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"""passlib.tests.test_handlers_django - tests for passlib hash algorithms"""
#=============================================================================
# imports
#=============================================================================
from __future__ import with_statement
# core
import logging; log = logging.getLogger(__name__)
import warnings
# site
# pkg
from passlib import hash
from passlib.utils import repeat_string
from passlib.utils.compat import u
from passlib.tests.utils import TestCase, HandlerCase, skipUnless, SkipTest
from passlib.tests.test_handlers import UPASS_USD, UPASS_TABLE
from passlib.tests.test_ext_django import DJANGO_VERSION, MIN_DJANGO_VERSION
# module
#=============================================================================
# django
#=============================================================================
# standard string django uses
UPASS_LETMEIN = u('l\xe8tmein')
def vstr(version):
return ".".join(str(e) for e in version)
class _DjangoHelper(TestCase):
__unittest_skip = True
#: minimum django version where hash alg is present / that we support testing against
min_django_version = MIN_DJANGO_VERSION
#: max django version where hash alg is present
max_django_version = None
def _require_django_support(self):
if DJANGO_VERSION < self.min_django_version:
raise self.skipTest("Django >= %s not installed" % vstr(self.min_django_version))
if self.max_django_version and DJANGO_VERSION > self.max_django_version:
raise self.skipTest("Django <= %s not installed" % vstr(self.max_django_version))
return True
extra_fuzz_verifiers = HandlerCase.fuzz_verifiers + (
"fuzz_verifier_django",
)
def fuzz_verifier_django(self):
try:
self._require_django_support()
except SkipTest:
return None
from django.contrib.auth.hashers import check_password
def verify_django(secret, hash):
"""django/check_password"""
if self.handler.name == "django_bcrypt" and hash.startswith("bcrypt$$2y$"):
hash = hash.replace("$$2y$", "$$2a$")
if self.django_has_encoding_glitch and isinstance(secret, bytes):
# e.g. unsalted_md5 on 1.5 and higher try to combine
# salt + password before encoding to bytes, leading to ascii error.
# this works around that issue.
secret = secret.decode("utf-8")
return check_password(secret, hash)
return verify_django
def test_90_django_reference(self):
"""run known correct hashes through Django's check_password()"""
self._require_django_support()
# XXX: esp. when it's no longer supported by django,
# should verify it's *NOT* recognized
from django.contrib.auth.hashers import check_password
assert self.known_correct_hashes
for secret, hash in self.iter_known_hashes():
self.assertTrue(check_password(secret, hash),
"secret=%r hash=%r failed to verify" %
(secret, hash))
self.assertFalse(check_password('x' + secret, hash),
"mangled secret=%r hash=%r incorrect verified" %
(secret, hash))
django_has_encoding_glitch = False
def test_91_django_generation(self):
"""test against output of Django's make_password()"""
self._require_django_support()
# XXX: esp. when it's no longer supported by django,
# should verify it's *NOT* recognized
from passlib.utils import tick
from django.contrib.auth.hashers import make_password
name = self.handler.django_name # set for all the django_* handlers
end = tick() + self.max_fuzz_time/2
generator = self.FuzzHashGenerator(self, self.getRandom())
while tick() < end:
secret, other = generator.random_password_pair()
if not secret: # django rejects empty passwords.
continue
if self.django_has_encoding_glitch and isinstance(secret, bytes):
# e.g. unsalted_md5 tried to combine salt + password before encoding to bytes,
# leading to ascii error. this works around that issue.
secret = secret.decode("utf-8")
hash = make_password(secret, hasher=name)
self.assertTrue(self.do_identify(hash))
self.assertTrue(self.do_verify(secret, hash))
self.assertFalse(self.do_verify(other, hash))
class django_disabled_test(HandlerCase):
"""test django_disabled"""
handler = hash.django_disabled
disabled_contains_salt = True
known_correct_hashes = [
# *everything* should hash to "!", and nothing should verify
("password", "!"),
("", "!"),
(UPASS_TABLE, "!"),
]
known_alternate_hashes = [
# django 1.6 appends random alpnum string
("!9wa845vn7098ythaehasldkfj", "password", "!"),
]
class django_des_crypt_test(HandlerCase, _DjangoHelper):
"""test django_des_crypt"""
handler = hash.django_des_crypt
max_django_version = (1,9)
known_correct_hashes = [
# ensures only first two digits of salt count.
("password", 'crypt$c2$c2M87q...WWcU'),
("password", 'crypt$c2e86$c2M87q...WWcU'),
("passwordignoreme", 'crypt$c2.AZ$c2M87q...WWcU'),
# ensures utf-8 used for unicode
(UPASS_USD, 'crypt$c2e86$c2hN1Bxd6ZiWs'),
(UPASS_TABLE, 'crypt$0.aQs$0.wB.TT0Czvlo'),
(u("hell\u00D6"), "crypt$sa$saykDgk3BPZ9E"),
# prevent regression of issue 22
("foo", 'crypt$MNVY.9ajgdvDQ$MNVY.9ajgdvDQ'),
]
known_alternate_hashes = [
# ensure django 1.4 empty salt field is accepted;
# but that salt field is re-filled (for django 1.0 compatibility)
('crypt$$c2M87q...WWcU', "password", 'crypt$c2$c2M87q...WWcU'),
]
known_unidentified_hashes = [
'sha1$aa$bb',
]
known_malformed_hashes = [
# checksum too short
'crypt$c2$c2M87q',
# salt must be >2
'crypt$f$c2M87q...WWcU',
# make sure first 2 chars of salt & chk field agree.
'crypt$ffe86$c2M87q...WWcU',
]
class django_salted_md5_test(HandlerCase, _DjangoHelper):
"""test django_salted_md5"""
handler = hash.django_salted_md5
max_django_version = (1,9)
django_has_encoding_glitch = True
known_correct_hashes = [
# test extra large salt
("password", 'md5$123abcdef$c8272612932975ee80e8a35995708e80'),
# test django 1.4 alphanumeric salt
("test", 'md5$3OpqnFAHW5CT$54b29300675271049a1ebae07b395e20'),
# ensures utf-8 used for unicode
(UPASS_USD, 'md5$c2e86$92105508419a81a6babfaecf876a2fa0'),
(UPASS_TABLE, 'md5$d9eb8$01495b32852bffb27cf5d4394fe7a54c'),
]
known_unidentified_hashes = [
'sha1$aa$bb',
]
known_malformed_hashes = [
# checksum too short
'md5$aa$bb',
]
class FuzzHashGenerator(HandlerCase.FuzzHashGenerator):
def random_salt_size(self):
# workaround for django14 regression --
# 1.4 won't accept hashes with empty salt strings, unlike 1.3 and earlier.
# looks to be fixed in a future release -- https://code.djangoproject.com/ticket/18144
# for now, we avoid salt_size==0 under 1.4
handler = self.handler
default = handler.default_salt_size
assert handler.min_salt_size == 0
lower = 1
upper = handler.max_salt_size or default*4
return self.randintgauss(lower, upper, default, default*.5)
class django_salted_sha1_test(HandlerCase, _DjangoHelper):
"""test django_salted_sha1"""
handler = hash.django_salted_sha1
max_django_version = (1,9)
django_has_encoding_glitch = True
known_correct_hashes = [
# test extra large salt
("password",'sha1$123abcdef$e4a1877b0e35c47329e7ed7e58014276168a37ba'),
# test django 1.4 alphanumeric salt
("test", 'sha1$bcwHF9Hy8lxS$6b4cfa0651b43161c6f1471ce9523acf1f751ba3'),
# ensures utf-8 used for unicode
(UPASS_USD, 'sha1$c2e86$0f75c5d7fbd100d587c127ef0b693cde611b4ada'),
(UPASS_TABLE, 'sha1$6d853$ef13a4d8fb57aed0cb573fe9c82e28dc7fd372d4'),
# generic password
("MyPassword", 'sha1$54123$893cf12e134c3c215f3a76bd50d13f92404a54d3'),
]
known_unidentified_hashes = [
'md5$aa$bb',
]
known_malformed_hashes = [
# checksum too short
'sha1$c2e86$0f75',
]
# reuse custom random_salt_size() helper...
FuzzHashGenerator = django_salted_md5_test.FuzzHashGenerator
class django_pbkdf2_sha256_test(HandlerCase, _DjangoHelper):
"""test django_pbkdf2_sha256"""
handler = hash.django_pbkdf2_sha256
known_correct_hashes = [
#
# custom - generated via django 1.4 hasher
#
('not a password',
'pbkdf2_sha256$10000$kjVJaVz6qsnJ$5yPHw3rwJGECpUf70daLGhOrQ5+AMxIJdz1c3bqK1Rs='),
(UPASS_TABLE,
'pbkdf2_sha256$10000$bEwAfNrH1TlQ$OgYUblFNUX1B8GfMqaCYUK/iHyO0pa7STTDdaEJBuY0='),
]
class django_pbkdf2_sha1_test(HandlerCase, _DjangoHelper):
"""test django_pbkdf2_sha1"""
handler = hash.django_pbkdf2_sha1
known_correct_hashes = [
#
# custom - generated via django 1.4 hashers
#
('not a password',
'pbkdf2_sha1$10000$wz5B6WkasRoF$atJmJ1o+XfJxKq1+Nu1f1i57Z5I='),
(UPASS_TABLE,
'pbkdf2_sha1$10000$KZKWwvqb8BfL$rw5pWsxJEU4JrZAQhHTCO+u0f5Y='),
]
@skipUnless(hash.bcrypt.has_backend(), "no bcrypt backends available")
class django_bcrypt_test(HandlerCase, _DjangoHelper):
"""test django_bcrypt"""
handler = hash.django_bcrypt
fuzz_salts_need_bcrypt_repair = True
known_correct_hashes = [
#
# just copied and adapted a few test vectors from bcrypt (above),
# since django_bcrypt is just a wrapper for the real bcrypt class.
#
('', 'bcrypt$$2a$06$DCq7YPn5Rq63x1Lad4cll.TV4S6ytwfsfvkgY8jIucDrjc8deX1s.'),
('abcdefghijklmnopqrstuvwxyz',
'bcrypt$$2a$10$fVH8e28OQRj9tqiDXs1e1uxpsjN0c7II7YPKXua2NAKYvM6iQk7dq'),
(UPASS_TABLE,
'bcrypt$$2a$05$Z17AXnnlpzddNUvnC6cZNOSwMA/8oNiKnHTHTwLlBijfucQQlHjaG'),
]
# NOTE: the following have been cloned from _bcrypt_test()
def populate_settings(self, kwds):
# speed up test w/ lower rounds
kwds.setdefault("rounds", 4)
super(django_bcrypt_test, self).populate_settings(kwds)
class FuzzHashGenerator(HandlerCase.FuzzHashGenerator):
def random_rounds(self):
# decrease default rounds for fuzz testing to speed up volume.
return self.randintgauss(5, 8, 6, 1)
def random_ident(self):
# omit multi-ident tests, only $2a$ counts for this class
# XXX: enable this to check 2a / 2b?
return None
@skipUnless(hash.bcrypt.has_backend(), "no bcrypt backends available")
class django_bcrypt_sha256_test(HandlerCase, _DjangoHelper):
"""test django_bcrypt_sha256"""
handler = hash.django_bcrypt_sha256
forbidden_characters = None
fuzz_salts_need_bcrypt_repair = True
known_correct_hashes = [
#
# custom - generated via django 1.6 hasher
#
('',
'bcrypt_sha256$$2a$06$/3OeRpbOf8/l6nPPRdZPp.nRiyYqPobEZGdNRBWihQhiFDh1ws1tu'),
(UPASS_LETMEIN,
'bcrypt_sha256$$2a$08$NDjSAIcas.EcoxCRiArvT.MkNiPYVhrsrnJsRkLueZOoV1bsQqlmC'),
(UPASS_TABLE,
'bcrypt_sha256$$2a$06$kCXUnRFQptGg491siDKNTu8RxjBGSjALHRuvhPYNFsa4Ea5d9M48u'),
# test >72 chars is hashed correctly -- under bcrypt these hash the same.
(repeat_string("abc123",72),
'bcrypt_sha256$$2a$06$Tg/oYyZTyAf.Nb3qSgN61OySmyXA8FoY4PjGizjE1QSDfuL5MXNni'),
(repeat_string("abc123",72)+"qwr",
'bcrypt_sha256$$2a$06$Tg/oYyZTyAf.Nb3qSgN61Ocy0BEz1RK6xslSNi8PlaLX2pe7x/KQG'),
(repeat_string("abc123",72)+"xyz",
'bcrypt_sha256$$2a$06$Tg/oYyZTyAf.Nb3qSgN61OvY2zoRVUa2Pugv2ExVOUT2YmhvxUFUa'),
]
known_malformed_hashers = [
# data in django salt field
'bcrypt_sha256$xyz$2a$06$/3OeRpbOf8/l6nPPRdZPp.nRiyYqPobEZGdNRBWihQhiFDh1ws1tu',
]
# NOTE: the following have been cloned from _bcrypt_test()
def populate_settings(self, kwds):
# speed up test w/ lower rounds
kwds.setdefault("rounds", 4)
super(django_bcrypt_sha256_test, self).populate_settings(kwds)
class FuzzHashGenerator(HandlerCase.FuzzHashGenerator):
def random_rounds(self):
# decrease default rounds for fuzz testing to speed up volume.
return self.randintgauss(5, 8, 6, 1)
def random_ident(self):
# omit multi-ident tests, only $2a$ counts for this class
# XXX: enable this to check 2a / 2b?
return None
from passlib.tests.test_handlers_argon2 import _base_argon2_test
@skipUnless(hash.argon2.has_backend(), "no argon2 backends available")
class django_argon2_test(HandlerCase, _DjangoHelper):
"""test django_bcrypt"""
handler = hash.django_argon2
# NOTE: most of this adapted from _base_argon2_test & argon2pure test
known_correct_hashes = [
# sample test
("password", 'argon2$argon2i$v=19$m=256,t=1,p=1$c29tZXNhbHQ$AJFIsNZTMKTAewB4+ETN1A'),
# sample w/ all parameters different
("password", 'argon2$argon2i$v=19$m=380,t=2,p=2$c29tZXNhbHQ$SrssP8n7m/12VWPM8dvNrw'),
# generated from django 1.10.3
(UPASS_LETMEIN, 'argon2$argon2i$v=19$m=512,t=2,p=2$V25jN1l4UUJZWkR1$MxpA1BD2Gh7+D79gaAw6sQ'),
]
def setUpWarnings(self):
super(django_argon2_test, self).setUpWarnings()
warnings.filterwarnings("ignore", ".*Using argon2pure backend.*")
def do_stub_encrypt(self, handler=None, **settings):
# overriding default since no way to get stub config from argon2._calc_hash()
# (otherwise test_21b_max_rounds blocks trying to do max rounds)
handler = (handler or self.handler).using(**settings)
self = handler.wrapped(use_defaults=True)
self.checksum = self._stub_checksum
assert self.checksum
return handler._wrap_hash(self.to_string())
def test_03_legacy_hash_workflow(self):
# override base method
raise self.skipTest("legacy 1.6 workflow not supported")
class FuzzHashGenerator(_base_argon2_test.FuzzHashGenerator):
def random_rounds(self):
# decrease default rounds for fuzz testing to speed up volume.
return self.randintgauss(1, 3, 2, 1)
#=============================================================================
# eof
#=============================================================================