Lib/test/test_secrets.py - platform/external/python/cpython3 - Gitiles

 """Test the secrets module.

 As most of the functions in secrets are thin wrappers around functions
 defined elsewhere, we don't need to test them exhaustively.
 """


 import secrets
 import unittest
 import string


 # === Unit tests ===

 class Compare_Digest_Tests(unittest.TestCase):
     """Test secrets.compare_digest function."""

     def test_equal(self):
         # Test compare_digest functionality with equal (byte/text) strings.
         for s in ("a", "bcd", "xyz123"):
             a = s*100
             b = s*100
             self.assertTrue(secrets.compare_digest(a, b))
             self.assertTrue(secrets.compare_digest(a.encode('utf-8'), b.encode('utf-8')))

     def test_unequal(self):
         # Test compare_digest functionality with unequal (byte/text) strings.
         self.assertFalse(secrets.compare_digest("abc", "abcd"))
         self.assertFalse(secrets.compare_digest(b"abc", b"abcd"))
         for s in ("x", "mn", "a1b2c3"):
             a = s*100 + "q"
             b = s*100 + "k"
             self.assertFalse(secrets.compare_digest(a, b))
             self.assertFalse(secrets.compare_digest(a.encode('utf-8'), b.encode('utf-8')))

     def test_bad_types(self):
         # Test that compare_digest raises with mixed types.
         a = 'abcde'
         b = a.encode('utf-8')
         assert isinstance(a, str)
         assert isinstance(b, bytes)
         self.assertRaises(TypeError, secrets.compare_digest, a, b)
         self.assertRaises(TypeError, secrets.compare_digest, b, a)

     def test_bool(self):
         # Test that compare_digest returns a bool.
         self.assertIsInstance(secrets.compare_digest("abc", "abc"), bool)
         self.assertIsInstance(secrets.compare_digest("abc", "xyz"), bool)


 class Random_Tests(unittest.TestCase):
     """Test wrappers around SystemRandom methods."""

     def test_randbits(self):
         # Test randbits.
         errmsg = "randbits(%d) returned %d"
         for numbits in (3, 12, 30):
             for i in range(6):
                 n = secrets.randbits(numbits)
                 self.assertTrue(0 <= n < 2**numbits, errmsg % (numbits, n))

     def test_choice(self):
         # Test choice.
         items = [1, 2, 4, 8, 16, 32, 64]
         for i in range(10):
             self.assertTrue(secrets.choice(items) in items)

     def test_randbelow(self):
         # Test randbelow.
         for i in range(2, 10):
             self.assertIn(secrets.randbelow(i), range(i))
         self.assertRaises(ValueError, secrets.randbelow, 0)
         self.assertRaises(ValueError, secrets.randbelow, -1)


 class Token_Tests(unittest.TestCase):
     """Test token functions."""

     def test_token_defaults(self):
         # Test that token_* functions handle default size correctly.
         for func in (secrets.token_bytes, secrets.token_hex,
                      secrets.token_urlsafe):
             with self.subTest(func=func):
                 name = func.__name__
                 try:
                     func()
                 except TypeError:
                     self.fail("%s cannot be called with no argument" % name)
                 try:
                     func(None)
                 except TypeError:
                     self.fail("%s cannot be called with None" % name)
         size = secrets.DEFAULT_ENTROPY
         self.assertEqual(len(secrets.token_bytes(None)), size)
         self.assertEqual(len(secrets.token_hex(None)), 2*size)

     def test_token_bytes(self):
         # Test token_bytes.
         for n in (1, 8, 17, 100):
             with self.subTest(n=n):
                 self.assertIsInstance(secrets.token_bytes(n), bytes)
                 self.assertEqual(len(secrets.token_bytes(n)), n)

     def test_token_hex(self):
         # Test token_hex.
         for n in (1, 12, 25, 90):
             with self.subTest(n=n):
                 s = secrets.token_hex(n)
                 self.assertIsInstance(s, str)
                 self.assertEqual(len(s), 2*n)
                 self.assertTrue(all(c in string.hexdigits for c in s))

     def test_token_urlsafe(self):
         # Test token_urlsafe.
         legal = string.ascii_letters + string.digits + '-_'
         for n in (1, 11, 28, 76):
             with self.subTest(n=n):
                 s = secrets.token_urlsafe(n)
                 self.assertIsInstance(s, str)
                 self.assertTrue(all(c in legal for c in s))


 if __name__ == '__main__':
     unittest.main()
	"""Test the secrets module.

	As most of the functions in secrets are thin wrappers around functions
	defined elsewhere, we don't need to test them exhaustively.
	"""


	import secrets
	import unittest
	import string


	# === Unit tests ===

	class Compare_Digest_Tests(unittest.TestCase):
	"""Test secrets.compare_digest function."""

	def test_equal(self):
	# Test compare_digest functionality with equal (byte/text) strings.
	for s in ("a", "bcd", "xyz123"):
	a = s*100
	b = s*100
	self.assertTrue(secrets.compare_digest(a, b))
	self.assertTrue(secrets.compare_digest(a.encode('utf-8'), b.encode('utf-8')))

	def test_unequal(self):
	# Test compare_digest functionality with unequal (byte/text) strings.
	self.assertFalse(secrets.compare_digest("abc", "abcd"))
	self.assertFalse(secrets.compare_digest(b"abc", b"abcd"))
	for s in ("x", "mn", "a1b2c3"):
	a = s*100 + "q"
	b = s*100 + "k"
	self.assertFalse(secrets.compare_digest(a, b))
	self.assertFalse(secrets.compare_digest(a.encode('utf-8'), b.encode('utf-8')))

	def test_bad_types(self):
	# Test that compare_digest raises with mixed types.
	a = 'abcde'
	b = a.encode('utf-8')
	assert isinstance(a, str)
	assert isinstance(b, bytes)
	self.assertRaises(TypeError, secrets.compare_digest, a, b)
	self.assertRaises(TypeError, secrets.compare_digest, b, a)

	def test_bool(self):
	# Test that compare_digest returns a bool.
	self.assertIsInstance(secrets.compare_digest("abc", "abc"), bool)
	self.assertIsInstance(secrets.compare_digest("abc", "xyz"), bool)


	class Random_Tests(unittest.TestCase):
	"""Test wrappers around SystemRandom methods."""

	def test_randbits(self):
	# Test randbits.
	errmsg = "randbits(%d) returned %d"
	for numbits in (3, 12, 30):
	for i in range(6):
	n = secrets.randbits(numbits)
	self.assertTrue(0 <= n < 2**numbits, errmsg % (numbits, n))

	def test_choice(self):
	# Test choice.
	items = [1, 2, 4, 8, 16, 32, 64]
	for i in range(10):
	self.assertTrue(secrets.choice(items) in items)

	def test_randbelow(self):
	# Test randbelow.
	for i in range(2, 10):
	self.assertIn(secrets.randbelow(i), range(i))
	self.assertRaises(ValueError, secrets.randbelow, 0)
	self.assertRaises(ValueError, secrets.randbelow, -1)


	class Token_Tests(unittest.TestCase):
	"""Test token functions."""

	def test_token_defaults(self):
	# Test that token_* functions handle default size correctly.
	for func in (secrets.token_bytes, secrets.token_hex,
	secrets.token_urlsafe):
	with self.subTest(func=func):
	name = func.__name__
	try:
	func()
	except TypeError:
	self.fail("%s cannot be called with no argument" % name)
	try:
	func(None)
	except TypeError:
	self.fail("%s cannot be called with None" % name)
	size = secrets.DEFAULT_ENTROPY
	self.assertEqual(len(secrets.token_bytes(None)), size)
	self.assertEqual(len(secrets.token_hex(None)), 2*size)

	def test_token_bytes(self):
	# Test token_bytes.
	for n in (1, 8, 17, 100):
	with self.subTest(n=n):
	self.assertIsInstance(secrets.token_bytes(n), bytes)
	self.assertEqual(len(secrets.token_bytes(n)), n)

	def test_token_hex(self):
	# Test token_hex.
	for n in (1, 12, 25, 90):
	with self.subTest(n=n):
	s = secrets.token_hex(n)
	self.assertIsInstance(s, str)
	self.assertEqual(len(s), 2*n)
	self.assertTrue(all(c in string.hexdigits for c in s))

	def test_token_urlsafe(self):
	# Test token_urlsafe.
	legal = string.ascii_letters + string.digits + '-_'
	for n in (1, 11, 28, 76):
	with self.subTest(n=n):
	s = secrets.token_urlsafe(n)
	self.assertIsInstance(s, str)
	self.assertTrue(all(c in legal for c in s))


	if __name__ == '__main__':
	unittest.main()