.py?hl=en&p=mail&ctx=ch_ServiceLoginAuth&answer=27444
Note that even if the username does not exist, the exact same error is returned. This prevents a potential attacker/spammer from mining email addresses by the difference between "User not found" and "Username/Password failed".
Reference: http://www.harezmi.com.tr/how-to-keep-hackers-informed-about-your-users/?lang=en
FranklyI do not see why you shouldn't tell the user what went wrong. Surly some will disagree with me, and if we potentially give an attacker valid usernames this will off course be used in SQL injection attacks and brute force attacks which might be a security risk. But I motivate my answer by these points.
First one is from your own question
Of course, ideally the system would be designed to make brute-force hacking infeasible.
This is really the key and if you have mechanisms in place such as only allowing a number of failed attempts for a username per hour, a limited failed attempts per IP-adress per hour, long passwords and so on, will drastically reduce an attackers chances to brute force a password even if they know a username. If they can only test 10 passwords per username, and 100 passwords in total each hour, it would take around 285 days to test each possible combination of a 6 character ASCII only password, and 1995 days with a 7 character one. I know that attackers can fake IP-adresses so this specific method isn't watertight on it's own but it is possibly to severely obstruct bruteforcing, which is my point.
The generic error message is bordering on Security by Obscurity. Chances are that an attacker already knows one or more username. I.e. they know a mail address and people often use the same username, they use timing (as pointed out by Jonathan Leffler) to determine if their usernames might be valid, some usernames are really common (admin and administrator for instance) and so on. If part of your security relies on the fact that the attacker shouldn't know/guess usernames you will be unprepared when they do.
Stored procedures will mitigate the risks of SQL-injection attacks and by using basic security measures (not using urls like domain.com/delete/user/username/ to do things and be vigilant with authorization ) an attacker can't really do much with the username other than try to bruteforce.
So basically I see the risk as really low and the benefits as quite high for the user. It also encourages you as a developer to not be lazy with security.
The primary reason to be vague is precisely to make it harder for the hacker to guess whether the user name or the password is wrong. Once they get a user name, they can start making guesses for the password based on the user name with depressing effectiveness.
So, for anything where there is a concern about hacking attempts (roughly, any system where you think a password is a good idea), don't let them know which is wrong - give the same message in the same elapsed time regardless of whether the user name or the password is wrong.
(The timing is important too; if the attacker can spot that a bad user name takes 3 ms to come back and a bad password takes 10 ms, then you've told them whether the user name or the password is wrong. Scale the times to suit your application - but if there's a difference, someone will automate a timing attack using the information, even if there is noise in the timing because of the internet.)
I would go for a generic error message ("Login failed with given email/password") and working password reset function (via email).

How should I ethically approach user password storage for later plaintext retrieval?

Locked. This question and its answers are locked because the question is off-topic but has historical significance. It is not currently accepting new answers or interactions.
As I continue to build more and more websites and web applications I am often asked to store user's passwords in a way that they can be retrieved if/when the user has an issue (either to email a forgotten password link, walk them through over the phone, etc.) When I can I fight bitterly against this practice and I do a lot of ‘extra’ programming to make password resets and administrative assistance possible without storing their actual password.
When I can’t fight it (or can’t win) then I always encode the password in some way so that it, at least, isn’t stored as plaintext in the database—though I am aware that if my DB gets hacked it wouldn't take much for the culprit to crack the passwords, so that makes me uncomfortable.
In a perfect world folks would update passwords frequently and not duplicate them across many different sites—unfortunately I know MANY people that have the same work/home/email/bank password, and have even freely given it to me when they need assistance. I don’t want to be the one responsible for their financial demise if my DB security procedures fail for some reason.
Morally and ethically I feel responsible for protecting what can be, for some users, their livelihood even if they are treating it with much less respect.
I am certain that there are many avenues to approach and arguments to be made for salting hashes and different encoding options, but is there a single ‘best practice’ when you have to store them? In almost all cases I am using PHP and MySQL if that makes any difference in the way I should handle the specifics.
Additional Information for Bounty
I want to clarify that I know this is not something you want to have to do and that in most cases refusal to do so is best. I am, however, not looking for a lecture on the merits of taking this approach I am looking for the best steps to take if you do take this approach.
In a note below I made the point that websites geared largely toward the elderly, mentally challenged, or very young can become confusing for people when they are asked to perform a secure password recovery routine. Though we may find it simple and mundane in those cases some users need the extra assistance of either having a service tech help them into the system or having it emailed/displayed directly to them.
In such systems the attrition rate from these demographics could hobble the application if users were not given this level of access assistance, so please answer with such a setup in mind.
Thanks to Everyone
This has been a fun question with lots of debate and I have enjoyed it. In the end I selected an answer that both retains password security (I will not have to keep plain text or recoverable passwords), but also makes it possible for the user base I specified to log into a system without the major drawbacks I have found from normal password recovery.
As always there were about 5 answers that I would like to have marked as correct for different reasons, but I had to choose the best one--all the rest got a +1. Thanks everyone!
Also, thanks to everyone in the Stack community who voted for this question and/or marked it as a favorite. I take hitting 100 up votes as a compliment and hope that this discussion has helped someone else with the same concern that I had.
How about taking another approach or angle at this problem? Ask why the password is required to be in plaintext: if it's so that the user can retrieve the password, then strictly speaking you don't really need to retrieve the password they set (they don't remember what it is anyway), you need to be able to give them a password they can use.
Think about it: if the user needs to retrieve the password, it's because they've forgotten it. In which case a new password is just as good as the old one. But, one of the drawbacks of common password reset mechanisms used today is that the generated passwords produced in a reset operation are generally a bunch of random characters, so they're difficult for the user to simply type in correctly unless they copy-n-paste. That can be a problem for less savvy computer users.
One way around that problem is to provide auto-generated passwords that are more or less natural language text. While natural language strings might not have the entropy that a string of random characters of the same length has, there's nothing that says your auto-generated password needs to have only 8 (or 10 or 12) characters. Get a high-entropy auto-generated passphrase by stringing together several random words (leave a space between them, so they're still recognizable and typeable by anyone who can read). Six random words of varying length are probably easier to type correctly and with confidence than 10 random characters, and they can have a higher entropy as well. For example, the entropy of a 10 character password drawn randomly from uppercase, lowercase, digits and 10 punctuation symbols (for a total of 72 valid symbols) would have an entropy of 61.7 bits. Using a dictionary of 7776 words (as Diceware uses) which could be randomly selected for a six word passphrase, the passphrase would have an entropy of 77.4 bits. See the Diceware FAQ for more info.
a passphrase with about 77 bits of entropy: "admit prose flare table acute flair"
a password with about 74 bits of entropy: "K:&$R^tt~qkD"
I know I'd prefer typing the phrase, and with copy-n-paste, the phrase is no less easy to use that the password either, so no loss there. Of course if your website (or whatever the protected asset is) doesn't need 77 bits of entropy for an auto-generated passphrase, generate fewer words (which I'm sure your users would appreciate).
I understand the arguments that there are password protected assets that really don't have a high level of value, so the breach of a password might not be the end of the world. For example, I probably wouldn't care if 80% of the passwords I use on various websites was breached: all that could happen is a someone spamming or posting under my name for a while. That wouldn't be great, but it's not like they'd be breaking into my bank account. However, given the fact that many people use the same password for their web forum sites as they do for their bank accounts (and probably national security databases), I think it would be best to handle even those 'low-value' passwords as non-recoverable.
Imagine someone has commissioned a large building to be built - a bar, let's say - and the following conversation takes place:
Architect: For a building of this size and capacity, you will need fire exits here, here, and here.
Client: No, that's too complicated and expensive to maintain, I don't want any side doors or back doors.
Architect: Sir, fire exits are not optional, they are required as per the city's fire code.
Client: I'm not paying you to argue. Just do what I asked.
Does the architect then ask how to ethically build this building without fire exits?
In the building and engineering industry, the conversation is most likely to end like this:
Architect: This building cannot be built without fire exits. You can go to any other licensed professional and he will tell you the same thing. I'm leaving now; call me back when you are ready to cooperate.
Computer programming may not be a licensed profession, but people often seem to wonder why our profession doesn't get the same respect as a civil or mechanical engineer - well, look no further. Those professions, when handed garbage (or outright dangerous) requirements, will simply refuse. They know it is not an excuse to say, "well, I did my best, but he insisted, and I've gotta do what he says." They could lose their license for that excuse.
I don't know whether or not you or your clients are part of any publicly-traded company, but storing passwords in any recoverable form would cause you to to fail several different types of security audits. The issue is not how difficult it would be for some "hacker" who got access to your database to recover the passwords. The vast majority of security threats are internal. What you need to protect against is some disgruntled employee walking off with all the passwords and selling them to the highest bidder. Using asymmetrical encryption and storing the private key in a separate database does absolutely nothing to prevent this scenario; there's always going to be someone with access to the private database, and that's a serious security risk.
There is no ethical or responsible way to store passwords in a recoverable form. Period.
You could encrypt the password + a salt with a public key. For logins just check if the stored value equals the value calculated from the user input + salt. If there comes a time, when the password needs to be restored in plaintext, you can decrypt manually or semi-automatically with the private key. The private key may be stored elsewhere and may additionally be encrypted symmetrically (which will need a human interaction to decrypt the password then).
I think this is actually kind of similar to the way the Windows Recovery Agent works.
Passwords are stored encrypted
People can login without decrypting to plaintext
Passwords can be recovered to plaintext, but only with a private key, that can be stored outside the system (in a bank safe, if you want to).
Don't give up. The weapon you can use to convince your clients is non-repudiability. If you can reconstruct user passwords via any mechanism, you have given their clients a legal non-repudiation mechanism and they can repudiate any transaction that depends on that password, because there is no way the supplier can prove that they didn't reconstruct the password and put the transaction through themselves. If passwords are correctly stored as digests rather than ciphertext, this is impossible, ergo either the end-client executed the transaction himself or breached his duty of care w.r.t. the password. In either case that leaves the liability squarely with him. I've worked on cases where that would amount to hundreds of millions of dollars. Not something you want to get wrong.
You can not ethically store passwords for later plaintext retrieval. It's as simple as that. Even Jon Skeet can not ethically store passwords for later plaintext retrieval. If your users can retrieve passwords in plain text somehow or other, then potentially so too can a hacker who finds a security vulnerability in your code. And that's not just one user's password being compromised, but all of them.
If your clients have a problem with that, tell them that storing passwords recoverably is against the law. Here in the UK at any rate, the Data Protection Act 1998 (in particular, Schedule 1, Part II, Paragraph 9) requires data controllers to use the appropriate technical measures to keep personal data secure, taking into account, among other things, the harm that might be caused if the data were compromised -- which might be considerable for users who share passwords among sites. If they still have trouble grokking the fact that it's a problem, point them to some real-world examples, such as this one.
The simplest way to allow users to recover a login is to e-mail them a one-time link that logs them in automatically and takes them straight to a page where they can choose a new password. Create a prototype and show it in action to them.
Here are a couple of blog posts I wrote on the subject:
http://jamesmckay.net/2009/09/if-you-are-saving-passwords-in-clear-text-you-are-probably-breaking-the-law/
http://jamesmckay.net/2008/06/easy-login-recovery-without-compromising-security/
Update: we are now starting to see lawsuits and prosecutions against companies that fail to secure their users' passwords properly. Example: LinkedIn slapped with $5 million class action lawsuit; Sony fined £250,000 over PlayStation data hack. If I recall correctly, LinkedIn was actually encrypting its users' passwords, but the encryption it was using was too weak to be effective.
After reading this part:
In a note below I made the point that
websites geared largely toward the
elderly, mentally challenged, or very
young can become confusing for people
when they are asked to perform a
secure password recovery routine.
Though we may find it simple and
mundane in those cases some users need
the extra assistance of either having
a service tech help them into the
system or having it emailed/displayed
directly to them.
In such systems the attrition rate
from these demographics could hobble
the application if users were not
given this level of access assistance,
so please answer with such a setup in
mind.
I'm left wondering if any of these requirements mandate a retrievable password system. For instance:
Aunt Mabel calls up and says "Your internet program isn't working, I don't know my password". "OK" says the customer service drone "let me check a few details and then I'll give you a new password. When you next log in it will ask you if you want to keep that password or change it to something you can remember more easily."
Then the system is set up to know when a password reset has happened and display a "would you like to keep the new password or choose a new one" message.
How is this worse for the less PC-literate than being told their old password? And while the customer service person can get up to mischief, the database itself is much more secure in case it is breached.
Comment what's bad on my suggestion and I'll suggest a solution that actually does what you initially wanted.
Michael Brooks has been rather vocal about CWE-257 - the fact that whatever method you use, you (the administrator) can still recover the password. So how about these options:
Encrypt the password with someone else's public key - some external authority. That way you can't reconstruct it personally, and the user will have to go to that external authority and ask to have their password recovered.
Encrypt the password using a key generated from a second passphrase. Do this encryption client-side and never transmit it in the clear to the server. Then, to recover, do the decryption client-side again by re-generating the key from their input. Admittedly, this approach is basically using a second password, but you can always tell them to write it down, or use the old security-question approach.
I think 1. is the better choice, because it enables you to designate someone within the client's company to hold the private key. Make sure they generate the key themselves, and store it with instructions in a safe etc. You could even add security by electing to only encrypt and supply certain characters from the password to the internal third party so they would have to crack the password to guess it. Supplying these characters to the user, they will probably remember what it was!
There's been a lot of discussion of security concerns for the user in response to this question, but I'd like to add a mentioning of benefits. So far, I've not seen one legitimate benefit mentioned for having a recoverable password stored on the system. Consider this:
Does the user benefit from having their password emailed to them? No. They receive more benefit from a one-time-use password reset link, which would hopefully allow them to choose a password they will remember.
Does the user benefit from having their password displayed on screen? No, for the same reason as above; they should choose a new password.
Does the user benefit from having a support person speak the password to the user? No; again, if the support person deems the user's request for their password as properly authenticated, it's more to the user's benefit to be given a new password and the opportunity to change it. Plus, phone support is more costly than automated password resets, so the company also doesn't benefit.
It seems the only ones that can benefit from recoverable passwords are those with malicious intent or supporters of poor APIs that require third-party password exchange (please don't use said APIs ever!). Perhaps you can win your argument by truthfully stating to your clients that the company gains no benefits and only liabilities by storing recoverable passwords.
Reading between the lines of these types of requests, you'll see that your clients probably don't understand or actually even care at all about how passwords are managed. What they really want is an authentication system that isn't so hard for their users. So in addition to telling them how they don't actually want recoverable passwords, you should offer them ways to make the authentication process less painful, especially if you don't need the heavy security levels of, say, a bank:
Allow the user to use their email address for their user name. I've seen countless cases where the user forgets their user name, but few forget their email address.
Offer OpenID and let a third-party pay for the costs of user forgetfulness.
Ease off on the password restrictions. I'm sure we've all been incredibly annoyed when some web site doesn't allow your preferred password because of useless requirements like "you can't use special characters" or "your password is too long" or "your password must start with a letter." Also, if ease of use is a larger concern than password strength, you could loosen even the non-stupid requirements by allowing shorter passwords or not requiring a mix of character classes. With loosened restrictions, users will be more likely to use a password they won't forget.
Don't expire passwords.
Allow the user to reuse an old password.
Allow the user to choose their own password reset question.
But if you, for some reason (and please tell us the reason) really, really, really need to be able to have a recoverable password, you could shield the user from potentially compromising their other online accounts by giving them a non-password-based authentication system. Because people are already familiar with username/password systems and they are a well-exercised solution, this would be a last resort, but there's surely plenty of creative alternatives to passwords:
Let the user choose a numeric pin, preferably not 4-digit, and preferably only if brute-force attempts are protected against.
Have the user choose a question with a short answer that only they know the answer to, will never change, they will always remember, and they don't mind other people finding out.
Have the user enter a user name and then draw an easy-to-remember shape with sufficient permutations to protect against guessing (see this nifty photo of how the G1 does this for unlocking the phone).
For a children's web site, you could auto-generate a fuzzy creature based on the user name (sort of like an identicon) and ask the user to give the creature a secret name. They can then be prompted to enter the creature's secret name to log in.
Pursuant to the comment I made on the question:
One important point has been very glossed over by nearly everyone... My initial reaction was very similar to #Michael Brooks, till I realized, like #stefanw, that the issue here is broken requirements, but these are what they are.
But then, it occured to me that that might not even be the case! The missing point here, is the unspoken value of the application's assets. Simply speaking, for a low value system, a fully secure authentication mechanism, with all the process involved, would be overkill, and the wrong security choice.
Obviously, for a bank, the "best practices" are a must, and there is no way to ethically violate CWE-257. But it's easy to think of low value systems where it's just not worth it (but a simple password is still required).
It's important to remember, true security expertise is in finding appropriate tradeoffs, NOT in dogmatically spouting the "Best Practices" that anyone can read online.
As such, I suggest another solution:
Depending on the value of the system, and ONLY IF the system is appropriately low-value with no "expensive" asset (the identity itself, included), AND there are valid business requirements that make proper process impossible (or sufficiently difficult/expensive), AND the client is made aware of all the caveats...
Then it could be appropriate to simply allow reversible encryption, with no special hoops to jump through.
I am stopping just short of saying not to bother with encryption at all, because it is very simple/cheap to implement (even considering passible key management), and it DOES provide SOME protection (more than the cost of implementing it). Also, its worth looking at how to provide the user with the original password, whether via email, displaying on the screen, etc.
Since the assumption here is that the value of the stolen password (even in aggregate) is quite low, any of these solutions can be valid.
Since there is a lively discussion going on, actually SEVERAL lively discussions, in the different posts and seperate comment threads, I will add some clarifications, and respond to some of the very good points that have been raised elsewhere here.
To start, I think it's clear to everyone here that allowing the user's original password to be retrieved, is Bad Practice, and generally Not A Good Idea. That is not at all under dispute...
Further, I will emphasize that in many, nay MOST, situations - it's really wrong, even foul, nasty, AND ugly.
However, the crux of the question is around the principle, IS there any situation where it might not be necessary to forbid this, and if so, how to do so in the most correct manner appropriate to the situation.
Now, as #Thomas, #sfussenegger and few others mentioned, the only proper way to answer that question, is to do a thorough risk analysis of any given (or hypothetical) situation, to understand what's at stake, how much it's worth to protect, and what other mitigations are in play to afford that protection.
No, it is NOT a buzzword, this is one of the basic, most important tools for a real-live security professional. Best practices are good up to a point (usually as guidelines for the inexperienced and the hacks), after that point thoughtful risk analysis takes over.
Y'know, it's funny - I always considered myself one of the security fanatics, and somehow I'm on the opposite side of those so-called "Security Experts"... Well, truth is - because I'm a fanatic, and an actual real-life security expert - I do not believe in spouting "Best Practice" dogma (or CWEs) WITHOUT that all-important risk analysis.
"Beware the security zealot who is quick to apply everything in their tool belt without knowing what the actual issue is they are defending against. More security doesn’t necessarily equate to good security."
Risk analysis, and true security fanatics, would point to a smarter, value/risk -based tradeoff, based on risk, potential loss, possible threats, complementary mitigations, etc. Any "Security Expert" that cannot point to sound risk analysis as the basis for their recommendations, or support logical tradeoffs, but would instead prefer to spout dogma and CWEs without even understanding how to perform a risk analysis, are naught but Security Hacks, and their Expertise is not worth the toilet paper they printed it on.
Indeed, that is how we get the ridiculousness that is Airport Security.
But before we talk about the appropriate tradeoffs to make in THIS SITUATION, let's take a look at the apparent risks (apparent, because we don't have all the background information on this situation, we are all hypothesizing - since the question is what hypothetical situation might there be...)
Let's assume a LOW-VALUE system, yet not so trival that it's public access - the system owner wants to prevent casual impersonation, yet "high" security is not as paramount as ease of use. (Yes, it is a legitimate tradeoff to ACCEPT the risk that any proficient script-kiddie can hack the site... Wait, isn't APT in vogue now...?)
Just for example, let's say I'm arranging a simple site for a large family gathering, allowing everyone to brainstorm on where we want to go on our camping trip this year. I'm less worried about some anonymous hacker, or even Cousin Fred squeezing in repeated suggestions to go back to Lake Wantanamanabikiliki, as I am about Aunt Erma not being able to logon when she needs to. Now, Aunt Erma, being a nuclear physicist, isn't very good at remembering passwords, or even with using computers at all... So I want to remove all friction possible for her. Again, I'm NOT worried about hacks, I just dont want silly mistakes of wrong login - I want to know who is coming, and what they want.
Anyway.
So what are our main risks here, if we symmetrically encrypt passwords, instead of using a one-way hash?
Impersonating users? No, I've already accepted that risk, not interesting.
Evil administrator? Well, maybe... But again, I dont care if someone can impersonate another user, INTERNAL or no... and anyway a malicious admin is gonna get your password no matter what - if your admin's gone bad, its game over anyway.
Another issue that's been raised, is the identity is actually shared between several systems. Ah! This is a very interesting risk, that requires a closer look.
Let me start by asserting that it's not the actual identity thats shared, rather the proof, or the authentication credential. Okay, since a shared password will effectively allow me entrance to another system (say, my bank account, or gmail), this is effectively the same identity, so it's just semantics... Except that it's not. Identity is managed seperately by each system, in this scenario (though there might be third party id systems, such as OAuth - still, its seperate from the identity in this system - more on this later).
As such, the core point of risk here, is that the user will willingly input his (same) password into several different systems - and now, I (the admin) or any other hacker of my site will have access to Aunt Erma's passwords for the nuclear missile site.
Hmmm.
Does anything here seem off to you?
It should.
Let's start with the fact that protecting the nuclear missiles system is not my responsibility, I'm just building a frakkin family outing site (for MY family). So whose responsibility IS it? Umm... How about the nuclear missiles system? Duh.
Second, If I wanted to steal someone's password (someone who is known to repeatedly use the same password between secure sites, and not-so-secure ones) - why would I bother hacking your site? Or struggling with your symmetric encryption? Goshdarnitall, I can just put up my own simple website, have users sign up to receive VERY IMPORTANT NEWS about whatever they want... Puffo Presto, I "stole" their passwords.
Yes, user education always does come back to bite us in the hienie, doesn't it?
And there's nothing you can do about that... Even if you WERE to hash their passwords on your site, and do everything else the TSA can think of, you added protection to their password NOT ONE WHIT, if they're going to keep promiscuously sticking their passwords into every site they bump into. Don't EVEN bother trying.
Put another way, You don't own their passwords, so stop trying to act like you do.
So, my Dear Security Experts, as an old lady used to ask for Wendy's, "WHERE's the risk?"
Another few points, in answer to some issues raised above:
CWE is not a law, or regulation, or even a standard. It is a collection of common weaknesses, i.e. the inverse of "Best Practices".
The issue of shared identity is an actual problem, but misunderstood (or misrepresented) by the naysayers here. It is an issue of sharing the identity in and of itself(!), NOT about cracking the passwords on low-value systems. If you're sharing a password between a low-value and a high-value system, the problem is already there!
By the by, the previous point would actually point AGAINST using OAuth and the like for both these low-value systems, and the high-value banking systems.
I know it was just an example, but (sadly) the FBI systems are not really the most secured around. Not quite like your cat's blog's servers, but nor do they surpass some of the more secure banks.
Split knowledge, or dual control, of encryption keys do NOT happen just in the military, in fact PCI-DSS now requires this from basically all merchants, so its not really so far out there anymore (IF the value justifies it).
To all those who are complaining that questions like these are what makes the developer profession look so bad: it is answers like those, that make the security profession look even worse. Again, business-focused risk analysis is what is required, otherwise you make yourself useless. In addition to being wrong.
I guess this is why it's not a good idea to just take a regular developer and drop more security responsibilities on him, without training to think differently, and to look for the correct tradeoffs. No offense, to those of you here, I'm all for it - but more training is in order.
Whew. What a long post...
But to answer your original question, #Shane:
Explain to the customer the proper way to do things.
If he still insists, explain some more, insist, argue. Throw a tantrum, if needed.
Explain the BUSINESS RISK to him. Details are good, figures are better, a live demo is usually best.
IF HE STILL insists, AND presents valid business reasons - it's time for you to do a judgement call:
Is this site low-to-no-value? Is it really a valid business case? Is it good enough for you? Are there no other risks you can consider, that would outweigh valid business reasons? (And of course, is the client NOT a malicious site, but thats duh).
If so, just go right ahead. It's not worth the effort, friction, and lost usage (in this hypothetical situation) to put the necessary process in place. Any other decision (again, in this situation) is a bad tradeoff.
So, bottom line, and an actual answer - encrypt it with a simple symmetrical algorithm, protect the encryption key with strong ACLs and preferably DPAPI or the like, document it and have the client (someone senior enough to make that decision) sign off on it.
How about a halfway house?
Store the passwords with a strong encryption, and don't enable resets.
Instead of resetting passwords, allow sending a one-time password (that has to be changed as soon as the first logon occurs). Let the user then change to whatever password they want (the previous one, if they choose).
You can "sell" this as a secure mechanism for resetting passwords.
The only way to allow a user to retrieve their original password, is to encrypt it with the user's own public key. Only that user can then decrypt their password.
So the steps would be:
User registers on your site (over SSL of course) without yet setting a password. Log them in automatically or provide a temporary password.
You offer to store their public PGP key for future password retrieval.
They upload their public PGP key.
You ask them to set a new password.
They submit their password.
You hash the password using the best password hashing algorithm available (e.g. bcrypt). Use this when validating the next log-in.
You encrypt the password with the public key, and store that separately.
Should the user then ask for their password, you respond with the encrypted (not hashed) password. If the user does not wish to be able to retrieve their password in future (they would only be able to reset it to a service-generated one), steps 3 and 7 can be skipped.
I think the real question you should ask yourself is: 'How can I be better at convincing people?'
I have the same issue. And at the same way I always think that someone hack my system it's not a matter of "if" but of "when".
So, when I must to do a website that need to store a recoverable confidential information, like a credit card or a password, what I do it's:
encrypt with: openssl_encrypt(string $data , string $method , string $password)
PHP manual.
data arg:
the sensitive information (e.g. the user password)
serialize if necessary, e.g. if the information is a array of data like multiple sensitive information
password arg: use a information that only the user know like:
the user license plate
social security number
user phone number
the user mother name
a random string sended by email and/or by sms at register time
method arg:
choose one cipher method, like "aes-256-cbc"
NEVER store the information used in the "password" argument at database (or whatever place in the system)
When necessary to retrive this data just use the "openssl_decrypt()" function and ask the user for the answer. E.g.: "To receive your password answer the question: What's your cellphone number?"
PS 1: never use as a password a data stored in database. If you need to store the user cellphone number, then never use this information to encode the data. Always use a information that only the user know or that it's hard to someone non-relative know.
PS 2: for credit card information, like "one click buying", what I do is use the login password. This password is hashed in database (sha1, md5, etc), but at login time I store the plain-text password in session or in a non-persistent (i.e. at memory) secure cookie. This plain password never stay in database, indeed it's always stay in memory, destroyed at end of section. When the user click at "one click buying" button the system use this password. If the user was logged in with a service like facebook, twitter, etc, then I prompt the password again at buying time (ok, it's not a fully "on click") or then use some data of the service that user used to login (like the facebook id).
Securing credentials is not a binary operation: secure/not secure. Security is all about risk assessment and is measured on a continuum. Security fanatics hate to think this way, but the ugly truth is that nothing is perfectly secure. Hashed passwords with stringent password requirements, DNA samples, and retina scans are more secure but at a cost of development and user experience. Plaintext passwords are far less secure but are cheaper to implement (but should be avoided). At end of the day, it comes down to a cost/benefit analysis of a breach. You implement security based on the value of the data being secured and its time-value.
What is the cost of someone's password getting out into the wild? What is the cost of impersonation in the given system? To the FBI computers, the cost could be enormous. To Bob's one-off five-page website, the cost could be negligible. A professional provides options to their customers and, when it comes to security, lays out the advantages and risks of any implementation. This is doubly so if the client requests something that could put them at risk because of failing to heed industry standards. If a client specifically requests two-way encryption, I would ensure you document your objections but that should not stop you from implementing in the best way you know. At the end of the day, it is the client's money. Yes, you should push for using one-way hashes but to say that is absolutely the only choice and anything else is unethical is utter nonsense.
If you are storing passwords with two-way encryption, security all comes down to key management. Windows provides mechanisms to restrict access to certificates private keys to administrative accounts and with passwords. If you are hosting on other platform's, you would need to see what options you have available on those. As others have suggested, you can use asymmetric encryption.
There is no law (neither the Data Protection Act in the UK) of which I'm aware that states specifically that passwords must be stored using one-way hashes. The only requirement in any of these laws is simply that reasonable steps are taken for security. If access to the database is restricted, even plaintext passwords can qualify legally under such a restriction.
However, this does bring to light one more aspect: legal precedence. If legal precedence suggests that you must use one-way hashes given the industry in which your system is being built, then that is entirely different. That is the ammunition you use to convince your customer. Barring that, the best suggestion to provide a reasonable risk assessment, document your objections and implement the system in the most secure way you can given customer's requirements.
Make the answer to the user's security question a part of the encryption key, and don't store the security question answer as plain text (hash that instead)
I implement multiple-factor authentication systems for a living, so for me it is natural to think that you can either reset or reconstruct the password, while temporarily using one less factor to authenticate the user for just the reset/recreation workflow. Particularly the use of OTPs (one-time passwords) as some of the additional factors, mitigates much of the risk if the time window is short for the suggested workflow. We've implemented software OTP generators for smartphones (that most users already carry with themselves all day) with great success. Before complains of a commercial plug appear, what I'm saying is that we can lower the risks inherent of keeping passwords easily retrievable or resettable when they aren't the only factor used to authenticate an user. I concede that for the password reuse among sites scenarios the situation is still not pretty, as the user will insist to have the original password because he/she wants to open up the other sites too, but you can try to deliver the reconstructed password in the safest possible way (htpps and discreet appearance on the html).
Sorry, but as long as you have some way to decode their password, there's no way it's going to be secure. Fight it bitterly, and if you lose, CYA.
Just came across this interesting and heated discussion.
What surprised me most though was, how little attention was payed to the following basic question:
Q1. What are the actual reasons the user insists on having access to plain text stored password? Why is it of so much value?
The information that users are elder or young does not really answer that question. But how a business decision can be made without proper understanding customer's concern?
Now why it matters?
Because if the real cause of customers' request is the system that is painfully hard to use, then maybe addressing the exact cause would solve the actual problem?
As I don't have this information and cannot speak to those customers, I can only guess: It is about usability, see above.
Another question I have seen asked:
Q2. If user does not remember the password in first place, why does the old password matter?
And here is possible answer.
If you have cat called "miaumiau" and used her name as password but forgot you did, would you prefer to be reminded what it was or rather being sent something like "#zy*RW(ew"?
Another possible reason is that the user considers it a hard work to come up with a new password! So having the old password sent back gives the illusion of saving her from that painful work again.
I am just trying to understand the reason. But whatever the reason is, it is the reason not the cause that has to be addressed.
As user, I want things simple! I don't want to work hard!
If I log in to a news site to read newspapers, I want to type 1111 as password and be through!!!
I know it is insecure but what do I care about someone getting access to my "account"? Yes, he can read the news too!
Does the site store my "private" information?
The news I read today?
Then it is the site's problem, not mine!
Does the site show private information to authenticated user?
Then don't show it in first place!
This is just to demonstrate user's attitude to the problem.
So to summarize, I don't feel it is a problem of how to "securely" store plain text passwords (which we know is impossible) but rather how to address customers actual concern.
Handling lost/forgotten passwords:
Nobody should ever be able to recover passwords.
If users forgot their passwords, they must at least know their user names or email addresses.
Upon request, generate a GUID in the Users table and sent an email containing a link containing the guid as a parameter to the user's email address.
The page behind the link verifies that the parameter guid really exists (probably with some timeout logic), and asks the user for a new password.
If you need to have hotline help users, add some roles to your grants model and allow the hotline role to temporarily login as identified user. Log all such hotline logins. For example, Bugzilla offers such an impersonation feature to admins.
What about emailing the plaintext password upon registration, before getting it encrypted and lost? I've seen a lot of websites do it, and getting that password from the user's email is more secure than leaving it around on your server/comp.
If you can't just reject the requirement to store recoverable passwords, how about this as your counter-argument.
We can either properly hash passwords and build a reset mechanism for the users, or we can remove all personally identifiable information from the system. You can use an email address to set up user preferences, but that's about it. Use a cookie to automatically pull preferences on future visits and throw the data away after a reasonable period.
The one option that is often overlooked with password policy is whether a password is really even needed. If the only thing your password policy does is cause customer service calls, maybe you can get rid of it.
Do the users really need to recover (e.g. be told) what the password they forgot was, or do they simply need to be able to get onto the system? If what they really want is a password to logon, why not have a routine that simply changes the old password (whatever it is) to a new password that the support person can give to the person that lost his password?
I have worked with systems that do exactly this. The support person has no way of knowing what the current password is, but can reset it to a new value. Of course all such resets should be logged somewhere and good practice would be to generate an email to the user telling him that the password has been reset.
Another possibility is to have two simultaneous passwords permitting access to an account. One is the "normal" password that the user manages and the other is like a skeleton/master key that is known by the support staff only and is the same for all users. That way when a user has a problem the support person can login to the account with the master key and help the user change his password to whatever. Needless to say, all logins with the master key should be logged by the system as well. As an extra measure, whenever the master key is used you could validate the support persons credentials as well.
-EDIT- In response to the comments about not having a master key: I agree that it is bad just as I believe it is bad to allow anyone other than the user to have access to the user's account. If you look at the question, the whole premise is that the customer mandated a highly compromised security environment.
A master key need not be as bad as would first seem. I used to work at a defense plant where they perceived the need for the mainframe computer operator to have "special access" on certain occasions. They simply put the special password in a sealed envelope and taped it to the operator's desk. To use the password (which the operator did not know) he had to open the envelope. At each change of shift one of the jobs of the shift supervisor was to see if the envelope had been opened and if so immediately have the password changed (by another department) and the new password was put in a new envelope and the process started all over again. The operator would be questioned as to why he had opened it and the incident would be documented for the record.
While this is not a procedure that I would design, it did work and provided for excellent accountability. Everything was logged and reviewed, plus all the operators had DOD secret clearances and we never had any abuses.
Because of the review and oversight, all the operators knew that if they misused the privilege of opening the envelope they were subject to immediate dismissal and possible criminal prosecution.
So I guess the real answer is if one wants to do things right one hires people they can trust, do background checks and exercise proper management oversight and accountability.
But then again if this poor fellow's client had good management they wouldn't have asked for such a security comprimised solution in the first place, now would they?
From the little that I understand about this subject, I believe that if you are building a website with a signon/password, then you should not even see the plaintext password on your server at all. The password should be hashed, and probably salted, before it even leaves the client.
If you never see the plaintext password, then the question of retrieval doesn't arise.
Also, I gather (from the web) that (allegedly) some algorithms such as MD5 are no longer considered secure. I have no way of judging that myself, but it is something to consider.
open a DB on a standalone server and give an encrypted remote connection to each web server that requires this feature.
it does not have to be a relational DB, it can be a file system with FTP access, using folders and files instead of tables and rows.
give the web servers write-only permissions if you can.
Store the non-retrievable encryption of the password in the site's DB (let's call it "pass-a") like normal people do :)
on each new user (or password change) store a plain copy of the password in the remote DB. use the server's id, the user's ID and "pass-a" as a composite key for this password. you can even use a bi-directional encryption on the password to sleep better at night.
now in order for someone to get both the password and it's context (site id + user id + "pass-a"), he has to:
hack the website's DB to get a ("pass-a", user id ) pair or pairs.
get the website's id from some config file
find and hack into the remote passwords DB.
you can control the accessibility of the password retrieval service (expose it only as a secured web service, allow only certain amount of passwords retrievals per day, do it manually, etc.), and even charge extra for this "special security arrangement".
The passwords retrieval DB server is pretty hidden as it does not serve many functions and can be better secured (you can tailor permissions, processes and services tightly).
all in all, you make the work harder for the hacker. the chance of a security breach on any single server is still the same, but meaningful data (a match of account and password) will be hard to assemble.
Another option you may not have considered is allowing actions via email. It is a bit cumbersome, but I implemented this for a client that needed users "outside" their system to view (read only) certain parts of the system. For example:
Once a user is registered, they have full access (like a regular
website). Registration must include an email.
If data or an action is needed and the user doesn't
remember their password, they can still perform the action by
clicking on a special "email me for permission" button, right next to the regular "submit" button.
The request is then sent out to the email with a hyperlink asking if they want the action to be performed. This is similar to a password reset email link, but instead of resetting the password it performs the one-time action.
The user then clicks "Yes", and it confirms that the data should be shown, or the action should be performed, data revealed, etc.
As you mentioned in the comments, this won't work if the email is compromised, but it does address #joachim 's comment about not wanting to reset the password. Eventually, they would have to use the password reset, but they could do that at a more convenient time, or with assistance of an administrator or friend, as needed.
A twist to this solution would be to send the action request to a third party trusted administrator. This would work best in cases with the elderly, mentally challenged, very young or otherwise confused users. Of course this requires a trusted administrator for these people to support their actions.
Salt-and-hash the user's password as normal. When logging the user in, allow both the user's password (after salting/hashing), but also allow what the user literally entered to match too.
This allows the user to enter their secret password, but also allows them to enter the salted/hashed version of their password, which is what someone would read from the database.
Basically, make the salted/hashed password be also a "plain-text" password.

How does hashing and salting passwords make the application secure?

As much as I understand it is a good idea to keep passwords secret from the site administrator himself because he could try to take a user's email and log into his mailbox using the same password (since many users use the same password everywhere).
Beyond that I do not see the point. I know it makes more difficult the dictionary attack but... if someone unauthorized got into the database, isn't it too late to worry about passwords? The guy has now access to all tables in the database and in a position to take all the data and do whatever he wants.
Or am I missing something?
The bigger problem is that people tend to use the same password everywhere. So if you obtain a database of usernames and unsalted passwords, chances are good they might work elsewhere, like hotmail, gmail etc.
The guy might be in a position to do everything he/she wants to your system, but you shouldn't allow him/her to do anything with other systems (by using your users' passwords).
Password is a property of your users. You should keep it safely.
Many of your users use the same credentials (usernames/passwords) at your site as they do at their bank. If someone can get the credentials table, they can get instant access to a bunch of bank accounts. Fail.
If you don't actually store passwords, then attackers can't steal your users' bank accounts just by grabbing the credentials table.
It relies on the fact that a hash is a one way function. In other words, its very easy to convert a password into a hash, but very difficult to do the opposite.
So when a user registers you convert their chosen password into a hash and store it. At a later point they login using their password and you convert the password to its hash and compares it this is because, to a high level of probablity if (passwordhashA == passwordhashB) then passwordA=passwordB.
Salting is a solution to a related problem. If you know that someones passwordhash is, say ABCDEF, then you can try calcuolating hashes for all possible passwords. Sooner or later you may find that hash('dog') = ABCDEF, so you know their password. This takes a very long time, but the process can be speeded up by using pre-created 'dictionaries' where, for a given hash you can look up the corresponding password. Salting, however means that the text that is hashed isnt a simple english word, or a simple combinationofwords. For example, the case I gave above, the text that would be hashed is not 'dog', but is 'somecrazymadeuptextdog'. This means that any readily available dictionary is useless, since the likelyhood of it containing the hash for that text is a lot less than the likelihood of it containing the hash for 'dog' This likelihood becomes even lower if the salt is a random alphanumeric string.
The site admin may not be the only person who gets access to your password. There is always the possibility of a dump of the whole database ending up on a public share by accident. In that case, everybody in the world who has internet access could download it and read the password which was so conveniently stored in cleartext.
Yes, this has happened. With credit card data, too.
Yes, it is highly probable that it will happen again.
"if someone unauthorized got into the database, isn't it too late to worry about passwords?"
You're assuming a poor database design in which the authorization data is comingled with application data.
The "Separation of Concerns" principle and the "Least Access" principle suggest that user credentials should be kept separate from everything else.
For example, keep your user credentials in an LDAP server.
Also, your question assumes that database credentials are the only credentials. Again, the least access principle suggests that you have application credentials which are separate from database credentials.
Your web application username and password is NOT the database username and password. Similarly for a desktop application. The application authentication may not necessarily be the database authentication.
Further, good security suggests that access to usernames and passwords be kept separate from application data. In a large organization with lots of database users, one admin should be "security officer" and handle authentication and authorization. No other users can modify authorization and the security officer is not authorized to access application data.
It's a quick audit to be sure that the security officer never accesses data. It's a little more complex, but another audit can be sure that the folks with data authorization are real people, not aliases for the security officer.
Hashed passwords is one part of a working security policy.
Of course, storing hashes of passwords instead of plain-text does not make your application secure. But it is one measure that increases the security. As you mentioned if your server is comprised this measure won't save you, but it limits the damage.
A chain is only as strong as its weakest link
Hashing passwords is only strengthening one link of the chain. So you will have to do more than that.
In addition to what has already been said regarding salting, there's another problem salting solves :
If you use the same salt everywhere (or no salt at all), it's possible to say just by looking at the database that user foo and user bar both have the same password (even if you don't know what the password is).
Then, if one achieve to get foo's password (using social engineering for example), bar's password is known as well.
Also, if the salt is everywhere the same, one can build up a dictionary dedicated to this specific salt, and then run a brute-force attack using this 'salted' dictionary.
This may be a bit off topic, but once in a while, I notice some websites are not using hashing (for example, when I click the forgot password button, they send me my password in cleartext instead of allowing me to chose another one).
I usually just unsubscribe, because I don't think I can trust a website designed by people not taking the elementary precaution of hashing passwords.
That's one more reason for salting:)
People seem far too complacent about this! The threat isn't some guy with shell access to your system or to the backup media, it could be any script kiddie who can see the unprotected (but dynamic) part of your site(*) and a single overlooked SQL injection threat. One query and suddenly he can log in as any user, or even as an admin. Hashing the passwords make it far less likely that the attacker can log in as any particular user using their password -or- update a record with their own password.
(*) "unprotected" includes any part of the site that can be accessed as a self-registered user. Contrast this to a bank site, for instance, where you must have an existing bank account to gain access to much of the site. An attacker could still open a bank account to gain access to the site, but it would be far easier to send big guys with bigger guns after him when he tries to crack the system.

Resources