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I need to encrypt content in my web application on a per-user basis.

I, the root user, do not want to have access to users' content, period.

How can I make it so users are the only ones with access to their content? Perhaps I can make it so a hash of their login password acts as an encryption and decryption key (then their password is stored one-way hashed in my database, and the encryption/decryption hash is generated from their raw password on login and stored in a local cookie)? But what if they change their password? Then I have to update all their content which could take a lot of processing power.

Is there an encryption method that would provide this, without having to re-encrypt their content if their password changes? Something similar to ecryptfs on Linux, perhaps? Is researching ecryptfs a good place to start?

Is making it so only the user can access their content on my servers (and not even me) even feasible?

share|improve this question
I wonder how hushmail.com does this. – Dan Andrews Oct 7 '11 at 16:57
Here's a white paper on their encrpytion: hushmail.com/public_documents/… – Chad Johnson Oct 7 '11 at 17:00
From an email response from Hushmail: Our system is designed in such a way that only with your passphrase can encrypted email in your account be decrypted. The passphrase itself is stored in an encrypted hash so even our staff cannot see it. This means if your mail is encrypted we are unable to read it. – Chad Johnson Oct 7 '11 at 23:00
up vote 9 down vote accepted


  1. Generate a random secret to encrypt their content.
  2. Using their provided password encrypt the random secret from #1.
  3. Store their password as a one-way hash (with salt, maybe multi-hash).

Upon Password change:

  1. Re-generate the value from step #2.
  2. Re-generate the hash-cache from step #3.

Upon Login:

  1. Hash password and check against hash generated in step #3.
  2. If password matches - use actual provided password to decrypt random secret from #2.
  3. Use random secret from #2 to unlock data encrypted in #1.


  • No one can decode the data without knowing the random secret (#1). Random secret can only be unlocked with user's actual password (#2) (short of brute-force). User's actual password is only known in one-way hashed form (#3) so you can confirm it's the same, but cannot decode it and recover #2.
  • A forgotten password process is not possible (you can regenerate #3, but random key in #2 is now lost as is everything locked in their vault).
  • You don't have to re-encrypt everything in step #1 every time they change their password, only the (simple/quick) random secret from #2.
  • If you cache their provided password, or the random secret generated at step 1, or their (decrypted) content anywhere you could cause data leaks.
share|improve this answer
You generated it, but as long as you don't store it - no. The only way to figure it out is to have their password to decode the encrypted form from #2. Or through brute force ;) You could use a hash from of their password at this step but you cannot use the hashed form you store (otherwise yes- you can decode it without knowing their password) – Rudu Oct 7 '11 at 17:07
Sorry, I removed my comment because I asked a question I could have answered had I read your post more closely. I like your idea. – Chad Johnson Oct 7 '11 at 17:08
Isn't it possible to generate the random secret client side? This way you really ensure you don't even see the secret – Jose Antonio Oct 7 '11 at 17:11
You could generate it, but it'll have to be passed to the server to setup the container, and known to the server every time someone wants to access the container - so the server will still know it sometimes (no improved security). Additionally depending on the passing mechanism you add the risk of the random secret being learned by other internet dwellers (not over secure enough TLS, man-in-the middle, etc) during the generation stage. – Rudu Oct 7 '11 at 17:14
@Rudu: Good point. – Jose Antonio Oct 7 '11 at 17:19

You're spot on that you need to use their password as a key.

I wouldn't monkey with ecryptfs because an encrypted file system isn't the best solution. You wouldn't want one user's data to be encrypted with the same key that another user used.

When you encrypt the data, you should generate a random string to use as salt. This prevents someone from using a pre-generated list of hashes to decrypt your data. It also changes the hash of two people who might use the same password.

When a user changes their password, you'll have to re-encrypt the data and generate a new salt value. This is the level of security I would expect as a customer, knowing that when I change my password, I'm re-encrypting all of my data to prevent someone from trying to brute force my key.

You can store the salt value in your database unencrypted.

share|improve this answer
With eCryptfs, each user's data could be encrypted with their own keys. – Dustin Kirkland Mar 2 '12 at 5:19

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