14768f59c5
OBS-URL: https://build.opensuse.org/package/show/devel:languages:python/python-http-ece?expand=0&rev=6
504 lines
17 KiB
Python
504 lines
17 KiB
Python
import base64
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import json
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import os
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import struct
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import unittest
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from cryptography.hazmat.backends import default_backend
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from cryptography.hazmat.primitives.asymmetric import ec
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from cryptography.hazmat.primitives.serialization import (
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Encoding, PublicFormat
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)
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import http_ece as ece
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from http_ece import ECEException
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TEST_VECTORS = os.path.join(os.sep, "..", "encrypt_data.json")[1:]
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def logmsg(arg):
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"""
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print(arg)
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"""
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return
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def logbuf(msg, buf):
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"""used for debugging test code."""
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if buf is None:
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buf = b''
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logmsg(msg + ': [' + str(len(buf)) + ']')
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for i in list(range(0, len(buf), 48)):
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logmsg(' ' + repr(buf[i:i+48]))
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return
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def b64e(arg):
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if arg is None:
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return None
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return base64.urlsafe_b64encode(arg).decode()
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def b64d(arg):
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if arg is None:
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return None
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return base64.urlsafe_b64decode(str(arg) + '===='[:len(arg) % 4:])
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def make_key():
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return ec.generate_private_key(ec.SECP256R1(), default_backend())
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class TestEce(unittest.TestCase):
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def setUp(self):
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self.private_key = make_key()
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self.dh = self.private_key.public_key().public_bytes(
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Encoding.X962,
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PublicFormat.UncompressedPoint
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)
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self.m_key = os.urandom(16)
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self.m_salt = os.urandom(16)
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def test_derive_key_invalid_mode(self):
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with self.assertRaises(ECEException) as ex:
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ece.derive_key('invalid',
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version='aes128gcm',
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salt=self.m_salt,
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key=self.m_key,
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private_key=self.private_key,
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dh=None,
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auth_secret=None,
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keyid="valid",
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)
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self.assertEqual(ex.exception.message, "unknown 'mode' specified: invalid")
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def test_derive_key_invalid_salt(self):
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with self.assertRaises(ECEException) as ex:
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ece.derive_key('encrypt',
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version='aes128gcm',
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salt=None,
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key=self.m_key,
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private_key=self.private_key,
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dh=None,
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auth_secret=None,
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keyid="valid",
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)
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self.assertEqual(ex.exception.message, "'salt' must be a 16 octet value")
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def test_derive_key_invalid_version(self):
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with self.assertRaises(ECEException) as ex:
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ece.derive_key('encrypt',
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version='invalid',
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salt=self.m_salt,
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key=None,
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private_key=self.private_key,
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dh=None,
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auth_secret=None,
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keyid="valid",
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)
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self.assertEqual(ex.exception.message, "Invalid version")
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def test_derive_key_no_private_key(self):
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with self.assertRaises(ECEException) as ex:
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ece.derive_key('encrypt',
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version='aes128gcm',
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salt=self.m_salt,
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key=None,
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private_key=None,
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dh=self.dh,
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auth_secret=None,
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keyid="valid",
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)
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self.assertEqual(ex.exception.message, "DH requires a private_key")
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def test_derive_key_no_secret(self):
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with self.assertRaises(ECEException) as ex:
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ece.derive_key('encrypt',
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version='aes128gcm',
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salt=self.m_salt,
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key=None,
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private_key=None,
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dh=None,
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auth_secret=None,
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keyid="valid",
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)
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self.assertEqual(ex.exception.message, "unable to determine the secret")
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def test_iv_bad_counter(self):
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with self.assertRaises(ECEException) as ex:
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ece.iv(os.urandom(8), pow(2, 64)+1)
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self.assertEqual(ex.exception.message, "Counter too big")
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class TestEceChecking(unittest.TestCase):
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def setUp(self):
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self.m_key = os.urandom(16)
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self.m_input = os.urandom(5)
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# This header is specific to the padding tests, but can be used
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# elsewhere
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self.m_header = b'\xaa\xd2\x05}3S\xb7\xff7\xbd\xe4*\xe1\xd5\x0f\xda'
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self.m_header += struct.pack('!L', 32) + b'\0'
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def test_encrypt_small_rs(self):
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with self.assertRaises(ECEException) as ex:
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ece.encrypt(
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self.m_input,
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version='aes128gcm',
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key=self.m_key,
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rs=1,
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)
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self.assertEqual(ex.exception.message, "Record size too small")
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def test_decrypt_small_rs(self):
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header = os.urandom(16) + struct.pack('!L', 2) + b'\0'
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with self.assertRaises(ECEException) as ex:
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ece.decrypt(
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header + self.m_input,
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version='aes128gcm',
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key=self.m_key,
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rs=1,
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)
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self.assertEqual(ex.exception.message, "Record size too small")
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def test_encrypt_bad_version(self):
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with self.assertRaises(ECEException) as ex:
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ece.encrypt(
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self.m_input,
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version='bogus',
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key=self.m_key,
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)
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self.assertEqual(ex.exception.message, "Invalid version")
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def test_decrypt_bad_version(self):
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with self.assertRaises(ECEException) as ex:
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ece.decrypt(
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self.m_input,
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version='bogus',
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key=self.m_key,
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)
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self.assertEqual(ex.exception.message, "Invalid version")
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def test_decrypt_bad_header(self):
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with self.assertRaises(ECEException) as ex:
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ece.decrypt(
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os.urandom(4),
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version='aes128gcm',
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key=self.m_key,
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)
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self.assertEqual(ex.exception.message, "Could not parse the content header")
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def test_encrypt_long_keyid(self):
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with self.assertRaises(ECEException) as ex:
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ece.encrypt(
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self.m_input,
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version='aes128gcm',
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key=self.m_key,
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keyid=b64e(os.urandom(192)), # 256 bytes
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)
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self.assertEqual(ex.exception.message, "keyid is too long")
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def test_overlong_padding(self):
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with self.assertRaises(ECEException) as ex:
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ece.decrypt(
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self.m_header + b'\xbb\xc7\xb9ev\x0b\xf0f+\x93\xf4'
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b'\xe5\xd6\x94\xb7e\xf0\xcd\x15\x9b(\x01\xa5',
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version='aes128gcm',
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key=b'd\xc7\x0ed\xa7%U\x14Q\xf2\x08\xdf\xba\xa0\xb9r',
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keyid=b64e(os.urandom(192)), # 256 bytes
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)
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self.assertEqual(ex.exception.message, "all zero record plaintext")
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def test_bad_early_delimiter(self):
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with self.assertRaises(ECEException) as ex:
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ece.decrypt(
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self.m_header + b'\xb9\xc7\xb9ev\x0b\xf0\x9eB\xb1\x08C8u'
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b'\xa3\x06\xc9x\x06\n\xfc|}\xe9R\x85\x91'
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b'\x8bX\x02`\xf3' +
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b'E8z(\xe5%f/H\xc1\xc32\x04\xb1\x95\xb5N\x9ep\xd4\x0e<\xf3'
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b'\xef\x0cg\x1b\xe0\x14I~\xdc',
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version='aes128gcm',
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key=b'd\xc7\x0ed\xa7%U\x14Q\xf2\x08\xdf\xba\xa0\xb9r',
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keyid=b64e(os.urandom(192)), # 256 bytes
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)
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self.assertEqual(ex.exception.message, "record delimiter != 1")
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def test_bad_final_delimiter(self):
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with self.assertRaises(ECEException) as ex:
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ece.decrypt(
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self.m_header + b'\xba\xc7\xb9ev\x0b\xf0\x9eB\xb1\x08Ji'
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b'\xe4P\x1b\x8dI\xdb\xc6y#MG\xc2W\x16',
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version='aes128gcm',
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key=b'd\xc7\x0ed\xa7%U\x14Q\xf2\x08\xdf\xba\xa0\xb9r',
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keyid=b64e(os.urandom(192)), # 256 bytes
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)
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self.assertEqual(ex.exception.message, "last record delimiter != 2")
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def test_damage(self):
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with self.assertRaises(ECEException) as ex:
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ece.decrypt(
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self.m_header + b'\xbb\xc6\xb1\x1dF:~\x0f\x07+\xbe\xaaD'
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b'\xe0\xd6.K\xe5\xf9]%\xe3\x86q\xe0}',
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version='aes128gcm',
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key=b'd\xc7\x0ed\xa7%U\x14Q\xf2\x08\xdf\xba\xa0\xb9r',
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keyid=b64e(os.urandom(192)), # 256 bytes
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)
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self.assertEqual(ex.exception.message, "Decryption error: InvalidTag()")
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class TestEceIntegration(unittest.TestCase):
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def setUp(self):
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ece.keys = {}
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ece.labels = {}
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def tearDown(self):
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ece.keys = {}
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ece.labels = {}
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def _rsoverhead(self, version):
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if version == 'aesgcm128':
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return 1
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if version == 'aesgcm':
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return 2
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return 18
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def _generate_input(self, minLen=0):
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length = struct.unpack('!B', os.urandom(1))[0] + minLen
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return os.urandom(length)
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def encrypt_decrypt(self, input, encrypt_params, decrypt_params=None,
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version=None):
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"""Run and encrypt/decrypt cycle on some test data
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:param input: data for input
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:type length: bytearray
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:param encrypt_params: Dictionary of encryption parameters
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:type encrypt_params: dict
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:param decrypt_params: Optional dictionary of decryption parameters
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:type decrypt_params: dict
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:param version: Content-Type of the body, formulating encryption
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:type enumerate("aes128gcm", "aesgcm", "aesgcm128"):
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"""
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if decrypt_params is None:
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decrypt_params = encrypt_params
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logbuf("Input", input)
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if "key" in encrypt_params:
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logbuf("Key", encrypt_params["key"])
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if version != "aes128gcm":
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salt = os.urandom(16)
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decrypt_rs_default = 4096
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else:
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salt = None
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decrypt_rs_default = None
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logbuf("Salt", salt)
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if "auth_secret" in encrypt_params:
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logbuf("Auth Secret", encrypt_params["auth_secret"])
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encrypted = ece.encrypt(input,
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salt=salt,
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key=encrypt_params.get("key"),
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keyid=encrypt_params.get("keyid"),
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dh=encrypt_params.get("dh"),
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private_key=encrypt_params.get("private_key"),
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auth_secret=encrypt_params.get("auth_secret"),
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rs=encrypt_params.get("rs", 4096),
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version=version)
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logbuf("Encrypted", encrypted)
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decrypted = ece.decrypt(encrypted,
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salt=salt,
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key=decrypt_params.get("key"),
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keyid=decrypt_params.get("keyid"),
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dh=decrypt_params.get("dh"),
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private_key=decrypt_params.get("private_key"),
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auth_secret=decrypt_params.get("auth_secret"),
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rs=decrypt_params.get("rs",
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decrypt_rs_default),
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version=version)
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logbuf("Decrypted", decrypted)
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self.assertEqual(input, decrypted)
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def use_explicit_key(self, version=None):
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params = {
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"key": os.urandom(16),
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}
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self.encrypt_decrypt(self._generate_input(), params, version=version)
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def auth_secret(self, version):
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params = {
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"key": os.urandom(16),
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"auth_secret": os.urandom(16)
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}
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self.encrypt_decrypt(self._generate_input(), params, version=version)
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def exactly_one_record(self, version=None):
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input = self._generate_input(1)
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params = {
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"key": os.urandom(16),
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"rs": len(input) + self._rsoverhead(version)
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}
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self.encrypt_decrypt(input, params, version=version)
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def detect_truncation(self, version):
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if version == "aes128gcm":
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return
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input = self._generate_input(2)
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key = os.urandom(16)
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salt = os.urandom(16)
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rs = len(input) + self._rsoverhead(version) - 1
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encrypted = ece.encrypt(input, salt=salt, key=key, rs=rs,
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version=version)
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if version == 'aes128gcm':
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chunk = encrypted[0:21+rs]
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else:
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chunk = encrypted[0:rs+16]
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with self.assertRaises(ECEException) as ex:
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ece.decrypt(chunk, salt=salt, key=key, rs=rs, version=version)
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self.assertEqual(ex.exception.message, "Message truncated")
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def use_dh(self, version):
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def pubbytes(k):
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return k.public_key().public_bytes(
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Encoding.X962,
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PublicFormat.UncompressedPoint
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)
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def privbytes(k):
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d = k.private_numbers().private_value
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b = b''
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for i in range(0,
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k.private_numbers().public_numbers.curve.key_size,
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32):
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b = struct.pack("!L", (d >> i) & 0xffffffff) + b
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return b
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def logec(s, k):
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logbuf(s + " private", privbytes(k))
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logbuf(s + " public", pubbytes(k))
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def is_uncompressed(k):
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b1 = pubbytes(k)[0:1]
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assert struct.unpack("B", b1)[0] == 4, "is an uncompressed point"
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# the static key is used by the receiver
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static_key = make_key()
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is_uncompressed(static_key)
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logec("receiver", static_key)
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# the ephemeral key is used by the sender
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ephemeral_key = make_key()
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is_uncompressed(ephemeral_key)
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logec("sender", ephemeral_key)
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auth_secret = os.urandom(16)
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if version != "aes128gcm":
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decrypt_dh = pubbytes(ephemeral_key)
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else:
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decrypt_dh = None
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encrypt_params = {
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"private_key": ephemeral_key,
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"dh": static_key.public_key(),
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"auth_secret": auth_secret,
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}
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decrypt_params = {
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"private_key": static_key,
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"dh": decrypt_dh,
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"auth_secret": auth_secret,
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}
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self.encrypt_decrypt(self._generate_input(), encrypt_params,
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decrypt_params, version)
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def test_types(self):
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for ver in ["aes128gcm", "aesgcm", "aesgcm128"]:
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for f in (
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self.use_dh,
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self.use_explicit_key,
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self.auth_secret,
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self.exactly_one_record,
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self.detect_truncation,
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):
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ece.keys = {}
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ece.labels = {}
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f(version=ver)
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class TestNode(unittest.TestCase):
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"""Testing using data from the node.js version.
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"""
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def setUp(self):
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if not os.path.exists(TEST_VECTORS):
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self.skipTest("No %s file found" % TEST_VECTORS)
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f = open(TEST_VECTORS, 'r')
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self.legacy_data = json.loads(f.read())
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f.close()
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def _run(self, mode):
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if mode == 'encrypt':
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func = ece.encrypt
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local = 'sender'
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inp = 'input'
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outp = 'encrypted'
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else:
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func = ece.decrypt
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local = 'receiver'
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inp = 'encrypted'
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outp = 'input'
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for data in self.legacy_data:
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logmsg('%s: %s' % (mode, data['test']))
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p = data['params'][mode]
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if 'pad' in p and mode == 'encrypt':
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# This library doesn't pad in exactly the same way.
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continue
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if 'keys' in data:
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key = None
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decode_pub = ec.EllipticCurvePublicNumbers.from_encoded_point
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pubnum = decode_pub(ec.SECP256R1(),
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b64d(data['keys'][local]['public']))
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d = 0
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dbin = b64d(data['keys'][local]['private'])
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for i in range(0, len(dbin), 4):
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d = (d << 32) + struct.unpack('!L', dbin[i:i + 4])[0]
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privnum = ec.EllipticCurvePrivateNumbers(d, pubnum)
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private_key = privnum.private_key(default_backend())
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else:
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key = b64d(p['key'])
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private_key = None
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if 'authSecret' in p:
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auth_secret = b64d(p['authSecret'])
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else:
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auth_secret = None
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if 'dh' in p:
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dh = b64d(p['dh'])
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else:
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dh = None
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result = func(
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b64d(data[inp]),
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salt=b64d(p['salt']),
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key=key,
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dh=dh,
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auth_secret=auth_secret,
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keyid=p.get('keyid'),
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private_key=private_key,
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rs=p.get('rs', 4096),
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version=p['version'],
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)
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self.assertEqual(b64d(data[outp]), result)
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def test_decrypt(self):
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self._run('decrypt')
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def test_encrypt(self):
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self._run('encrypt')
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