password = '******'
hashval = security.generate_password_hash(password, 'sha1')
self.assertTrue(security.check_password_hash(password, hashval))
hashval = security.generate_password_hash(password, 'sha1', pepper='bar')
self.assertTrue(security.check_password_hash(password, hashval,
pepper='bar'))
hashval = security.generate_password_hash(password, 'md5')
self.assertTrue(security.check_password_hash(password, hashval))
hashval = security.generate_password_hash(password, 'plain')
self.assertTrue(security.check_password_hash(password, hashval))
hashval = security.generate_password_hash(password, 'plain')
self.assertFalse(security.check_password_hash(password, ''))
hashval1 = security.hash_password(unicode(password), 'sha1', u'bar')
hashval2 = security.hash_password(unicode(password), 'sha1', u'bar')
self.assertTrue(hashval1 is not None)
self.assertEqual(hashval1, hashval2)
hashval1 = security.hash_password(unicode(password), 'md5', None)
hashval2 = security.hash_password(unicode(password), 'md5', None)
self.assertTrue(hashval1 is not None)
self.assertEqual(hashval1, hashval2)
if __name__ == '__main__':
test_base.main()
import os
import hashlib
import test_base
KEY_SIZE = hashlib.sha256().digest_size
v_easy = """55 ac 04 6e 56 e3 08 9f ec 16 91 c2 25 44 b6 05
f9 41 85 21 6d de 04 65 e6 8b 9d 57 c2 0d ac bc
49 ca 9c cc f1 79 b6 45 99 16 64 b3 9d 77 ef 31
7c 71 b8 45 b1 e3 0b d5 09 11 20 41 d3 a1 97 83"""
v_hard = """
4d dc d8 f6 0b 98 be 21 83 0c ee 5e f2 27 01 f9
64 1a 44 18 d0 4c 04 14 ae ff 08 87 6b 34 ab 56
a1 d4 25 a1 22 58 33 54 9a db 84 1b 51 c9 b3 17
6a 27 2b de bb a1 d0 78 47 8f 62 b3 97 f3 3c 8d"""
def process_octets(s):
return bytes(int(x, 16) for x in s.split())[:KEY_SIZE]
VECTORS = [('passwd', b"salt", 1, process_octets(v_easy))]
if os.environ.get('BOARD') == 'native':
VECTORS.append(("Password", b"NaCl", 80000, process_octets(v_hard)))
if __name__ == "__main__":
test_base.main(VECTORS)
# -*- coding: utf-8 -*-
from webapp2_extras import json
import test_base
class TestJson(test_base.BaseTestCase):
def test_encode(self):
self.assertEqual(json.encode('<script>alert("hello")</script>'),
'"<script>alert(\\"hello\\")<\\/script>"')
def test_decode(self):
self.assertEqual(
json.decode('"<script>alert(\\"hello\\")<\\/script>"'),
'<script>alert("hello")</script>')
def test_b64encode(self):
self.assertEqual(json.b64encode('<script>alert("hello")</script>'),
'IjxzY3JpcHQ+YWxlcnQoXCJoZWxsb1wiKTxcL3NjcmlwdD4i')
def test_b64decode(self):
self.assertEqual(
json.b64decode('IjxzY3JpcHQ+YWxlcnQoXCJoZWxsb1wiKTxcL3NjcmlwdD4i'),
'<script>alert("hello")</script>')
if __name__ == '__main__':
test_base.main()
self.assertRaises(VerificationError, inorder.verify(self.mock).first)
class VerifyNoMoreInteractionsTest(TestBase):
def testVerifies(self):
mockOne, mockTwo = mock(), mock()
mockOne.foo()
mockTwo.bar()
verify(mockOne).foo()
verify(mockTwo).bar()
verifyNoMoreInteractions(mockOne, mockTwo)
def testFails(self):
theMock = mock()
theMock.foo()
self.assertRaises(VerificationError, verifyNoMoreInteractions, theMock)
class VerifyZeroInteractionsTest(TestBase):
def testVerifies(self):
theMock = mock()
verifyZeroInteractions(theMock)
theMock.foo()
self.assertRaises(VerificationError, verifyNoMoreInteractions, theMock)
if __name__ == '__main__':
main()
