Mercurial > p > roundup > code
view test/test_hypothesis.py @ 8591:501eb8088ea3
test: use monkeypatch to safely handle monekypatching
Tests are unittest based, so pytest fixtures can not be used by adding
them to the function signature.
Augment the inject_fixtures to inject monkeypatch as
self._monkeypatch.
Use _monkeypatch to patch the three functions replacing the code that
manually did the patch. Remove the code that rolls back the manual
patching as monkeypatch rolls it back automatically when the test
function exits.
| author | John Rouillard <rouilj@ieee.org> |
|---|---|
| date | Mon, 20 Apr 2026 23:56:15 -0400 |
| parents | 2c6d66819475 |
| children |
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import unittest import pytest pytest.importorskip("hypothesis") # ruff: noqa: E402 from hypothesis import example, given, settings from hypothesis.strategies import binary, none, one_of, sampled_from, text from roundup.anypy.strings import b2s, s2b, s2u, u2s # ruff: noqa: I001 - yes I know I am using \ to continue the line... from roundup.password import PasswordValueError, encodePassword, \ h64decode, h64encode from roundup.password import crypt as crypt_method def Identity(x): return x _max_examples = 1000 class HypoTestStrings(unittest.TestCase): @given(text()) @settings(max_examples=_max_examples) def test_b2s(self, utf8_bytes): self.assertEqual(b2s(utf8_bytes.encode("utf-8")), utf8_bytes) @given(text()) @settings(max_examples=_max_examples) def test_s2b(self, s): self.assertTrue(isinstance(s2b(s), bytes)) @given(text()) @settings(max_examples=_max_examples) @example("\U0001F600 hi there") # smiley face emoji def test_s2u_u2s_invertable(self, s): self.assertEqual(u2s(s2u(s)), s) class HypoTestPassword(unittest.TestCase): @given(binary()) @example(b"") @settings(max_examples=_max_examples) def test_h64encode_h64decode(self, s): self.assertEqual(h64decode(h64encode(s)), s) crypt_modes = ["PBKDF2S5", "PBKDF2", "SSHA", "SHA", "MD5", "plaintext", "zot"] if crypt_method: crypt_modes.append("crypt") @given(one_of(none(), text()), sampled_from(crypt_modes)) @example("asd\x00df", "crypt") @settings(max_examples=_max_examples) # deadline=None for debugging def test_encodePassword(self, password, scheme): if scheme == "crypt" and password and "\x00" in password: with self.assertRaises(ValueError) as e: encodePassword(password, scheme) if crypt_method: self.assertEqual(e.exception.args[0], "embedded null character") else: self.assertEqual(e.exception.args[0], "Unsupported encryption scheme 'crypt'") elif scheme == "plaintext": if password is not None: self.assertEqual(encodePassword(password, scheme), password) else: self.assertEqual(encodePassword(password, scheme), "") elif scheme == "zot": with self.assertRaises(PasswordValueError) as e: encodePassword(password, scheme) self.assertEqual(e.exception.args[0], "Unknown encryption scheme 'zot'") else: # it shouldn't throw anything. pw = encodePassword(password, scheme) # verify format if scheme in ["PBKDF2S5", "PBKDF2"]: # 1000$XbSsijELEQbZZb1LlD7CFuotF/8$DdtssSlm.e self.assertRegex(pw, r"^\d{4,8}\$.{27}\$.*") elif scheme == "SSHA": # vqDbjvs8rhrS1AJxHYEGGXQW3x7STAPgo7uCtnw4GYgU7FN5VYbZxccQYCC0eXOxSipLbtgBudH1vDRMNlG0uw== self.assertRegex(pw, r"^[^=]*={0,3}$") elif scheme == "SHA": # da39a3ee5e6b4b0d3255bfef95601890afd80709' self.assertRegex(pw, r"^[a-z0-9]{40}$") elif scheme == "MD5": # d41d8cd98f00b204e9800998ecf8427e' self.assertRegex(pw, r"^[a-z0-9]{32}$") elif scheme == "crypt": # crypt_method is None if crypt is unknown if crypt_method: # WqzFDzhi8MmoU self.assertRegex(pw, r"^[A-Za-z0-9./]{13}$") else: self.assertFalse("Unknown scheme: %s, val: %s" % (scheme, pw))