from .ecc import * from .exception import PiicoError class BaseMixin: def __init__(self): self._driver = None self._session = None class SM2Mixin(BaseMixin): def ecc_encrypt(self, public_key, plain_text, alg_id): pos = 1 k1 = bytes([0] * 32) + bytes(public_key[pos:pos + 32]) k1 = (c_ubyte * len(k1))(*k1) pos += 32 k2 = bytes([0] * 32) + bytes(public_key[pos:pos + 32]) pk = ECCrefPublicKey(c_uint(0x40), (c_ubyte * len(k1))(*k1), (c_ubyte * len(k2))(*k2)) plain_text = (c_ubyte * len(plain_text))(*plain_text) ecc_data = new_ecc_cipher_cla(len(plain_text))() ret = self._driver.SDF_ExternalEncrypt_ECC(self._session, c_int(alg_id), pointer(pk), plain_text, c_int(len(plain_text)), pointer(ecc_data)) if not ret == 0: raise Exception("ecc encrypt failed", ret) return ecc_data.encode() def ecc_decrypt(self, private_key, cipher_text, alg_id): k = bytes([0] * 32) + bytes(private_key[:32]) vk = ECCrefPrivateKey(c_uint(0x40), (c_ubyte * len(k))(*k)) pos = 1 # c1 x = bytes([0] * 32) + bytes(cipher_text[pos:pos + 32]) pos += 32 y = bytes([0] * 32) + bytes(cipher_text[pos:pos + 32]) pos += 32 # c2 c = bytes(cipher_text[pos:-32]) l = len(c) # c3 m = bytes(cipher_text[-32:]) ecc_data = new_ecc_cipher_cla(l)( (c_ubyte * 64)(*x), (c_ubyte * 64)(*y), (c_ubyte * 32)(*m), c_uint(l), (c_ubyte * l)(*c), ) temp_data = (c_ubyte * l)() temp_data_length = c_int() ret = self._driver.SDF_ExternalDecrypt_ECC(self._session, c_int(alg_id), pointer(vk), pointer(ecc_data), temp_data, pointer(temp_data_length)) if not ret == 0: raise Exception("ecc decrypt failed", ret) return bytes(temp_data[:temp_data_length.value]) class SM3Mixin(BaseMixin): def hash_init(self, alg_id): ret = self._driver.SDF_HashInit(self._session, c_int(alg_id), None, None, c_int(0)) if not ret == 0: raise PiicoError("hash init failed,alg id is {}".format(alg_id), ret) def hash_update(self, data): data = (c_ubyte * len(data))(*data) ret = self._driver.SDF_HashUpdate(self._session, data, c_int(len(data))) if not ret == 0: raise PiicoError("hash update failed", ret) def hash_final(self): result_data = (c_ubyte * 32)() result_length = c_int() ret = self._driver.SDF_HashFinal(self._session, result_data, pointer(result_length)) if not ret == 0: raise PiicoError("hash final failed", ret) return bytes(result_data[:result_length.value]) class SM4Mixin(BaseMixin): def import_key(self, key_val): # to c lang key_val = (c_ubyte * len(key_val))(*key_val) key = c_void_p() ret = self._driver.SDF_ImportKey(self._session, key_val, c_int(len(key_val)), pointer(key)) if not ret == 0: raise PiicoError("import key failed", ret) return key def destroy_cipher_key(self, key): ret = self._driver.SDF_DestroyKey(self._session, key) if not ret == 0: raise Exception("destroy key failed") def encrypt(self, plain_text, key, alg, iv=None): return self.__do_cipher_action(plain_text, key, alg, iv, True) def decrypt(self, cipher_text, key, alg, iv=None): return self.__do_cipher_action(cipher_text, key, alg, iv, False) def __do_cipher_action(self, text, key, alg, iv=None, encrypt=True): text = (c_ubyte * len(text))(*text) if iv is not None: iv = (c_ubyte * len(iv))(*iv) temp_data = (c_ubyte * len(text))() temp_data_length = c_int() if encrypt: ret = self._driver.SDF_Encrypt(self._session, key, c_int(alg), iv, text, c_int(len(text)), temp_data, pointer(temp_data_length)) if not ret == 0: raise PiicoError("encrypt failed", ret) else: ret = self._driver.SDF_Decrypt(self._session, key, c_int(alg), iv, text, c_int(len(text)), temp_data, pointer(temp_data_length)) if not ret == 0: raise PiicoError("decrypt failed", ret) return temp_data[:temp_data_length.value]