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Many users – myself included – would like the security of having everything they do on a web service encrypted. That is, they don't won't any one at the web service to be able to look at their: posts, info, tasks, etc...

This is also major complaint in this discussion of an otherwise cool service: http://news.ycombinator.com/item?id=1549115

Since this data needs to be recoverable, some sort of two-way encryption is required. But unless you're prompting the user for the encryption key on every request, this key will need to be stored on the server, and the point of encrypting the data is basically lost.

What is a way to securely encrypt user data without degrading the user experience (asking for some key on every request)?

-- UPDATE --

From @Borealid's answer, I've focused on two possibilities: challenge-response protocols, where no data (password included) is sent in the "clear", and non-challenge-response protocols, where data (password included) is sent in the "clear" (although over HTTPS).

Challenge-response protocols (specifically SRP: http://srp.stanford.edu/)

It seems that its implementation would need to rely on either a fully AJAX site or using web storage. This is so the browser can persist the challenge-response data during encryption and also the encryption key between different "pages". (I'm assuming after authentication is completed I would send them back the encrypted encryption key, which they would decrypt client-side to obtain the real encryption key.)

The problem is that I'm either:

  • fully AJAX, which I don't like because I love urls and don't won't a user to live exclusively on a single url, or
  • I have to store data encryption keys in web storage, which based on http://dev.w3.org/html5/webstorage/ will persist even after the browser is closed and could be a security vulnerability

In addition, as SRP takes more than one request ( http://srp.stanford.edu/design.html ), there needs to be some persistence on the server-side. This is just another difficulty.

Traditionally

If I'm ok transmitting passwords and data in the clear (although over HTTPS), then the client-side issues above are not present.

On registration, I'll generate a random unique encryption key for the user, and encrypt it using their password and a random salt.

In the database, I'll store the user's password hash and salt (through bcrypt), encrypted encryption key, encryption key salt, and encryption iv.

After an authentication, I'll also need to use their password to decrypt the encryption key so that they may view and enter new data. I store this encryption key only temporarily and delete it when they explicitly "log out".

The problems with this approach is that (like @Borealid points out) evil sysadmins can still look at your data when you are logged in.

I'm also not sure how to store the encryption keys when users are logged in. If they are in the same data store, a stolen database would reveal all data of those who were logged in at the time of theft.

Is there a better in-memory data store for storing these encryption keys (and challenge data during an SRP authentication)? Is this something Redis would be good for?

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nicely phrased question. –  GregS Jul 27 '10 at 11:19
    
@ballgame curious to know what kind of solution you used to accomplish this, it would be good if you can share it? Thanks. –  RakeshS Aug 29 '11 at 9:05
    
In the general case, this is impossible - services need to do many things with user data, most of which can't be done if it's encrypted, and can't be done (or can't be done efficiently) by sending the data to the client and having it do the work. If you have a specific type of app in mind - and you seem to - can you tell us what it is so we don't have to guess? –  Nick Johnson Aug 30 '11 at 5:54
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4 Answers

If the data need to be recoverable in the event of user error, you can't use something like a cookie (which could get deleted). And as you point out, server-side keys don't actually secure the user against malicious sysadmins; they only help with things like databases stolen offline.

However, if you're running a normal web service, you've already gotten pretty lucky - the user, in order to be unique and non-ephemeral, must be logged in. This means they go through some authentication step which proves their identity. In order to prove their identity, most web sites use a passed credential (a password).

So long as you don't use a challenge-response authentication protocol, which most web sites don't, you can use an encryption key derived from a combination of a server-side secret and the user's password. Store the encryption key only while the user is authenticated.

If you do this, the users are still vulnerable to sysadmins peeking while they're using the service (or stealing their passwords). You might want to go a step further. To go one up, don't send the password to the server at all. Instead, use a challenge-response protocol for authentication to your website, and encrypt the data with a derivative of the user's password via JavaScript before uploading anything.

This is foolproof security: if you try to steal the user's password, the user can see what you're doing because the code for the theft is right there in the page you sent them. Your web service never touches their data unencrypted. This is also no hindrance to the normal user experience. The user just enters their password to log in, as per normal.

This method is what is used by Lacie's storage cloud service. It's very well done.

Note: when I say "use foo to encrypt", I really mean "use foo to encrypt a secure symmetric key which is then used with a random salt to encrypt". Know your cryptography. I'm only talking about the secret, not the methodology.

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Thanks for the detailed response. My initial idea was to create an encryption key based on the user's password and a site key during their login and store that key in the user's browser session. This way the data could only be saved (encrypted) or read (decrypted) when the user was actually logged in (or if you knew their password, I suppose). The problem is when the user changes their password. Depending on the size of data, decrypting and then re-encrypting all of the user's data might be a large task. But not impossible. –  ballgame Jul 27 '10 at 0:31
    
Also, do you have any further resources on "challenge-response authentication protocols"? How is this different from: I visit a url, the site asks for a password, I provide a password, I'm granted url access? –  ballgame Jul 27 '10 at 0:32
    
@ballgame A few notes. 1. You can't use a session key for encryption if you want the data to outlast the session. 2. You don't use the user's password directly - you use it to encrypt the real, random key. When they change their password just reencrypt the key. If they lose their password they lose their data. 3. A challenge-response protocol is very different from a usual password request because the password isn't sent to the web site; instead proof of possession of the password is sent. So the site knows you have the password, but doesn't know what it is. –  Borealid Jul 27 '10 at 0:47
    
Thanks for the response. I've been researching challenge-response protocols, specifically SRP, and have posted an update to my question. –  ballgame Jul 30 '10 at 20:47
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If you want to perform computations on a server without even the server being able to see the data, you may be interested in knowing about fully homomorphic encryption. A fully homomorphic encryption scheme lets you perform arbitrary computations on encrypted data, even if you can't decrypt it. However, this is still a topic of research.

For now, I guess your best bet would be to encrypt all posts and assign meaningless (e.g. sequential) IDs to each one. For a more in-depth discussion of how to encrypt server-side data with today's technology, look up.

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You keep using this word. I do not think it means what you think it means. Homomorphic encryption does not allow a server to do arbitrary things to data without decrypting it. Some operations may be possible in some schemes, but the server cannot and will not ever be able to do things like deciding whether a user is an admin, or stripping HTML from their comments, or even sending them an email without decrypting the data. I'd also like to point out that only random IDs are "meaningless" - sequential ones are not secure. P.S. thanks for the call-out :-). –  Borealid Jul 27 '10 at 0:52
    
From the Wikipedia article: " A cryptosystem which supports both addition and multiplication (thereby preserving the ring structure of the plaintexts) is known as fully homomorphic encryption" - so as @borealid says, this doesn't allow any of the useful operations you might want to carry out on the data. –  Nick Johnson Aug 30 '11 at 5:55
    
@Nick Johnson: From the introduction of Gentry's paper (emphasis his): "What can one do with an encryption scheme that is fully homomorphic ... one can arbitrarily compute on encrypted data." This strongly suggests that multiplication and addition in a ring are sufficient for Turing-complete computations, but I don't see "Turing" anywhere in the paper, nor do I understand the math behind it. –  Joey Adams Aug 30 '11 at 12:36
    
@Joey They're not - you can't do, for example, string ops on a string that's represented entirely as one number. If you could, you'd be able to determine what the encrypted text was by attempting to match it against various regular expressions (as one example), or by matching each character against each possible one, in a brute-force fashion. –  Nick Johnson Aug 30 '11 at 22:41
    
@Nick Johnson: Interesting. However, won't the result of your attempt to regex match also be encrypted? –  Joey Adams Aug 31 '11 at 0:51
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None of those other solutions are going to maintain the feature set requested -- which specifically wants to preserve the user experience. If you look at the site referenced in the link, they email you a nightly past journal entry. You're not going to get that with JavaScript trickery per above because you don't have the browser to depend on. So basically this is all leading you down a path to a degraded user experience.

What you would want, or more precisely the best solution you're going to find in this space, is not so much what wuala does per above, but rather something like hush.com. The handling of user data needs to be done on the client side at all times -- this is generally accomplished via full client-side Java (like the Facebook photo uploader, etc), but HTML/JavaScript might get you there these days. JavaScript encryption is pretty poor, so you may be better off ignoring it.

OK, so now you've got client-side Java running a Journal entry encryption service. The next feature was to email past journal entries to users every night. Well, you're not going to get that in an unencrypted email obviously. This is where you're going to need to change the user experience one way or the other. The simplest solution is not to email the entry and instead to provide for instance a journal entry browser in the Java app that reminds them of some old entry once they get to the website based on a link in the daily email. A much more complex solution would be to use JavaScript encryption to decrypt the entry as an attachment inline in the email. This isn't rocket science but there is a fairly huge amount of trickery involved. This is the general path used by several web email encryption services such as IronPort. You can get a demo email by going to http://www.ironport.com/securedemo/.

As much as I'd love to see a properly encrypted version of all this, my final comment would be that journal entries are not state secrets. Given a solid privacy policy and good site security semantics, I'm sure 99% of your users will feel just fine about things. Doing all this right with true security will take an enormous amount of effort per above and at least some design/UE changes.

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thanks for the response. Fortunately, I don't have the issue of decrypting anything when the user is not actively using the service (as with the past emails). I've also updated my question if you're interested :) –  ballgame Jul 30 '10 at 20:54
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You should look into the MIT project CryptDB which supports querying an encrypted database using a subset of SQL. (see the forbes article, mefi thread, or Homomorphic encryption on wikipedia)

There is the Tahoe-LAFS project for cloud storage too, which conceivably could be leveraged into a fully anonymous social networking application, one day in the distant future.

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