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Possible Duplicate:
PHP 2-way encryption: I need to store passwords that can be retrieved

I know that the best practice for storing user passwords is to store only an irreversible hash of the password.

However, I am developing an application where I will need to store a user's login information for another web service -- I'll need to periodically log them in and perform some maintenance tasks. Unfortunately, the service doesn't offer authorization tokens so I (very apprehensively) have to store the passwords in a way that I can access their plain-text values. I don't own or control the service to which I am authenticating, and the only method is to 'borrow' a users username and password and authenticate.

I am planning to AES_ENCRYPT the passwords in the DB, which means that if somebody is somehow able to access the DB they won't be able to get the plaintext. However my code will need to have access to the key to unencrypt them, thus if the entire server is compromised this is no protection and the passwords will be revealed.

Aside from the above-described encryption, are there any best practices or steps I can take to do this as safely as possible?

EDIT

I know that whatever I do, ultimately the passwords must be accessible in plaintext and so a compromised server means the passwords will be revealed, but I am wondering what steps I can do to mitigate my risk. E.G. encrypting the DB protects me in the situation where the DB is compromised but not the entire server. Other similar mitigating steps would be much appreciated.

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    Wow... That's a very unfortunate situation! – corsiKa Feb 24 '11 at 2:58
  • What OS? On Windows there are recommended APIs for storing sensitive data. – Samuel Neff Feb 24 '11 at 3:00
  • going to be stored in a mysql database, running on a CentOS server, code is python, ideally would like something only dependent on python/mysql not OS. – Jesse Cohen Feb 24 '11 at 3:03
  • possible duplicate of PHP 2-way encryption: I need to store passwords that can be retrieved - This has been discussed several times on this site. Please search. If you have questions above what was discussed, please mention that. But this question in general has been covered many times... – ircmaxell Feb 24 '11 at 13:39
  • I don't understand why people are voting to close this, it's not a duplicate of the mentioned question, its a lot more specific and targeted, and I need to access the passwords when the users aren't there so I can't just give each user a private key. Furthermore, judging by the number of upvotes and favorites there are multiple people interested in the answer to this question, so I disagree with @ircmaxwell's contention that this answer is available or has been widely covered. – Jesse Cohen Feb 24 '11 at 18:03
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However, I am developing an application where I will need to store a user's login information for another web service -- I'll need to periodically log them in and perform some maintenance tasks.

OK... I read through the answers and the comments, and about all I can say is I hope you have crack legal team. It sounds to me like the service you are offering is predicated on user trust. It's good that it's a user-controlled switch, and not something being helpfully done behind their backs, but I think you want a really iron clad service agreement on this.

That said, there's a lot of security paranoia you can invoke. You'll have to figure out how much you want to go through based on the harm to your product, your company and users if a break in occurs. Here's thoughts:

  • Data storage - store the passwords far away from where an attacker can get in. Highly access controlled files, a database on a back end machine, etc. Make any attacker have go to through layers of defense just to get to the place the data is stored. Similarly have network protection like firewalls and up to date security patches. No one thing works in isolation here.
  • Encryption - any encryption technique is a delaying tactic - one the attacker has your data, they will eventually crack your encryption given an infinite amount of time. So mostly you're aiming to slow them down long enough for the rest of the system to discover you've been hacked, alert your users, and give the users time to change passwords or disable accounts. IMO - either symmetric or assymetric cryptography will work - so long as you store the key securely. Being a PKI person myself, I'd lean towards assymmetric crypto just because I understand it better and know of a number of COTS hardware solutions that make it possible to store my private key extremely securely.
  • Key storage - your encryption is only as good as your key storage. If the key is sitting right next to the encrypted data, then it stands to reason that the attacker doesn't need to break your crypto, they just use the key. HSM (hardware security modules) are the high end choice for key storage - at the upper ranges these are secure boxes that are tamper proof which both hold your keys and perform crypto for you. At the low end, a USB token or Smart Card could perform the same function. A critical part of this is that ultimately, it's best if you make an admin activate key access on server startup. Otherwise, you end up with a chicken and egg scenario as you try to figure out how to securely store the ultimate password.
  • Intrusion detection - have a good system in place that has a good chance of raising alarms if you should get hacked. If your password data is compromised, you want to get the word to your users well ahead of any threat.
  • Audit logging - have really good records of who did what on the system - particularly in the vicinity of your passwords. While you could create a pretty awesome system, the threat of privileged users doing something bad (or dumb) is just as bad as external threats. The typical high end auditing systems track high privilege user behavior in a way that can't be viewed or tampered with by the high privilege user - instead, there's a second "auditor" account that deals only with audit logs and nothing else.

This is a highlight of the high points of system security. My general point is - if you are serious about protecting user passwords, you can't afford to just think about the data. Just encrypting the passwords is not likely to be enough to really protect users and safeguard trust.

The standard way to approach this is to consider the cost of explotation vs. the cost of protection. If both costs are too high for the value of the feature, then you have a good indication that you shouldn't bother doing it...

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  • thanks, this is a very comprehensive answer with a lot of good points and ideas. – Jesse Cohen Feb 24 '11 at 18:05
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As you said, your code will eventually need the key and so if the server is compromised, so will be the passwords. There is no way around it.

What you can do is have a very minimal proxy whose only job will be to have the passwords, listen to the requests from your main application, connect to the service in question, and return the response to your application. If that very simple proxy is all that is running on a server then it will be much less likely to be compromised than a complicated application running on a server with many services.

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  • I like the idea of setting up a proxy server that only has one purpose, much lower chance of it being compromised than if I keep it on the main machine that's also running my webserver and various other network services. – Jesse Cohen Feb 24 '11 at 12:15

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