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"""passlib.tests -- tests for passlib.pwd""" #============================================================================= # imports #============================================================================= # core import itertools import logging; log = logging.getLogger(__name__) # site # pkg from passlib.tests.utils import TestCase # local __all__ = [ "UtilsTest", "GenerateTest", "StrengthTest", ] #============================================================================= # #============================================================================= class UtilsTest(TestCase): """test internal utilities""" descriptionPrefix = "passlib.pwd" def test_self_info_rate(self): """_self_info_rate()""" from passlib.pwd import _self_info_rate self.assertEqual(_self_info_rate(""), 0) self.assertEqual(_self_info_rate("a" * 8), 0) self.assertEqual(_self_info_rate("ab"), 1) self.assertEqual(_self_info_rate("ab" * 8), 1) self.assertEqual(_self_info_rate("abcd"), 2) self.assertEqual(_self_info_rate("abcd" * 8), 2) self.assertAlmostEqual(_self_info_rate("abcdaaaa"), 1.5488, places=4) # def test_total_self_info(self): # """_total_self_info()""" # from passlib.pwd import _total_self_info # # self.assertEqual(_total_self_info(""), 0) # # self.assertEqual(_total_self_info("a" * 8), 0) # # self.assertEqual(_total_self_info("ab"), 2) # self.assertEqual(_total_self_info("ab" * 8), 16) # # self.assertEqual(_total_self_info("abcd"), 8) # self.assertEqual(_total_self_info("abcd" * 8), 64) # self.assertAlmostEqual(_total_self_info("abcdaaaa"), 12.3904, places=4) #============================================================================= # word generation #============================================================================= # import subject from passlib.pwd import genword, default_charsets ascii_62 = default_charsets['ascii_62'] hex = default_charsets['hex'] class WordGeneratorTest(TestCase): """test generation routines""" descriptionPrefix = "passlib.pwd.genword()" def setUp(self): super(WordGeneratorTest, self).setUp() # patch some RNG references so they're reproducible. from passlib.pwd import SequenceGenerator self.patchAttr(SequenceGenerator, "rng", self.getRandom("pwd generator")) def assertResultContents(self, results, count, chars, unique=True): """check result list matches expected count & charset""" self.assertEqual(len(results), count) if unique: if unique is True: unique = count self.assertEqual(len(set(results)), unique) self.assertEqual(set("".join(results)), set(chars)) def test_general(self): """general behavior""" # basic usage result = genword() self.assertEqual(len(result), 9) # malformed keyword should have useful error. self.assertRaisesRegex(TypeError, "(?i)unexpected keyword.*badkwd", genword, badkwd=True) def test_returns(self): """'returns' keyword""" # returns=int option results = genword(returns=5000) self.assertResultContents(results, 5000, ascii_62) # returns=iter option gen = genword(returns=iter) results = [next(gen) for _ in range(5000)] self.assertResultContents(results, 5000, ascii_62) # invalid returns option self.assertRaises(TypeError, genword, returns='invalid-type') def test_charset(self): """'charset' & 'chars' options""" # charset option results = genword(charset="hex", returns=5000) self.assertResultContents(results, 5000, hex) # chars option # there are 3**3=27 possible combinations results = genword(length=3, chars="abc", returns=5000) self.assertResultContents(results, 5000, "abc", unique=27) # chars + charset self.assertRaises(TypeError, genword, chars='abc', charset='hex') # TODO: test rng option #============================================================================= # phrase generation #============================================================================= # import subject from passlib.pwd import genphrase simple_words = ["alpha", "beta", "gamma"] class PhraseGeneratorTest(TestCase): """test generation routines""" descriptionPrefix = "passlib.pwd.genphrase()" def assertResultContents(self, results, count, words, unique=True, sep=" "): """check result list matches expected count & charset""" self.assertEqual(len(results), count) if unique: if unique is True: unique = count self.assertEqual(len(set(results)), unique) out = set(itertools.chain.from_iterable(elem.split(sep) for elem in results)) self.assertEqual(out, set(words)) def test_general(self): """general behavior""" # basic usage result = genphrase() self.assertEqual(len(result.split(" ")), 4) # 48 / log(7776, 2) ~= 3.7 -> 4 # malformed keyword should have useful error. self.assertRaisesRegex(TypeError, "(?i)unexpected keyword.*badkwd", genphrase, badkwd=True) def test_entropy(self): """'length' & 'entropy' keywords""" # custom entropy result = genphrase(entropy=70) self.assertEqual(len(result.split(" ")), 6) # 70 / log(7776, 2) ~= 5.4 -> 6 # custom length result = genphrase(length=3) self.assertEqual(len(result.split(" ")), 3) # custom length < entropy result = genphrase(length=3, entropy=48) self.assertEqual(len(result.split(" ")), 4) # custom length > entropy result = genphrase(length=4, entropy=12) self.assertEqual(len(result.split(" ")), 4) def test_returns(self): """'returns' keyword""" # returns=int option results = genphrase(returns=1000, words=simple_words) self.assertResultContents(results, 1000, simple_words) # returns=iter option gen = genphrase(returns=iter, words=simple_words) results = [next(gen) for _ in range(1000)] self.assertResultContents(results, 1000, simple_words) # invalid returns option self.assertRaises(TypeError, genphrase, returns='invalid-type') def test_wordset(self): """'wordset' & 'words' options""" # wordset option results = genphrase(words=simple_words, returns=5000) self.assertResultContents(results, 5000, simple_words) # words option results = genphrase(length=3, words=simple_words, returns=5000) self.assertResultContents(results, 5000, simple_words, unique=3**3) # words + wordset self.assertRaises(TypeError, genphrase, words=simple_words, wordset='bip39') #============================================================================= # eof #=============================================================================