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I'm trying to write an encryption/decryption routine in C# & I would like the key & salt to be configurable in that it can either come from a variety of different storage areas, e.g. web.config, db, file, etc... so it must be flexible and extendable.

In order to call the encryption class I would like to expose it so that the key & salt aren't required as method parameters in order to encrypt or decrypt, e.g. I would just pass in the plain text or cipher text. Anyone using the class shouldn't be able to determine the location of the key or salt.

I'm thinking that a factory pattern may help, but can't quite envisage how this would be constructed. Anyone?

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The "keep it simple pattern" is my first choice. – user166390 Mar 24 '11 at 20:16

4 Answers 4

Based on your restrictions, it sounds like you should define an interface that supplies the key and salt, then pass an object implementing that interface to the encryption class or methods when used.

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John, I'm not sure how this would not expose the key & salt when wanting to encrypt as you would need to pass in the object implementing the key/salt interface? – StuffandBlah Mar 24 '11 at 20:24
Only if someone were decompiling and reverse-engineering your code would they be able to figure this out. If you have sensitive code, an obfuscator would make this as hard as you can reasonably expect it to be. – John Fisher Mar 25 '11 at 2:53

You could just have your factory class retrieve the salt/key from where ever it is configured to use, and then inject it into every instance of your encryption class that is retrieved from the factory class. This way the consumer of the encryption class doesn't know where the salt/key came from. The problem with this is that you would be reusing your salt, and you are defeating the purpose of salting your hash. You need to generate unique salts for your hashes.

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Salts should be unique per encrypted object (that is, if you have N passwords, you should have N salts, salts don't necessarily have to be unique although they should be reasonably unique). Sharing salts between multiple objects defeats the purpose of a salt (which is to increase the time complexity of cracking passwords when your database gets stolen).

As far as a design goes, you could have a key provider and salt generator interface, and then implement various providers/generators for the various sources you would like to use. Then you simply need to provide a means for them to designate which provider they would like to use ChunkyMonkey.KeyProvider = new WebKeyProvider(uri); then a call to your class would look something like ChunkyMonkey.Encrypt(stuff);.

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So, I take it that I need to use a Provider pattern for the retreiving the Key? – StuffandBlah Mar 24 '11 at 21:08

A factory pattern sounds fine. First create an interface that exposes the encrypt/decrypt methods, then let a class generate an instance that implements this interface. Don't directly use a class from which you can retrieve the key, because that would of course negate the security (the user could simply cast it back).

Now you should use a random number generator that creates a salt each time the encrypt function is called. The salt could be returned separately from the ciphertext, but you need to store it with the ciphertext. If the original key is actually a password, you should use PBKDF2 or similar to create the key using the salt and key. Otherwise you may use a salt and secure hash method.

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