/usr/lib/python2.7/dist-packages/passlib/tests/test_drivers.py is in python-passlib 1.5.3-0ubuntu3.
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1222 1223 1224 1225 1226 1227 1228 1229 1230 1231 1232 1233 1234 1235 1236 1237 1238 1239 1240 1241 1242 1243 1244 1245 1246 1247 1248 1249 1250 1251 1252 1253 1254 1255 1256 1257 1258 1259 1260 1261 1262 1263 1264 1265 1266 1267 1268 1269 1270 1271 1272 1273 1274 1275 1276 1277 1278 1279 1280 1281 1282 1283 1284 1285 1286 1287 1288 1289 1290 1291 1292 1293 1294 1295 1296 1297 1298 1299 1300 1301 1302 1303 1304 1305 1306 1307 1308 1309 1310 1311 1312 1313 1314 1315 1316 1317 1318 1319 1320 1321 1322 1323 1324 1325 1326 | """tests for passlib.pwhash -- (c) Assurance Technologies 2003-2009"""
#=========================================================
#imports
#=========================================================
from __future__ import with_statement
#core
import hashlib
import logging; log = logging.getLogger(__name__)
import warnings
#site
#pkg
from passlib import hash
from passlib.tests.utils import TestCase, HandlerCase, create_backend_case, \
enable_option, b, catch_warnings
#module
#=========================================================
#some
#=========================================================
#some common unicode passwords which used as test cases...
UPASS_WAV = u'\u0399\u03c9\u03b1\u03bd\u03bd\u03b7\u03c2'
UPASS_USD = u"\u20AC\u00A5$"
UPASS_TABLE = u"t\u00e1\u0411\u2113\u0259"
#=========================================================
#apr md5 crypt
#=========================================================
from passlib.handlers.md5_crypt import apr_md5_crypt
class AprMd5CryptTest(HandlerCase):
handler = apr_md5_crypt
#values taken from http://httpd.apache.org/docs/2.2/misc/password_encryptions.html
known_correct_hashes = [
('myPassword', '$apr1$r31.....$HqJZimcKQFAMYayBlzkrA/'),
]
known_malformed_hashes = [
#bad char in otherwise correct hash
'$apr1$r31.....$HqJZimcKQFAMYayBlzkrA!'
]
#=========================================================
#bcrypt
#=========================================================
class _BCryptTest(HandlerCase):
"base for BCrypt test cases"
handler = hash.bcrypt
secret_chars = 72
known_correct_hashes = [
#selected bcrypt test vectors
('', '$2a$06$DCq7YPn5Rq63x1Lad4cll.TV4S6ytwfsfvkgY8jIucDrjc8deX1s.'),
('a', '$2a$10$k87L/MF28Q673VKh8/cPi.SUl7MU/rWuSiIDDFayrKk/1tBsSQu4u'),
('abc', '$2a$10$WvvTPHKwdBJ3uk0Z37EMR.hLA2W6N9AEBhEgrAOljy2Ae5MtaSIUi'),
('abcdefghijklmnopqrstuvwxyz',
'$2a$10$fVH8e28OQRj9tqiDXs1e1uxpsjN0c7II7YPKXua2NAKYvM6iQk7dq'),
('~!@#$%^&*() ~!@#$%^&*()PNBFRD',
'$2a$10$LgfYWkbzEvQ4JakH7rOvHe0y8pHKF9OaFgwUZ2q7W2FFZmZzJYlfS'),
]
known_unidentified_hashes = [
#unsupported minor version
"$2b$12$EXRkfkdmXn!gzds2SSitu.MW9.gAVqa9eLS1//RYtYCmB1eLHg.9q",
]
known_malformed_hashes = [
#bad char in otherwise correct hash
"$2a$12$EXRkfkdmXn!gzds2SSitu.MW9.gAVqa9eLS1//RYtYCmB1eLHg.9q",
#rounds not zero-padded (pybcrypt rejects this, therefore so do we)
'$2a$6$DCq7YPn5Rq63x1Lad4cll.TV4S6ytwfsfvkgY8jIucDrjc8deX1s.'
#NOTE: salts with padding bits set are technically malformed,
# but that's one we can reliably correct & issue warning for.
]
#===============================================================
# extra tests
#===============================================================
def iter_external_verifiers(self):
try:
from bcrypt import hashpw
except ImportError:
pass
else:
def check_pybcrypt(secret, hash):
self.assertEqual(hashpw(secret, hash), hash,
"pybcrypt: bcrypt.hashpw(%r,%r):" % (secret, hash))
yield check_pybcrypt
try:
from bcryptor.engine import Engine
except ImportError:
pass
else:
def check_bcryptor(secret, hash):
result = Engine(False).hash_key(secret, hash)
self.assertEqual(result, hash,
"bcryptor: hash_key(%r,%r):" % (secret, hash))
yield check_bcryptor
def test_90_idents(self):
"test identifier validation"
handler = self.handler
kwds = dict(checksum='8CIhhFCj15KqqFvo/n.Jatx8dJ92f82',
salt='VlsfIX9.apXuQBr6tego0.',
rounds=12, ident="2a", strict=True)
handler(**kwds)
kwds['ident'] = None
self.assertRaises(ValueError, handler, **kwds)
del kwds['strict']
kwds['ident'] = 'Q'
self.assertRaises(ValueError, handler, **kwds)
#===============================================================
# see issue 25 - https://code.google.com/p/passlib/issues/detail?id=25
# bcrypt's salt ends with 4 padding bits.
# openbsd, pybcrypt, etc assume these bits are always 0.
# passlib <= 1.5.2 generated salts where this wasn't usually the case.
# as of 1.5.3, we want to always generate salts w/ 0 padding,
# and clear the padding of any incoming hashes
#===============================================================
def do_genconfig(self, **kwds):
# correct provided salts to handle ending correctly,
# so test_33_genconfig_saltchars doesn't throw warnings.
if 'salt' in kwds:
from passlib.handlers.bcrypt import BCHARS, BSLAST
salt = kwds['salt']
if salt and salt[-1] not in BSLAST:
salt = salt[:-1] + BCHARS[BCHARS.index(salt[-1])&~15]
kwds['salt'] = salt
return self.handler.genconfig(**kwds)
def test_91_bcrypt_padding(self):
"test passlib correctly handles bcrypt padding bits"
bcrypt = self.handler
def check_warning(wlog):
self.assertWarningMatches(wlog.pop(0),
message_re="^encountered a bcrypt hash with incorrectly set padding bits.*",
)
self.assertFalse(wlog)
def check_padding(hash):
"check bcrypt hash doesn't have salt padding bits set"
assert hash.startswith("$2a$") and len(hash) >= 28
self.assertTrue(hash[28] in BSLAST,
"padding bits set in hash: %r" % (hash,))
#===============================================================
# test generated salts
#===============================================================
from passlib.handlers.bcrypt import BCHARS, BSLAST
# make sure genconfig & encrypt don't return bad hashes.
# bug had 15/16 chance of occurring every time salt generated.
# so we call it a few different way a number of times.
for i in xrange(6):
check_padding(bcrypt.genconfig())
for i in xrange(3):
check_padding(bcrypt.encrypt("bob", rounds=bcrypt.min_rounds))
# check passing salt to genconfig causes it to be normalized.
with catch_warnings(record=True) as wlog:
warnings.simplefilter("always")
hash = bcrypt.genconfig(salt="."*21 + "A.")
check_warning(wlog)
self.assertEqual(hash, "$2a$12$" + "." * 22)
hash = bcrypt.genconfig(salt="."*23)
self.assertFalse(wlog)
self.assertEqual(hash, "$2a$12$" + "." * 22)
#===============================================================
# test handling existing hashes
#===============================================================
# 2 bits of salt padding set
PASS1 = "loppux"
BAD1 = "$2a$12$oaQbBqq8JnSM1NHRPQGXORm4GCUMqp7meTnkft4zgSnrbhoKdDV0C"
GOOD1 = "$2a$12$oaQbBqq8JnSM1NHRPQGXOOm4GCUMqp7meTnkft4zgSnrbhoKdDV0C"
# all 4 bits of salt padding set
PASS2 = "Passlib11"
BAD2 = "$2a$12$M8mKpW9a2vZ7PYhq/8eJVcUtKxpo6j0zAezu0G/HAMYgMkhPu4fLK"
GOOD2 = "$2a$12$M8mKpW9a2vZ7PYhq/8eJVOUtKxpo6j0zAezu0G/HAMYgMkhPu4fLK"
# bad checksum padding
PASS3 = "test"
BAD3 = "$2a$04$yjDgE74RJkeqC0/1NheSSOrvKeu9IbKDpcQf/Ox3qsrRS/Kw42qIV"
GOOD3 = "$2a$04$yjDgE74RJkeqC0/1NheSSOrvKeu9IbKDpcQf/Ox3qsrRS/Kw42qIS"
# make sure genhash() corrects input
with catch_warnings(record=True) as wlog:
warnings.simplefilter("always")
self.assertEqual(bcrypt.genhash(PASS1, BAD1), GOOD1)
check_warning(wlog)
self.assertEqual(bcrypt.genhash(PASS2, BAD2), GOOD2)
check_warning(wlog)
self.assertEqual(bcrypt.genhash(PASS2, GOOD2), GOOD2)
self.assertFalse(wlog)
self.assertEqual(bcrypt.genhash(PASS3, BAD3), GOOD3)
check_warning(wlog)
self.assertFalse(wlog)
# make sure verify works on both bad and good hashes
with catch_warnings(record=True) as wlog:
warnings.simplefilter("always")
self.assertTrue(bcrypt.verify(PASS1, BAD1))
check_warning(wlog)
self.assertTrue(bcrypt.verify(PASS1, GOOD1))
self.assertFalse(wlog)
#===============================================================
# test normhash cleans things up correctly
#===============================================================
with catch_warnings(record=True) as wlog:
warnings.simplefilter("always")
self.assertEqual(bcrypt.normhash(BAD1), GOOD1)
self.assertEqual(bcrypt.normhash(BAD2), GOOD2)
self.assertEqual(bcrypt.normhash(GOOD1), GOOD1)
self.assertEqual(bcrypt.normhash(GOOD2), GOOD2)
self.assertEqual(bcrypt.normhash("$md5$abc"), "$md5$abc")
hash.bcrypt._no_backends_msg() #call this for coverage purposes
#create test cases for specific backends
Pybcrypt_BCryptTest = create_backend_case(_BCryptTest, "pybcrypt")
Bcryptor_BCryptTest = create_backend_case(_BCryptTest, "bcryptor")
OsCrypt_BCryptTest = create_backend_case(_BCryptTest, "os_crypt")
#=========================================================
#bigcrypt
#=========================================================
from passlib.handlers.des_crypt import bigcrypt
class BigCryptTest(HandlerCase):
handler = bigcrypt
#TODO: find an authortative source of test vectors,
#these were found in docs and messages on the web.
known_correct_hashes = [
("passphrase", "qiyh4XPJGsOZ2MEAyLkfWqeQ"),
("This is very long passwd", "f8.SVpL2fvwjkAnxn8/rgTkwvrif6bjYB5c"),
]
known_unidentified_hashes = [
#one char short
"qiyh4XPJGsOZ2MEAyLkfWqe"
]
#omit des_crypt from known other, it looks like bigcrypt
known_other_hashes = [row for row in HandlerCase.known_other_hashes if row[0] != "des_crypt"]
#=========================================================
#bsdi crypt
#=========================================================
class _BSDiCryptTest(HandlerCase):
"test BSDiCrypt algorithm"
handler = hash.bsdi_crypt
known_correct_hashes = [
(" ", "_K1..crsmZxOLzfJH8iw"),
("my", '_KR/.crsmykRplHbAvwA'), #<- to detect old 12-bit rounds bug
("my socra", "_K1..crsmf/9NzZr1fLM"),
("my socrates", '_K1..crsmOv1rbde9A9o'),
("my socrates note", "_K1..crsm/2qeAhdISMA"),
]
known_unidentified_hashes = [
#bad char in otherwise correctly formatted hash
"_K1.!crsmZxOLzfJH8iw"
]
OsCrypt_BSDiCryptTest = create_backend_case(_BSDiCryptTest, "os_crypt")
Builtin_BSDiCryptTest = create_backend_case(_BSDiCryptTest, "builtin")
#=========================================================
#crypt16
#=========================================================
from passlib.handlers.des_crypt import crypt16
class Crypt16Test(HandlerCase):
handler = crypt16
secret_chars = 16
#TODO: find an authortative source of test vectors
#instead of just msgs around the web
# (eg http://seclists.org/bugtraq/1999/Mar/76)
known_correct_hashes = [
("passphrase", "qi8H8R7OM4xMUNMPuRAZxlY."),
("printf", "aaCjFz4Sh8Eg2QSqAReePlq6"),
("printf", "AA/xje2RyeiSU0iBY3PDwjYo"),
("LOLOAQICI82QB4IP", "/.FcK3mad6JwYt8LVmDqz9Lc"),
("LOLOAQICI", "/.FcK3mad6JwYSaRHJoTPzY2"),
("LOLOAQIC", "/.FcK3mad6JwYelhbtlysKy6"),
("L", "/.CIu/PzYCkl6elhbtlysKy6"),
]
#=========================================================
#des crypt
#=========================================================
from passlib.handlers.des_crypt import des_crypt
class _DesCryptTest(HandlerCase):
"test des-crypt algorithm"
handler = des_crypt
secret_chars = 8
known_correct_hashes = [
#secret, example hash which matches secret
('', 'OgAwTx2l6NADI'),
(' ', '/Hk.VPuwQTXbc'),
('test', 'N1tQbOFcM5fpg'),
('Compl3X AlphaNu3meric', 'um.Wguz3eVCx2'),
('4lpHa N|_|M3r1K W/ Cur5Es: #$%(*)(*%#', 'sNYqfOyauIyic'),
('AlOtBsOl', 'cEpWz5IUCShqM'),
(u'hell\u00D6', 'saykDgk3BPZ9E'),
]
known_unidentified_hashes = [
#bad char in otherwise correctly formatted hash
'!gAwTx2l6NADI',
]
def test_invalid_secret_chars(self):
self.assertRaises(ValueError, self.do_encrypt, 'sec\x00t')
OsCrypt_DesCryptTest = create_backend_case(_DesCryptTest, "os_crypt")
Builtin_DesCryptTest = create_backend_case(_DesCryptTest, "builtin")
#=========================================================
#django
#=========================================================
class _DjangoHelper(object):
def test_django_reference(self):
"run known correct hashes through Django's check_password()"
if not self.known_correct_hashes:
return self.skipTest("no known correct hashes specified")
from passlib.tests.test_ext_django import has_django1
if not has_django1:
return self.skipTest("Django not installed")
from django.contrib.auth.models import check_password
for secret, hash in self.all_correct_hashes:
self.assertTrue(check_password(secret, hash))
self.assertFalse(check_password('x' + secret, hash))
class DjangoDisabledTest(HandlerCase):
"test django_disabled"
#NOTE: this class behaves VERY differently from a normal password hash,
#so we subclass & disable a number of the default tests.
#TODO: combine these features w/ unix_fallback and other disabled handlers.
handler = hash.django_disabled
handler_type = "disabled"
def test_20_verify_positive(self):
for secret, result in [
("password", "!"),
("", "!"),
]:
self.assertFalse(self.do_verify(secret, result))
def test_50_encrypt_plain(self):
"test encrypt() basic behavior"
secret = UPASS_USD
result = self.do_encrypt(secret)
self.assertEqual(result, "!")
self.assertTrue(not self.do_verify(secret, result))
class DjangoDesCryptTest(HandlerCase, _DjangoHelper):
"test django_des_crypt"
handler = hash.django_des_crypt
secret_chars = 8
known_correct_hashes = [
#ensures only first two digits of salt count.
("password", 'crypt$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$MNVY.9ajgdvDQ'),
]
known_unidentified_hashes = [
'sha1$aa$bb',
]
known_malformed_hashes = [
# checksum too short
'crypt$c2$c2M87q',
# salt must be >2
'crypt$$c2M87q...WWcU',
'crypt$f$c2M87q...WWcU',
# this format duplicates salt inside checksum,
# reject any where the two copies don't match
'crypt$ffe86$c2M87q...WWcU',
]
class DjangoSaltedMd5Test(HandlerCase, _DjangoHelper):
"test django_salted_md5"
handler = hash.django_salted_md5
known_correct_hashes = [
#test extra large salt
("password", 'md5$123abcdef$c8272612932975ee80e8a35995708e80'),
#test unicode uses utf-8
(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 DjangoSaltedSha1Test(HandlerCase, _DjangoHelper):
"test django_salted_sha1"
handler = hash.django_salted_sha1
known_correct_hashes = [
#test extra large salt
("password",'sha1$123abcdef$e4a1877b0e35c47329e7ed7e58014276168a37ba'),
#test unicode uses utf-8
(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',
]
#=========================================================
#fshp
#=========================================================
class FSHPTest(HandlerCase):
"test fshp algorithm"
handler = hash.fshp
known_correct_hashes = [
#secret, example hash which matches secret
#test vectors from FSHP reference implementation
('test', '{FSHP0|0|1}qUqP5cyxm6YcTAhz05Hph5gvu9M='),
('test',
'{FSHP1|8|4096}MTIzNDU2NzjTdHcmoXwNc0f'
'f9+ArUHoN0CvlbPZpxFi1C6RDM/MHSA=='
),
('OrpheanBeholderScryDoubt',
'{FSHP1|8|4096}GVSUFDAjdh0vBosn1GUhz'
'GLHP7BmkbCZVH/3TQqGIjADXpc+6NCg3g=='
),
('ExecuteOrder66',
'{FSHP3|16|8192}0aY7rZQ+/PR+Rd5/I9ss'
'RM7cjguyT8ibypNaSp/U1uziNO3BVlg5qPU'
'ng+zHUDQC3ao/JbzOnIBUtAeWHEy7a2vZeZ'
'7jAwyJJa2EqOsq4Io='
),
]
known_unidentified_hashes = [
#bad char in otherwise correctly formatted hash
'{FSHX0|0|1}qUqP5cyxm6YcTAhz05Hph5gvu9M=',
'FSHP0|0|1}qUqP5cyxm6YcTAhz05Hph5gvu9M=',
]
known_malformed_hashes = [
#wrong salt size
'{FSHP0|1|1}qUqP5cyxm6YcTAhz05Hph5gvu9M=',
#bad rounds
'{FSHP0|0|A}qUqP5cyxm6YcTAhz05Hph5gvu9M=',
]
#=========================================================
#hex digests
#=========================================================
from passlib.handlers import digests
class HexMd4Test(HandlerCase):
handler = digests.hex_md4
known_correct_hashes = [ ("password", '8a9d093f14f8701df17732b2bb182c74')]
class HexMd5Test(HandlerCase):
handler = digests.hex_md5
known_correct_hashes = [ ("password", '5f4dcc3b5aa765d61d8327deb882cf99')]
class HexSha1Test(HandlerCase):
handler = digests.hex_sha1
known_correct_hashes = [ ("password", '5baa61e4c9b93f3f0682250b6cf8331b7ee68fd8')]
class HexSha256Test(HandlerCase):
handler = digests.hex_sha256
known_correct_hashes = [ ("password", '5e884898da28047151d0e56f8dc6292773603d0d6aabbdd62a11ef721d1542d8')]
class HexSha512Test(HandlerCase):
handler = digests.hex_sha512
known_correct_hashes = [ ("password", 'b109f3bbbc244eb82441917ed06d618b9008dd09b3befd1b5e07394c706a8bb980b1d7785e5976ec049b46df5f1326af5a2ea6d103fd07c95385ffab0cacbc86')]
#=========================================================
#ldap hashes
#=========================================================
from passlib.handlers import ldap_digests
class LdapMd5Test(HandlerCase):
handler = ldap_digests.ldap_md5
known_correct_hashes = [ ("helloworld", '{MD5}/F4DjTilcDIIVEHn/nAQsA==')]
class LdapSha1Test(HandlerCase):
handler = ldap_digests.ldap_sha1
known_correct_hashes = [ ("helloworld", '{SHA}at+xg6SiyUovktq1redipHiJpaE=')]
class LdapSaltedMd5Test(HandlerCase):
handler = ldap_digests.ldap_salted_md5
known_correct_hashes = [ ("testing1234", '{SMD5}UjFY34os/pnZQ3oQOzjqGu4yeXE=')]
class LdapSaltedSha1Test(HandlerCase):
handler = ldap_digests.ldap_salted_sha1
known_correct_hashes = [ ("testing123", '{SSHA}0c0blFTXXNuAMHECS4uxrj3ZieMoWImr'),
("secret", "{SSHA}0H+zTv8o4MR4H43n03eCsvw1luG8LdB7"),
]
class LdapPlaintextTest(HandlerCase):
handler = ldap_digests.ldap_plaintext
known_correct_hashes = [ ("password", 'password') ]
known_unidentified_hashes = [ "{FOO}bar" ]
known_other_hashes = [ ("ldap_md5", "{MD5}/F4DjTilcDIIVEHn/nAQsA==")]
#NOTE: since the ldap_{crypt} handlers are all wrappers,
# don't need separate test. have just one for end-to-end testing purposes.
class _LdapMd5CryptTest(HandlerCase):
handler = ldap_digests.ldap_md5_crypt
known_correct_hashes = [
('', '{CRYPT}$1$dOHYPKoP$tnxS1T8Q6VVn3kpV8cN6o.'),
(' ', '{CRYPT}$1$m/5ee7ol$bZn0kIBFipq39e.KDXX8I0'),
('test', '{CRYPT}$1$ec6XvcoW$ghEtNK2U1MC5l.Dwgi3020'),
('Compl3X AlphaNu3meric', '{CRYPT}$1$nX1e7EeI$ljQn72ZUgt6Wxd9hfvHdV0'),
('4lpHa N|_|M3r1K W/ Cur5Es: #$%(*)(*%#', '{CRYPT}$1$jQS7o98J$V6iTcr71CGgwW2laf17pi1'),
('test', '{CRYPT}$1$SuMrG47N$ymvzYjr7QcEQjaK5m1PGx1'),
]
known_malformed_hashes = [
#bad char in otherwise correct hash
'{CRYPT}$1$dOHYPKoP$tnxS1T8Q6VVn3kpV8cN6o!',
]
OsCrypt_LdapMd5CryptTest = create_backend_case(_LdapMd5CryptTest, "os_crypt")
Builtin_LdapMd5CryptTest = create_backend_case(_LdapMd5CryptTest, "builtin")
#=========================================================
#ldap_pbkdf2_{digest}
#=========================================================
from passlib.handlers import pbkdf2 as pk2
#NOTE: since these are all wrappers for the pbkdf2_{digest} hasehs,
# they don't extensive separate testing.
class LdapPbkdf2Test(TestCase):
def test_wrappers(self):
"test ldap pbkdf2 wrappers"
self.assertTrue(
pk2.ldap_pbkdf2_sha1.verify(
"password",
'{PBKDF2}1212$OB.dtnSEXZK8U5cgxU/GYQ$y5LKPOplRmok7CZp/aqVDVg8zGI',
)
)
self.assertTrue(
pk2.ldap_pbkdf2_sha256.verify(
"password",
'{PBKDF2-SHA256}1212$4vjV83LKPjQzk31VI4E0Vw$hsYF68OiOUPdDZ1Fg'
'.fJPeq1h/gXXY7acBp9/6c.tmQ'
)
)
self.assertTrue(
pk2.ldap_pbkdf2_sha512.verify(
"password",
'{PBKDF2-SHA512}1212$RHY0Fr3IDMSVO/RSZyb5ow$eNLfBK.eVozomMr.1gYa1'
'7k9B7KIK25NOEshvhrSX.esqY3s.FvWZViXz4KoLlQI.BzY/YTNJOiKc5gBYFYGww'
)
)
#=========================================================
#md5 crypt
#=========================================================
from passlib.handlers.md5_crypt import md5_crypt, raw_md5_crypt
class _Md5CryptTest(HandlerCase):
handler = md5_crypt
known_correct_hashes = [
#NOTE: would need to patch HandlerCase to coerce hashes
#to_hash_str() for this first one to work under py3.
## ('', b('$1$dOHYPKoP$tnxS1T8Q6VVn3kpV8cN6o.')),
('', '$1$dOHYPKoP$tnxS1T8Q6VVn3kpV8cN6o.'),
(' ', '$1$m/5ee7ol$bZn0kIBFipq39e.KDXX8I0'),
('test', '$1$ec6XvcoW$ghEtNK2U1MC5l.Dwgi3020'),
('Compl3X AlphaNu3meric', '$1$nX1e7EeI$ljQn72ZUgt6Wxd9hfvHdV0'),
('4lpHa N|_|M3r1K W/ Cur5Es: #$%(*)(*%#', '$1$jQS7o98J$V6iTcr71CGgwW2laf17pi1'),
('test', '$1$SuMrG47N$ymvzYjr7QcEQjaK5m1PGx1'),
(b('test'), '$1$SuMrG47N$ymvzYjr7QcEQjaK5m1PGx1'),
]
known_malformed_hashes = [
#bad char in otherwise correct hash
'$1$dOHYPKoP$tnxS1T8Q6VVn3kpV8cN6o!',
]
def test_raw(self):
self.assertEqual(raw_md5_crypt(u's',u's'*16), u'YgmLTApYTv12qgTwBoj8i/')
OsCrypt_Md5CryptTest = create_backend_case(_Md5CryptTest, "os_crypt")
Builtin_Md5CryptTest = create_backend_case(_Md5CryptTest, "builtin")
#=========================================================
#mysql 323 & 41
#=========================================================
from passlib.handlers.mysql import mysql323, mysql41
class Mysql323Test(HandlerCase):
handler = mysql323
known_correct_hashes = [
('mypass', '6f8c114b58f2ce9e'),
]
known_unidentified_hashes = [
#bad char in otherwise correct hash
'6z8c114b58f2ce9e',
]
def test_whitespace(self):
"check whitespace is ignored per spec"
h = self.do_encrypt("mypass")
h2 = self.do_encrypt("my pass")
self.assertEqual(h, h2)
class Mysql41Test(HandlerCase):
handler = mysql41
known_correct_hashes = [
('mypass', '*6C8989366EAF75BB670AD8EA7A7FC1176A95CEF4'),
]
known_unidentified_hashes = [
#bad char in otherwise correct hash
'*6Z8989366EAF75BB670AD8EA7A7FC1176A95CEF4',
]
#=========================================================
#NTHASH for unix
#=========================================================
from passlib.handlers.nthash import nthash
class NTHashTest(HandlerCase):
handler = nthash
known_correct_hashes = [
('passphrase', '$3$$7f8fe03093cc84b267b109625f6bbf4b'),
('passphrase', '$NT$7f8fe03093cc84b267b109625f6bbf4b'),
]
known_malformed_hashes = [
#bad char in otherwise correct hash
'$3$$7f8fe03093cc84b267b109625f6bbfxb',
]
def test_idents(self):
handler = self.handler
kwds = dict(checksum='7f8fe03093cc84b267b109625f6bbf4b', ident="3", strict=True)
handler(**kwds)
kwds['ident'] = None
self.assertRaises(ValueError, handler, **kwds)
del kwds['strict']
kwds['ident'] = 'Q'
self.assertRaises(ValueError, handler, **kwds)
#=========================================================
#oracle 10 & 11
#=========================================================
from passlib.handlers.oracle import oracle10, oracle11
class Oracle10Test(HandlerCase):
handler = oracle10
known_correct_hashes = [
# ((secret,user),hash)
(('tiger', 'scott'), 'F894844C34402B67'),
((u'ttTiGGeR', u'ScO'), '7AA1A84E31ED7771'),
(("d_syspw", "SYSTEM"), '1B9F1F9A5CB9EB31'),
(("strat_passwd", "strat_user"), 'AEBEDBB4EFB5225B'),
#TODO: get more test vectors (especially ones which properly test unicode / non-ascii)
#existing vectors taken from - http://www.petefinnigan.com/default/default_password_list.htm
]
known_unidentified_hashes = [
#bad 'z' char in otherwise correct hash
'F894844C34402B6Z',
]
def test_user(self):
"check user kwd is required for encrypt/verify"
self.assertRaises(TypeError, self.handler.encrypt, 'mypass')
self.assertRaises(ValueError, self.handler.encrypt, 'mypass', None)
self.assertRaises(TypeError, self.handler.verify, 'mypass', 'CC60FA650C497E52')
#NOTE: all of the methods below are merely to override
# the default test harness in order to insert a default username
# when encrypt/verify/etc are called.
def create_mismatch(self, secret):
if isinstance(secret, tuple):
secret, user = secret
return 'x' + secret, user
else:
return 'x' + secret
def do_encrypt(self, secret, **kwds):
if isinstance(secret, tuple):
secret, user = secret
else:
user = 'default'
assert 'user' not in kwds
kwds['user'] = user
return self.handler.encrypt(secret, **kwds)
def do_verify(self, secret, hash):
if isinstance(secret, tuple):
secret, user = secret
else:
user = 'default'
return self.handler.verify(secret, hash, user=user)
def do_genhash(self, secret, config):
if isinstance(secret, tuple):
secret, user = secret
else:
user = 'default'
return self.handler.genhash(secret, config, user=user)
class Oracle11Test(HandlerCase):
handler = oracle11
known_correct_hashes = [
("SHAlala", "S:2BFCFDF5895014EE9BB2B9BA067B01E0389BB5711B7B5F82B7235E9E182C"),
#TODO: find more test vectors
]
#=========================================================
#pbkdf2 hashes
#=========================================================
from passlib.handlers import pbkdf2 as pk2
class AtlassianPbkdf2Sha1Test(HandlerCase):
handler = pk2.atlassian_pbkdf2_sha1
known_correct_hashes = [
("admin", '{PKCS5S2}c4xaeTQM0lUieMS3V5voiexyX9XhqC2dBd5ecVy60IPksHChwoTAVYFrhsgoq8/p'),
(u'\u0399\u03c9\u03b1\u03bd\u03bd\u03b7\u03c2',
"{PKCS5S2}cE9Yq6Am5tQGdHSHhky2XLeOnURwzaLBG2sur7FHKpvy2u0qDn6GcVGRjlmJoIUy"),
]
known_malformed_hashes = [
#bad char
'{PKCS5S2}c4xaeTQM0lUieMS3V5voiexyX9XhqC2dBd5ecVy60IPksHChwoTAVYFrhsgoq!/p'
#bad size, missing padding
'{PKCS5S2}c4xaeTQM0lUieMS3V5voiexyX9XhqC2dBd5ecVy60IPksHChwoTAVYFrhsgoq8/'
#bad size, with correct padding
'{PKCS5S2}c4xaeTQM0lUieMS3V5voiexyX9XhqC2dBd5ecVy60IPksHChwoTAVYFrhsgoq8/='
]
class Pbkdf2Sha1Test(HandlerCase):
handler = pk2.pbkdf2_sha1
known_correct_hashes = [
("password", '$pbkdf2$1212$OB.dtnSEXZK8U5cgxU/GYQ$y5LKPOplRmok7CZp/aqVDVg8zGI'),
(u'\u0399\u03c9\u03b1\u03bd\u03bd\u03b7\u03c2',
'$pbkdf2$1212$THDqatpidANpadlLeTeOEg$HV3oi1k5C5LQCgG1BMOL.BX4YZc'),
]
class Pbkdf2Sha256Test(HandlerCase):
handler = pk2.pbkdf2_sha256
known_correct_hashes = [
("password",
'$pbkdf2-sha256$1212$4vjV83LKPjQzk31VI4E0Vw$hsYF68OiOUPdDZ1Fg.fJPeq1h/gXXY7acBp9/6c.tmQ'
),
(u'\u0399\u03c9\u03b1\u03bd\u03bd\u03b7\u03c2',
'$pbkdf2-sha256$1212$3SABFJGDtyhrQMVt1uABPw$WyaUoqCLgvz97s523nF4iuOqZNbp5Nt8do/cuaa7AiI'
),
]
class Pbkdf2Sha512Test(HandlerCase):
handler = pk2.pbkdf2_sha512
known_correct_hashes = [
("password",
'$pbkdf2-sha512$1212$RHY0Fr3IDMSVO/RSZyb5ow$eNLfBK.eVozomMr.1gYa1'
'7k9B7KIK25NOEshvhrSX.esqY3s.FvWZViXz4KoLlQI.BzY/YTNJOiKc5gBYFYGww'
),
(u'\u0399\u03c9\u03b1\u03bd\u03bd\u03b7\u03c2',
'$pbkdf2-sha512$1212$KkbvoKGsAIcF8IslDR6skQ$8be/PRmd88Ps8fmPowCJt'
'tH9G3vgxpG.Krjt3KT.NP6cKJ0V4Prarqf.HBwz0dCkJ6xgWnSj2ynXSV7MlvMa8Q'
),
]
class CtaPbkdf2Sha1Test(HandlerCase):
handler = pk2.cta_pbkdf2_sha1
known_correct_hashes = [
#test vectors from original implementation
(u"hashy the \N{SNOWMAN}", '$p5k2$1000$ZxK4ZBJCfQg=$jJZVscWtO--p1-xIZl6jhO2LKR0='),
#additional test vectors
("password", "$p5k2$1$$h1TDLGSw9ST8UMAPeIE13i0t12c="),
(u'\u0399\u03c9\u03b1\u03bd\u03bd\u03b7\u03c2',
"$p5k2$4321$OTg3NjU0MzIx$jINJrSvZ3LXeIbUdrJkRpN62_WQ="),
]
class DlitzPbkdf2Sha1Test(HandlerCase):
handler = pk2.dlitz_pbkdf2_sha1
known_correct_hashes = [
#test vectors from original implementation
('cloadm', '$p5k2$$exec$r1EWMCMk7Rlv3L/RNcFXviDefYa0hlql'),
('gnu', '$p5k2$c$u9HvcT4d$Sd1gwSVCLZYAuqZ25piRnbBEoAesaa/g'),
('dcl', '$p5k2$d$tUsch7fU$nqDkaxMDOFBeJsTSfABsyn.PYUXilHwL'),
('spam', '$p5k2$3e8$H0NX9mT/$wk/sE8vv6OMKuMaqazCJYDSUhWY9YB2J'),
(u'\u0399\u03c9\u03b1\u03bd\u03bd\u03b7\u03c2',
'$p5k2$$KosHgqNo$9mjN8gqjt02hDoP0c2J0ABtLIwtot8cQ'),
]
class GrubPbkdf2Sha512Test(HandlerCase):
handler = pk2.grub_pbkdf2_sha512
known_correct_hashes = [
#test vectors generated from cmd line tool
#salt=32 bytes
(u'\u0399\u03c9\u03b1\u03bd\u03bd\u03b7\u03c2',
'grub.pbkdf2.sha512.10000.BCAC1CEC5E4341C8C511C529'
'7FA877BE91C2817B32A35A3ECF5CA6B8B257F751.6968526A'
'2A5B1AEEE0A29A9E057336B48D388FFB3F600233237223C21'
'04DE1752CEC35B0DD1ED49563398A282C0F471099C2803FBA'
'47C7919CABC43192C68F60'),
#salt=64 bytes
('toomanysecrets',
'grub.pbkdf2.sha512.10000.9B436BB6978682363D5C449B'
'BEAB322676946C632208BC1294D51F47174A9A3B04A7E4785'
'986CD4EA7470FAB8FE9F6BD522D1FC6C51109A8596FB7AD48'
'7C4493.0FE5EF169AFFCB67D86E2581B1E251D88C777B98BA'
'2D3256ECC9F765D84956FC5CA5C4B6FD711AA285F0A04DCF4'
'634083F9A20F4B6F339A52FBD6BED618E527B'),
]
#=========================================================
#PHPass Portable Crypt
#=========================================================
from passlib.handlers.phpass import phpass
class PHPassTest(HandlerCase):
handler = phpass
known_correct_hashes = [
('', '$P$7JaFQsPzJSuenezefD/3jHgt5hVfNH0'),
('compL3X!', '$P$FiS0N5L672xzQx1rt1vgdJQRYKnQM9/'),
('test12345', '$P$9IQRaTwmfeRo7ud9Fh4E2PdI0S3r.L0'), #from the source
]
known_malformed_hashes = [
#bad char in otherwise correct hash
'$P$9IQRaTwmfeRo7ud9Fh4E2PdI0S3r!L0',
]
def test_idents(self):
handler = self.handler
kwds = dict(checksum='eRo7ud9Fh4E2PdI0S3r.L0', salt='IQRaTwmf', rounds=9, ident="P", strict=True)
handler(**kwds)
kwds['ident'] = None
self.assertRaises(ValueError, handler, **kwds)
del kwds['strict']
kwds['ident'] = 'Q'
self.assertRaises(ValueError, handler, **kwds)
#=========================================================
#plaintext
#=========================================================
from passlib.handlers.misc import plaintext
class PlaintextTest(HandlerCase):
handler = plaintext
known_correct_hashes = [
('',''),
('password', 'password'),
]
known_other_hashes = [] #all strings are identified as belonging to this scheme
accepts_empty_hash = True
#=========================================================
#postgres_md5
#=========================================================
from passlib.handlers.postgres import postgres_md5
class PostgresMD5CryptTest(HandlerCase):
handler = postgres_md5
known_correct_hashes = [
# ((secret,user),hash)
(('mypass', 'postgres'), 'md55fba2ea04fd36069d2574ea71c8efe9d'),
(('mypass', 'root'), 'md540c31989b20437833f697e485811254b'),
(("testpassword",'testuser'), 'md5d4fc5129cc2c25465a5370113ae9835f'),
]
known_unidentified_hashes = [
#bad 'z' char in otherwise correct hash
'md54zc31989b20437833f697e485811254b',
]
#NOTE: used to support secret=(password, user) format, but removed it for now.
##def test_tuple_mode(self):
## "check tuple mode works for encrypt/verify"
## self.assertEqual(self.handler.encrypt(('mypass', 'postgres')),
## 'md55fba2ea04fd36069d2574ea71c8efe9d')
## self.assertEqual(self.handler.verify(('mypass', 'postgres'),
## 'md55fba2ea04fd36069d2574ea71c8efe9d'), True)
def test_user(self):
"check user kwd is required for encrypt/verify"
self.handler.encrypt("mypass", u'user')
self.assertRaises(TypeError, self.handler.encrypt, 'mypass')
self.assertRaises(ValueError, self.handler.encrypt, 'mypass', None)
self.assertRaises(TypeError, self.handler.verify, 'mypass', 'md55fba2ea04fd36069d2574ea71c8efe9d')
def create_mismatch(self, secret):
if isinstance(secret, tuple):
secret, user = secret
return 'x' + secret, user
else:
return 'x' + secret
def do_encrypt(self, secret, **kwds):
if isinstance(secret, tuple):
secret, user = secret
else:
user = 'default'
assert 'user' not in kwds
kwds['user'] = user
return self.handler.encrypt(secret, **kwds)
def do_verify(self, secret, hash):
if isinstance(secret, tuple):
secret, user = secret
else:
user = 'default'
return self.handler.verify(secret, hash, user=user)
def do_genhash(self, secret, config):
if isinstance(secret, tuple):
secret, user = secret
else:
user = 'default'
return self.handler.genhash(secret, config, user=user)
#=========================================================
# (netbsd's) sha1 crypt
#=========================================================
class _SHA1CryptTest(HandlerCase):
handler = hash.sha1_crypt
known_correct_hashes = [
("password", "$sha1$19703$iVdJqfSE$v4qYKl1zqYThwpjJAoKX6UvlHq/a"),
("password", "$sha1$21773$uV7PTeux$I9oHnvwPZHMO0Nq6/WgyGV/tDJIH"),
]
known_malformed_hashes = [
#bad char in otherwise correct hash
'$sha1$21773$u!7PTeux$I9oHnvwPZHMO0Nq6/WgyGV/tDJIH',
#zero padded rounds
'$sha1$01773$uV7PTeux$I9oHnvwPZHMO0Nq6/WgyGV/tDJIH',
]
OsCrypt_SHA1CryptTest = create_backend_case(_SHA1CryptTest, "os_crypt")
Builtin_SHA1CryptTest = create_backend_case(_SHA1CryptTest, "builtin")
#=========================================================
#roundup
#=========================================================
#NOTE: all roundup hashes use PrefixWrapper,
# so there's nothing natively to test.
# so we just have a few quick cases...
from passlib.handlers import roundup
class RoundupTest(TestCase):
def _test_pair(self, h, secret, hash):
self.assertTrue(h.verify(secret, hash))
self.assertFalse(h.verify('x'+secret, hash))
def test_pairs(self):
self._test_pair(
roundup.ldap_hex_sha1,
"sekrit",
'{SHA}8d42e738c7adee551324955458b5e2c0b49ee655')
self._test_pair(
roundup.ldap_hex_md5,
"sekrit",
'{MD5}ccbc53f4464604e714f69dd11138d8b5')
self._test_pair(
ldap_digests.ldap_des_crypt,
"sekrit",
'{CRYPT}nFia0rj2TT59A')
self._test_pair(
roundup.roundup_plaintext,
"sekrit",
'{plaintext}sekrit')
self._test_pair(
pk2.ldap_pbkdf2_sha1,
"sekrit",
'{PBKDF2}5000$7BvbBq.EZzz/O0HuwX3iP.nAG3s$g3oPnFFaga2BJaX5PoPRljl4XIE')
#=========================================================
#sha256-crypt
#=========================================================
from passlib.handlers.sha2_crypt import sha256_crypt, raw_sha_crypt
class _SHA256CryptTest(HandlerCase):
handler = sha256_crypt
known_correct_hashes = [
('', '$5$rounds=10428$uy/jIAhCetNCTtb0$YWvUOXbkqlqhyoPMpN8BMe.ZGsGx2aBvxTvDFI613c3'),
(' ', '$5$rounds=10376$I5lNtXtRmf.OoMd8$Ko3AI1VvTANdyKhBPavaRjJzNpSatKU6QVN9uwS9MH.'),
('test', '$5$rounds=11858$WH1ABM5sKhxbkgCK$aTQsjPkz0rBsH3lQlJxw9HDTDXPKBxC0LlVeV69P.t1'),
('Compl3X AlphaNu3meric', '$5$rounds=10350$o.pwkySLCzwTdmQX$nCMVsnF3TXWcBPOympBUUSQi6LGGloZoOsVJMGJ09UB'),
('4lpHa N|_|M3r1K W/ Cur5Es: #$%(*)(*%#', '$5$rounds=11944$9dhlu07dQMRWvTId$LyUI5VWkGFwASlzntk1RLurxX54LUhgAcJZIt0pYGT7'),
(u'with unic\u00D6de', '$5$rounds=1000$IbG0EuGQXw5EkMdP$LQ5AfPf13KufFsKtmazqnzSGZ4pxtUNw3woQ.ELRDF4'),
]
known_malformed_hashes = [
#bad char in otherwise correct hash
'$5$rounds=10428$uy/:jIAhCetNCTtb0$YWvUOXbkqlqhyoPMpN8BMeZGsGx2aBvxTvDFI613c3',
#zero-padded rounds
'$5$rounds=010428$uy/jIAhCetNCTtb0$YWvUOXbkqlqhyoPMpN8BMe.ZGsGx2aBvxTvDFI613c3',
]
#NOTE: these test cases taken from official specification at http://www.akkadia.org/drepper/SHA-crypt.txt
known_correct_configs = [
#config, secret, result
( "$5$saltstring", "Hello world!",
"$5$saltstring$5B8vYYiY.CVt1RlTTf8KbXBH3hsxY/GNooZaBBGWEc5" ),
( "$5$rounds=10000$saltstringsaltstring", "Hello world!",
"$5$rounds=10000$saltstringsaltst$3xv.VbSHBb41AL9AvLeujZkZRBAwqFMz2."
"opqey6IcA" ),
( "$5$rounds=5000$toolongsaltstring", "This is just a test",
"$5$rounds=5000$toolongsaltstrin$Un/5jzAHMgOGZ5.mWJpuVolil07guHPvOW8"
"mGRcvxa5" ),
( "$5$rounds=1400$anotherlongsaltstring",
"a very much longer text to encrypt. This one even stretches over more"
"than one line.",
"$5$rounds=1400$anotherlongsalts$Rx.j8H.h8HjEDGomFU8bDkXm3XIUnzyxf12"
"oP84Bnq1" ),
( "$5$rounds=77777$short",
"we have a short salt string but not a short password",
"$5$rounds=77777$short$JiO1O3ZpDAxGJeaDIuqCoEFysAe1mZNJRs3pw0KQRd/" ),
( "$5$rounds=123456$asaltof16chars..", "a short string",
"$5$rounds=123456$asaltof16chars..$gP3VQ/6X7UUEW3HkBn2w1/Ptq2jxPyzV/"
"cZKmF/wJvD" ),
( "$5$rounds=10$roundstoolow", "the minimum number is still observed",
"$5$rounds=1000$roundstoolow$yfvwcWrQ8l/K0DAWyuPMDNHpIVlTQebY9l/gL97"
"2bIC" ),
]
def filter_known_config_warnings(self):
warnings.filterwarnings("ignore", "sha256_crypt does not allow less than 1000 rounds: 10", UserWarning)
def test_raw(self):
#run some tests on raw backend func to ensure it works right
self.assertEqual(
raw_sha_crypt(b('secret'), b('salt')*10, 1, hashlib.md5),
(b('\x1f\x96\x1cO\x11\xa9h\x12\xc4\xf3\x9c\xee\xf5\x93\xf3\xdd'),
b('saltsaltsaltsalt'),
1000)
)
self.assertRaises(ValueError, raw_sha_crypt, b('secret'), b('$'), 1, hashlib.md5)
OsCrypt_SHA256CryptTest = create_backend_case(_SHA256CryptTest, "os_crypt")
Builtin_SHA256CryptTest = create_backend_case(_SHA256CryptTest, "builtin")
#=========================================================
#test sha512-crypt
#=========================================================
from passlib.handlers.sha2_crypt import sha512_crypt
class _SHA512CryptTest(HandlerCase):
handler = sha512_crypt
known_correct_hashes = [
('', '$6$rounds=11021$KsvQipYPWpr93wWP$v7xjI4X6vyVptJjB1Y02vZC5SaSijBkGmq1uJhPr3cvqvvkd42Xvo48yLVPFt8dvhCsnlUgpX.//Cxn91H4qy1'),
(' ', '$6$rounds=11104$ED9SA4qGmd57Fq2m$q/.PqACDM/JpAHKmr86nkPzzuR5.YpYa8ZJJvI8Zd89ZPUYTJExsFEIuTYbM7gAGcQtTkCEhBKmp1S1QZwaXx0'),
('test', '$6$rounds=11531$G/gkPn17kHYo0gTF$Kq.uZBHlSBXyzsOJXtxJruOOH4yc0Is13uY7yK0PvAvXxbvc1w8DO1RzREMhKsc82K/Jh8OquV8FZUlreYPJk1'),
('Compl3X AlphaNu3meric', '$6$rounds=10787$wakX8nGKEzgJ4Scy$X78uqaX1wYXcSCtS4BVYw2trWkvpa8p7lkAtS9O/6045fK4UB2/Jia0Uy/KzCpODlfVxVNZzCCoV9s2hoLfDs/'),
('4lpHa N|_|M3r1K W/ Cur5Es: #$%(*)(*%#', '$6$rounds=11065$5KXQoE1bztkY5IZr$Jf6krQSUKKOlKca4hSW07MSerFFzVIZt/N3rOTsUgKqp7cUdHrwV8MoIVNCk9q9WL3ZRMsdbwNXpVk0gVxKtz1'),
]
known_malformed_hashes = [
#zero-padded rounds
'$6$rounds=011021$KsvQipYPWpr93wWP$v7xjI4X6vyVptJjB1Y02vZC5SaSijBkGmq1uJhPr3cvqvvkd42Xvo48yLVPFt8dvhCsnlUgpX.//Cxn91H4qy1',
#bad char in otherwise correct hash
'$6$rounds=11021$KsvQipYPWpr9:wWP$v7xjI4X6vyVptJjB1Y02vZC5SaSijBkGmq1uJhPr3cvqvvkd42Xvo48yLVPFt8dvhCsnlUgpX.//Cxn91H4qy1',
]
#NOTE: these test cases taken from official specification at http://www.akkadia.org/drepper/SHA-crypt.txt
known_correct_configs = [
#config, secret, result
("$6$saltstring", "Hello world!",
"$6$saltstring$svn8UoSVapNtMuq1ukKS4tPQd8iKwSMHWjl/O817G3uBnIFNjnQJu"
"esI68u4OTLiBFdcbYEdFCoEOfaS35inz1" ),
( "$6$rounds=10000$saltstringsaltstring", "Hello world!",
"$6$rounds=10000$saltstringsaltst$OW1/O6BYHV6BcXZu8QVeXbDWra3Oeqh0sb"
"HbbMCVNSnCM/UrjmM0Dp8vOuZeHBy/YTBmSK6H9qs/y3RnOaw5v." ),
( "$6$rounds=5000$toolongsaltstring", "This is just a test",
"$6$rounds=5000$toolongsaltstrin$lQ8jolhgVRVhY4b5pZKaysCLi0QBxGoNeKQ"
"zQ3glMhwllF7oGDZxUhx1yxdYcz/e1JSbq3y6JMxxl8audkUEm0" ),
( "$6$rounds=1400$anotherlongsaltstring",
"a very much longer text to encrypt. This one even stretches over more"
"than one line.",
"$6$rounds=1400$anotherlongsalts$POfYwTEok97VWcjxIiSOjiykti.o/pQs.wP"
"vMxQ6Fm7I6IoYN3CmLs66x9t0oSwbtEW7o7UmJEiDwGqd8p4ur1" ),
( "$6$rounds=77777$short",
"we have a short salt string but not a short password",
"$6$rounds=77777$short$WuQyW2YR.hBNpjjRhpYD/ifIw05xdfeEyQoMxIXbkvr0g"
"ge1a1x3yRULJ5CCaUeOxFmtlcGZelFl5CxtgfiAc0" ),
( "$6$rounds=123456$asaltof16chars..", "a short string",
"$6$rounds=123456$asaltof16chars..$BtCwjqMJGx5hrJhZywWvt0RLE8uZ4oPwc"
"elCjmw2kSYu.Ec6ycULevoBK25fs2xXgMNrCzIMVcgEJAstJeonj1" ),
( "$6$rounds=10$roundstoolow", "the minimum number is still observed",
"$6$rounds=1000$roundstoolow$kUMsbe306n21p9R.FRkW3IGn.S9NPN0x50YhH1x"
"hLsPuWGsUSklZt58jaTfF4ZEQpyUNGc0dqbpBYYBaHHrsX." ),
]
def filter_known_config_warnings(self):
warnings.filterwarnings("ignore", "sha512_crypt does not allow less than 1000 rounds: 10", UserWarning)
OsCrypt_SHA512CryptTest = create_backend_case(_SHA512CryptTest, "os_crypt")
Builtin_SHA512CryptTest = create_backend_case(_SHA512CryptTest, "builtin")
#=========================================================
#sun md5 crypt
#=========================================================
from passlib.handlers.sun_md5_crypt import sun_md5_crypt, raw_sun_md5_crypt
class SunMD5CryptTest(HandlerCase):
handler = sun_md5_crypt
known_correct_hashes = [
#TODO: this scheme needs some real test vectors,
# especially due to the "bare salt" issue.
#--------------------------------------
#sample hashes culled from web messages
#--------------------------------------
#http://forums.halcyoninc.com/showthread.php?t=258
("Gpcs3_adm", "$md5$zrdhpMlZ$$wBvMOEqbSjU.hu5T2VEP01"),
#http://www.c0t0d0s0.org/archives/4453-Less-known-Solaris-features-On-passwords-Part-2-Using-stronger-password-hashing.html
("aa12345678", "$md5$vyy8.OVF$$FY4TWzuauRl4.VQNobqMY."),
#http://www.cuddletech.com/blog/pivot/entry.php?id=778
("this", "$md5$3UqYqndY$$6P.aaWOoucxxq.l00SS9k0"),
#http://compgroups.net/comp.unix.solaris/password-file-in-linux-and-solaris-8-9
("passwd", "$md5$RPgLF6IJ$WTvAlUJ7MqH5xak2FMEwS/"),
#-------------------------------
#potential sample hashes - all have issues
#-------------------------------
#source: http://solaris-training.com/301_HTML/docs/deepdiv.pdf page 27
#FIXME: password unknown
#"$md5,rounds=8000$kS9FT1JC$$mnUrRO618lLah5iazwJ9m1"
#source: http://www.visualexams.com/310-303.htm
#XXX: this has 9 salt chars unlike all other hashes. is that valid?
#FIXME: password unknown
#"$md5,rounds=2006$2amXesSj5$$kCF48vfPsHDjlKNXeEw7V."
]
known_correct_configs = [
#(config, secret, hash)
#---------------------------
#test salt string handling
#
#these tests attempt to verify that passlib is handling
#the "bare salt" issue (see sun md5 crypt docs)
#in a sane manner
#---------------------------
#config with "$" suffix, hash strings with "$$" suffix,
# should all be treated the same, with one "$" added to salt digest.
("$md5$3UqYqndY$",
"this", "$md5$3UqYqndY$$6P.aaWOoucxxq.l00SS9k0"),
("$md5$3UqYqndY$$x",
"this", "$md5$3UqYqndY$$6P.aaWOoucxxq.l00SS9k0"),
#config with no suffix, hash strings with "$" suffix,
# should all be treated the same, and no suffix added to salt digest.
#NOTE: this is just a guess re: config w/ no suffix,
# but otherwise there's no sane way to encode bare_salt=False
# within config string.
("$md5$RPgLF6IJ",
"passwd", "$md5$RPgLF6IJ$WTvAlUJ7MqH5xak2FMEwS/"),
("$md5$RPgLF6IJ$x",
"passwd", "$md5$RPgLF6IJ$WTvAlUJ7MqH5xak2FMEwS/"),
]
known_malformed_hashes = [
#bad char in otherwise correct hash
"$md5$RPgL!6IJ$WTvAlUJ7MqH5xak2FMEwS/",
#2+ "$" at end of salt in config
#NOTE: not sure what correct behavior is, so forbidding format for now.
"$md5$3UqYqndY$$",
#3+ "$" at end of salt in hash
#NOTE: not sure what correct behavior is, so forbidding format for now.
"$md5$RPgLa6IJ$$$WTvAlUJ7MqH5xak2FMEwS/",
]
#=========================================================
#unix fallback
#=========================================================
from passlib.handlers.misc import unix_fallback
class UnixFallbackTest(HandlerCase):
#NOTE: this class behaves VERY differently from a normal password hash,
#so we subclass & disable a number of the default tests.
#TODO: combine some of these features w/ django_disabled and other fallback handlers.
handler = unix_fallback
known_correct_hashes = [ ("passwordwc",""), ]
known_other_hashes = []
accepts_empty_hash = True
#NOTE: to ease testing, this sets enable_wildcard iff the string 'wc' is in the secret
def do_verify(self, secret, hash):
return self.handler.verify(secret, hash, enable_wildcard='wc' in secret)
def test_50_encrypt_plain(self):
"test encrypt() basic behavior"
secret = u"\u20AC\u00A5$"
result = self.do_encrypt(secret)
self.assertEqual(result, "!")
self.assertTrue(not self.do_verify(secret, result))
def test_wildcard(self):
"test enable_wildcard flag"
h = self.handler
self.assertTrue(h.verify('password','', enable_wildcard=True))
self.assertFalse(h.verify('password',''))
for c in ("!*x"):
self.assertFalse(h.verify('password',c, enable_wildcard=True))
self.assertFalse(h.verify('password',c))
#=========================================================
#EOF
#=========================================================
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