コード例 #1
0
ファイル: ecies.py プロジェクト: OnyxPayDev/SmartContractDemo
 def decrypt_with_gcm_mode(nonce: bytes, mac_tag: bytes, cipher_text: bytes,
                           private_key: bytes, hdr: bytes,
                           encode_g_tilde: bytes):
     if not isinstance(private_key, bytes):
         raise SDKException(
             ErrorCode.other_error(
                 'the length of private key should be 32 bytes.'))
     if len(private_key) != 32:
         raise SDKException(
             ErrorCode.other_error(
                 'the length of private key should be 32 bytes.'))
     str_g_tilde_x = encode_g_tilde[1:33]
     str_g_tilde_y = encode_g_tilde[33:65]
     g_tilde_x = string_to_number(str_g_tilde_x)
     g_tilde_y = string_to_number(str_g_tilde_y)
     g_tilde = Point(NIST256p.curve, g_tilde_x, g_tilde_y, NIST256p.order)
     h_tilde = g_tilde * SigningKey.from_string(
         string=private_key, curve=NIST256p).privkey.secret_multiplier
     seed = b''.join(
         [encode_g_tilde,
          number_to_string(h_tilde.x(), NIST256p.order)])
     aes_key = pbkdf2(seed, 32)
     plain_text = AESHandler.aes_gcm_decrypt(cipher_text, hdr, nonce,
                                             mac_tag, aes_key)
     return plain_text
コード例 #2
0
ファイル: ecies.py プロジェクト: OnyxPayDev/SmartContractDemo
 def encrypt_with_cbc_mode(plain_text: bytes,
                           public_key: bytes,
                           iv: bytes = b'') -> (bytes, bytes, bytes):
     if not isinstance(public_key, bytes):
         raise SDKException(
             ErrorCode.other_error(
                 'the type of public key should be bytes.'))
     if len(public_key) != 33:
         raise SDKException(
             ErrorCode.other_error(
                 'the length of public key should be 33 bytes.'))
     if not (public_key.startswith(b'\x02')
             or public_key.startswith(b'\x03')):
         raise SDKException(ErrorCode.other_error('Invalid public key.'))
     public_key = ECIES.__uncompress_public_key(public_key)
     r = randint(1, NIST256p.order)
     g_tilde = r * NIST256p.generator
     h_tilde = r * VerifyingKey.from_string(string=public_key,
                                            curve=NIST256p).pubkey.point
     str_g_tilde_x = number_to_string(g_tilde.x(), NIST256p.order)
     str_g_tilde_y = number_to_string(g_tilde.y(), NIST256p.order)
     encode_g_tilde = b''.join([b'\x04', str_g_tilde_x, str_g_tilde_y])
     str_h_tilde_x = number_to_string(h_tilde.x(), NIST256p.order)
     seed = b''.join([encode_g_tilde, str_h_tilde_x])
     aes_key = pbkdf2(seed, 32)
     aes_iv, cipher_text = AESHandler.aes_cbc_encrypt(
         plain_text, aes_key, iv)
     return aes_iv, encode_g_tilde, cipher_text
コード例 #3
0
 def generate_decrypt_aes_key(private_key: bytes, encode_g_tilde: bytes):
     if not isinstance(private_key, bytes):
         raise SDKException(ErrorCode.other_error('the length of private key should be 32 bytes.'))
     if len(private_key) != 32:
         raise SDKException(ErrorCode.other_error('the length of private key should be 32 bytes.'))
     str_g_tilde_x = encode_g_tilde[1:33]
     str_g_tilde_y = encode_g_tilde[33:65]
     g_tilde_x = string_to_number(str_g_tilde_x)
     g_tilde_y = string_to_number(str_g_tilde_y)
     g_tilde = Point(NIST256p.curve, g_tilde_x, g_tilde_y, NIST256p.order)
     h_tilde = g_tilde * SigningKey.from_string(string=private_key, curve=NIST256p).privkey.secret_multiplier
     seed = b''.join([encode_g_tilde, number_to_string(h_tilde.x(), NIST256p.order)])
     aes_key = pbkdf2(seed, 32)
     return aes_key