#include #include #include #include #include #include #include using namespace Botan; /** Encrypt and decrypt small rows */ class Row_Encryptor { public: Row_Encryptor(const std::string& passphrase, RandomNumberGenerator& rng); std::string encrypt(const std::string& input, const MemoryRegion& salt); std::string decrypt(const std::string& input, const MemoryRegion& salt); private: Row_Encryptor(const Row_Encryptor&) {} Row_Encryptor& operator=(const Row_Encryptor&) { return (*this); } Pipe enc_pipe, dec_pipe; EAX_Encryption* eax_enc; // owned by enc_pipe EAX_Decryption* eax_dec; // owned by dec_pipe; }; Row_Encryptor::Row_Encryptor(const std::string& passphrase, RandomNumberGenerator& rng) { std::auto_ptr s2k(get_s2k("PBKDF2(SHA-160)")); s2k->set_iterations(10000); s2k->new_random_salt(rng, 10); // 10 bytes == 80 bits SecureVector key = s2k->derive_key(32, passphrase).bits_of(); /* Save pointers to the EAX objects so we can change the IV as needed */ enc_pipe.append(eax_enc = new EAX_Encryption("Serpent")); dec_pipe.append(eax_dec = new EAX_Decryption("Serpent")); eax_enc->set_key(key); eax_dec->set_key(key); } std::string Row_Encryptor::encrypt(const std::string& input, const MemoryRegion& salt) { eax_enc->set_iv(salt); enc_pipe.start_msg(); enc_pipe.write(input); enc_pipe.end_msg(); return enc_pipe.read_all_as_string(Pipe::LAST_MESSAGE); } std::string Row_Encryptor::decrypt(const std::string& input, const MemoryRegion& salt) { eax_dec->set_iv(salt); dec_pipe.start_msg(); dec_pipe.write(input); dec_pipe.end_msg(); return dec_pipe.read_all_as_string(Pipe::LAST_MESSAGE); } /************************* Test code follows: */ #include int main() { LibraryInitializer init; std::auto_ptr rng(RandomNumberGenerator::make_rng()); Row_Encryptor encryptor("secret passphrase", *rng); std::vector original_inputs; for(u32bit i = 0; i != 15000; ++i) { std::ostringstream out; // This will actually generate variable length inputs (when // there are leading 0s, which are skipped), which is good // since it assures performance is OK across a mix of lengths // TODO: Maybe randomize the length slightly? for(u32bit j = 0; j != 32; ++j) out << std::hex << (int)rng->next_byte(); original_inputs.push_back(out.str()); } std::vector encrypted_values; MemoryVector salt(4); // keep out of loop to avoid excessive dynamic allocation for(u32bit i = 0; i != original_inputs.size(); ++i) { std::string input = original_inputs[i]; store_le(i, salt); encrypted_values.push_back(encryptor.encrypt(input, salt)); } for(u32bit i = 0; i != encrypted_values.size(); ++i) { std::string ciphertext = encrypted_values[i]; store_le(i, salt); // NOTE: same salt value as previous loop (index value) std::string output = encryptor.decrypt(ciphertext, salt); if(output != original_inputs[i]) std::cout << "BOOM " << i << "\n"; } }