/* * DLIES * (C) 1999-2007 Jack Lloyd * * Botan is released under the Simplified BSD License (see license.txt) */ #include namespace Botan { /* * DLIES_Encryptor Constructor */ DLIES_Encryptor::DLIES_Encryptor(const PK_Key_Agreement_Key& key, KDF* kdf_obj, MessageAuthenticationCode* mac_obj, size_t mac_kl) : ka(key, "Raw"), kdf(kdf_obj), mac(mac_obj), mac_keylen(mac_kl) { my_key = key.public_value(); } /* * DLIES Encryption */ std::vector DLIES_Encryptor::enc(const byte in[], size_t length, RandomNumberGenerator&) const { if(length > maximum_input_size()) throw Invalid_Argument("DLIES: Plaintext too large"); if(other_key.empty()) throw Invalid_State("DLIES: The other key was never set"); secure_vector out(my_key.size() + length + mac->output_length()); buffer_insert(out, 0, my_key); buffer_insert(out, my_key.size(), in, length); secure_vector vz(my_key.begin(), my_key.end()); vz += ka.derive_key(0, other_key).bits_of(); const size_t K_LENGTH = length + mac_keylen; secure_vector K = kdf->derive_key(K_LENGTH, vz); if(K.size() != K_LENGTH) throw Encoding_Error("DLIES: KDF did not provide sufficient output"); byte* C = &out[my_key.size()]; mac->set_key(K.data(), mac_keylen); xor_buf(C, &K[mac_keylen], length); mac->update(C, length); for(size_t j = 0; j != 8; ++j) mac->update(0); mac->final(C + length); return unlock(out); } /* * Set the other parties public key */ void DLIES_Encryptor::set_other_key(const std::vector& ok) { other_key = ok; } /* * Return the max size, in bytes, of a message */ size_t DLIES_Encryptor::maximum_input_size() const { return 32; } /* * DLIES_Decryptor Constructor */ DLIES_Decryptor::DLIES_Decryptor(const PK_Key_Agreement_Key& key, KDF* kdf_obj, MessageAuthenticationCode* mac_obj, size_t mac_kl) : ka(key, "Raw"), kdf(kdf_obj), mac(mac_obj), mac_keylen(mac_kl) { my_key = key.public_value(); } /* * DLIES Decryption */ secure_vector DLIES_Decryptor::dec(const byte msg[], size_t length) const { if(length < my_key.size() + mac->output_length()) throw Decoding_Error("DLIES decryption: ciphertext is too short"); const size_t CIPHER_LEN = length - my_key.size() - mac->output_length(); std::vector v(msg, msg + my_key.size()); secure_vector C(msg + my_key.size(), msg + my_key.size() + CIPHER_LEN); secure_vector T(msg + my_key.size() + CIPHER_LEN, msg + my_key.size() + CIPHER_LEN + mac->output_length()); secure_vector vz(msg, msg + my_key.size()); vz += ka.derive_key(0, v).bits_of(); const size_t K_LENGTH = C.size() + mac_keylen; secure_vector K = kdf->derive_key(K_LENGTH, vz); if(K.size() != K_LENGTH) throw Encoding_Error("DLIES: KDF did not provide sufficient output"); mac->set_key(K.data(), mac_keylen); mac->update(C); for(size_t j = 0; j != 8; ++j) mac->update(0); secure_vector T2 = mac->final(); if(T != T2) throw Decoding_Error("DLIES: message authentication failed"); xor_buf(C, K.data() + mac_keylen, C.size()); return C; } }