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Given two classes:

First class performs AES encryption / decryption and returns encrypted / decrypted data given a certain key and chain.

Second class gathers data to be encrypted and then passes it to the encryption / decryption class.

Is it proper design to call directly the encryption class from the class that gathers the data or should there be an object between the two classes which abstracts the process further? Should I have one abstract class instance and one encryption instance to handle all of these types of requests during the program's lifetime?

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This is hard to answer without knowing how the data's being used or what some of the rest of your design looks like. It might be appropriate, e.g., to have a pair of decorators (one for encryption, one for decryption) that wraps your data source and calls out to the AES codec when someone attempts to use the data. Or it might be appropriate (for now) to just have a concrete data-provider that uses the AES codec directly (i.e., the simplest possible solution that works). Without more details, though, it's extremely hard to tell good ideas from bad. – pkh Jun 23 '10 at 18:17

2 Answers 2

up vote 3 down vote accepted

Personally, I would create some kind of abstract interface representing an encryption algorithm, with a factory function taking the key and producing a concrete instance of an encryption algorithm with a key installed. So the 'second class' here would call directly to the 'first class', but there would be a 'third class' in charge of instantiating the class. Something like:

/* Core encryption framework definitions */
class CipherInstance {
  // ...
    virtual void encrypt(void *, size_t) = 0;
    virtual void decrypt(void *, size_t) = 0;
    virtual size_t blocksize() const = 0;
// ...
    virtual ~CipherInstance() { }

class Cipher {
    virtual CipherInstance *instantiate(const void *key, size_t keylen) = 0;
    virtual size_t minkeysize() const = 0;
    virtual size_t maxkeysize() const = 0;

/* AES implementation */
class privateAESImpl : public Cipher { /* ... */ };
// This is the only public definition in the AES implementation. The privateAESImpl
// class is a stateless singleton, and this is the only instance. Doing this instead
// of static functions allows AES to be passed to a function taking a Cipher * 
extern privateAESImpl AES;

// Much later:
  CipherInstance *aes = AES.instantiate(key, keylen);
  aes->encrypt(data, datalen);
// or, to be more general:
void frob(Cipher *cipher, void *key, size_t keylen, void *data, size_t datalen) {
    CipherInstance *inst = cipher->instantiate(key, keylen);
    inst->encrypt(data, datalen);

C#'s System.Security.Cryptography libraries use a similar approach - see, eg, System.Security.Cryptography.SymmetricAlgorithm. Note however that since C# supports introspection, there's no need for a factory class - instead there's simply a static method taking a name. With C++ a full factory class is needed.

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I'm going to try and implement this and come back if I have questions (i.e. can't get it to work) – user195488 Jun 23 '10 at 18:19

I would call the encryption object directly, but through an interface. The actual encryption object to invoke would be given during runtime by whatever class is controlling the program.

You'll have to excuse me, my C++ is rusty...

// Interface for encryption.
class Encryptor
        virtual byte* encrypt(byte* data) = 0;

// Gathering class
class Gatherer
        Encryptor* encryptor;
        Gatherer(Encryptor* encryptor)
            this->encryptor = encryptor;

        void doStuff()
            // Do stuff

            // Call encryption on gathered data
            byte* encryptedData = encryptor->encrypt(data);

            // Do more stuff with encrypted data.

    Encryptor* encryptor = new AESEncryptor(ENCRYPTION_KEY);
    Gatherer gatherer = new Gatherer(encryptor);
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