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"""passlib.tests.test_handlers - tests for passlib hash algorithms"""
#=============================================================================
# imports
#=============================================================================
# core
import logging
log = logging.getLogger(__name__)
import warnings
# site
# pkg
from passlib import hash
from passlib.utils.compat import u
from passlib.tests.utils import TestCase, HandlerCase
from passlib.tests.test_handlers import UPASS_WAV
# module
#=============================================================================
# ldap_pbkdf2_{digest}
#=============================================================================
# NOTE: since these are all wrappers for the pbkdf2_{digest} hasehs,
# they don't extensive separate testing.
class ldap_pbkdf2_test(TestCase):
def test_wrappers(self):
"""test ldap pbkdf2 wrappers"""
self.assertTrue(
hash.ldap_pbkdf2_sha1.verify(
"password",
'{PBKDF2}1212$OB.dtnSEXZK8U5cgxU/GYQ$y5LKPOplRmok7CZp/aqVDVg8zGI',
)
)
self.assertTrue(
hash.ldap_pbkdf2_sha256.verify(
"password",
'{PBKDF2-SHA256}1212$4vjV83LKPjQzk31VI4E0Vw$hsYF68OiOUPdDZ1Fg'
'.fJPeq1h/gXXY7acBp9/6c.tmQ'
)
)
self.assertTrue(
hash.ldap_pbkdf2_sha512.verify(
"password",
'{PBKDF2-SHA512}1212$RHY0Fr3IDMSVO/RSZyb5ow$eNLfBK.eVozomMr.1gYa1'
'7k9B7KIK25NOEshvhrSX.esqY3s.FvWZViXz4KoLlQI.BzY/YTNJOiKc5gBYFYGww'
)
)
#=============================================================================
# pbkdf2 hashes
#=============================================================================
class atlassian_pbkdf2_sha1_test(HandlerCase):
handler = hash.atlassian_pbkdf2_sha1
known_correct_hashes = [
#
# generated using Jira
#
("admin", '{PKCS5S2}c4xaeTQM0lUieMS3V5voiexyX9XhqC2dBd5ecVy60IPksHChwoTAVYFrhsgoq8/p'),
(UPASS_WAV,
"{PKCS5S2}cE9Yq6Am5tQGdHSHhky2XLeOnURwzaLBG2sur7FHKpvy2u0qDn6GcVGRjlmJoIUy"),
]
known_malformed_hashes = [
# bad char ---\/
'{PKCS5S2}c4xaeTQM0lUieMS3V5voiexyX9XhqC2dBd5ecVy!0IPksHChwoTAVYFrhsgoq8/p'
# bad size, missing padding
'{PKCS5S2}c4xaeTQM0lUieMS3V5voiexyX9XhqC2dBd5ecVy60IPksHChwoTAVYFrhsgoq8/'
# bad size, with correct padding
'{PKCS5S2}c4xaeTQM0lUieMS3V5voiexyX9XhqC2dBd5ecVy60IPksHChwoTAVYFrhsgoq8/='
]
class pbkdf2_sha1_test(HandlerCase):
handler = hash.pbkdf2_sha1
known_correct_hashes = [
("password", '$pbkdf2$1212$OB.dtnSEXZK8U5cgxU/GYQ$y5LKPOplRmok7CZp/aqVDVg8zGI'),
(UPASS_WAV,
'$pbkdf2$1212$THDqatpidANpadlLeTeOEg$HV3oi1k5C5LQCgG1BMOL.BX4YZc'),
]
known_malformed_hashes = [
# zero padded rounds field
'$pbkdf2$01212$THDqatpidANpadlLeTeOEg$HV3oi1k5C5LQCgG1BMOL.BX4YZc',
# empty rounds field
'$pbkdf2$$THDqatpidANpadlLeTeOEg$HV3oi1k5C5LQCgG1BMOL.BX4YZc',
# too many field
'$pbkdf2$1212$THDqatpidANpadlLeTeOEg$HV3oi1k5C5LQCgG1BMOL.BX4YZc$',
]
class pbkdf2_sha256_test(HandlerCase):
handler = hash.pbkdf2_sha256
known_correct_hashes = [
("password",
'$pbkdf2-sha256$1212$4vjV83LKPjQzk31VI4E0Vw$hsYF68OiOUPdDZ1Fg.fJPeq1h/gXXY7acBp9/6c.tmQ'
),
(UPASS_WAV,
'$pbkdf2-sha256$1212$3SABFJGDtyhrQMVt1uABPw$WyaUoqCLgvz97s523nF4iuOqZNbp5Nt8do/cuaa7AiI'
),
]
class pbkdf2_sha512_test(HandlerCase):
handler = hash.pbkdf2_sha512
known_correct_hashes = [
("password",
'$pbkdf2-sha512$1212$RHY0Fr3IDMSVO/RSZyb5ow$eNLfBK.eVozomMr.1gYa1'
'7k9B7KIK25NOEshvhrSX.esqY3s.FvWZViXz4KoLlQI.BzY/YTNJOiKc5gBYFYGww'
),
(UPASS_WAV,
'$pbkdf2-sha512$1212$KkbvoKGsAIcF8IslDR6skQ$8be/PRmd88Ps8fmPowCJt'
'tH9G3vgxpG.Krjt3KT.NP6cKJ0V4Prarqf.HBwz0dCkJ6xgWnSj2ynXSV7MlvMa8Q'
),
]
class cta_pbkdf2_sha1_test(HandlerCase):
handler = hash.cta_pbkdf2_sha1
known_correct_hashes = [
#
# test vectors from original implementation
#
(u("hashy the \N{SNOWMAN}"), '$p5k2$1000$ZxK4ZBJCfQg=$jJZVscWtO--p1-xIZl6jhO2LKR0='),
#
# custom
#
("password", "$p5k2$1$$h1TDLGSw9ST8UMAPeIE13i0t12c="),
(UPASS_WAV,
"$p5k2$4321$OTg3NjU0MzIx$jINJrSvZ3LXeIbUdrJkRpN62_WQ="),
]
class dlitz_pbkdf2_sha1_test(HandlerCase):
handler = hash.dlitz_pbkdf2_sha1
known_correct_hashes = [
#
# test vectors from original implementation
#
('cloadm', '$p5k2$$exec$r1EWMCMk7Rlv3L/RNcFXviDefYa0hlql'),
('gnu', '$p5k2$c$u9HvcT4d$Sd1gwSVCLZYAuqZ25piRnbBEoAesaa/g'),
('dcl', '$p5k2$d$tUsch7fU$nqDkaxMDOFBeJsTSfABsyn.PYUXilHwL'),
('spam', '$p5k2$3e8$H0NX9mT/$wk/sE8vv6OMKuMaqazCJYDSUhWY9YB2J'),
(UPASS_WAV,
'$p5k2$$KosHgqNo$9mjN8gqjt02hDoP0c2J0ABtLIwtot8cQ'),
]
class grub_pbkdf2_sha512_test(HandlerCase):
handler = hash.grub_pbkdf2_sha512
known_correct_hashes = [
#
# test vectors generated from cmd line tool
#
# salt=32 bytes
(UPASS_WAV,
'grub.pbkdf2.sha512.10000.BCAC1CEC5E4341C8C511C529'
'7FA877BE91C2817B32A35A3ECF5CA6B8B257F751.6968526A'
'2A5B1AEEE0A29A9E057336B48D388FFB3F600233237223C21'
'04DE1752CEC35B0DD1ED49563398A282C0F471099C2803FBA'
'47C7919CABC43192C68F60'),
# salt=64 bytes
('toomanysecrets',
'grub.pbkdf2.sha512.10000.9B436BB6978682363D5C449B'
'BEAB322676946C632208BC1294D51F47174A9A3B04A7E4785'
'986CD4EA7470FAB8FE9F6BD522D1FC6C51109A8596FB7AD48'
'7C4493.0FE5EF169AFFCB67D86E2581B1E251D88C777B98BA'
'2D3256ECC9F765D84956FC5CA5C4B6FD711AA285F0A04DCF4'
'634083F9A20F4B6F339A52FBD6BED618E527B'),
]
#=============================================================================
# scram hash
#=============================================================================
class scram_test(HandlerCase):
handler = hash.scram
# TODO: need a bunch more reference vectors from some real
# SCRAM transactions.
known_correct_hashes = [
#
# taken from example in SCRAM specification (rfc 5802)
#
('pencil', '$scram$4096$QSXCR.Q6sek8bf92$'
'sha-1=HZbuOlKbWl.eR8AfIposuKbhX30'),
#
# custom
#
# same as 5802 example hash, but with sha-256 & sha-512 added.
('pencil', '$scram$4096$QSXCR.Q6sek8bf92$'
'sha-1=HZbuOlKbWl.eR8AfIposuKbhX30,'
'sha-256=qXUXrlcvnaxxWG00DdRgVioR2gnUpuX5r.3EZ1rdhVY,'
'sha-512=lzgniLFcvglRLS0gt.C4gy.NurS3OIOVRAU1zZOV4P.qFiVFO2/'
'edGQSu/kD1LwdX0SNV/KsPdHSwEl5qRTuZQ'),
# test unicode passwords & saslprep (all the passwords below
# should normalize to the same value: 'IX \xE0')
(u('IX \xE0'), '$scram$6400$0BojBCBE6P2/N4bQ$'
'sha-1=YniLes.b8WFMvBhtSACZyyvxeCc'),
(u('\u2168\u3000a\u0300'), '$scram$6400$0BojBCBE6P2/N4bQ$'
'sha-1=YniLes.b8WFMvBhtSACZyyvxeCc'),
(u('\u00ADIX \xE0'), '$scram$6400$0BojBCBE6P2/N4bQ$'
'sha-1=YniLes.b8WFMvBhtSACZyyvxeCc'),
]
known_malformed_hashes = [
# zero-padding in rounds
'$scram$04096$QSXCR.Q6sek8bf92$sha-1=HZbuOlKbWl.eR8AfIposuKbhX30',
# non-digit in rounds
'$scram$409A$QSXCR.Q6sek8bf92$sha-1=HZbuOlKbWl.eR8AfIposuKbhX30',
# bad char in salt ---\/
'$scram$4096$QSXCR.Q6sek8bf9-$sha-1=HZbuOlKbWl.eR8AfIposuKbhX30',
# bad char in digest ---\/
'$scram$4096$QSXCR.Q6sek8bf92$sha-1=HZbuOlKbWl.eR8AfIposuKbhX3-',
# missing sections
'$scram$4096$QSXCR.Q6sek8bf92',
'$scram$4096$QSXCR.Q6sek8bf92$',
# too many sections
'$scram$4096$QSXCR.Q6sek8bf92$sha-1=HZbuOlKbWl.eR8AfIposuKbhX30$',
# missing separator
'$scram$4096$QSXCR.Q6sek8bf92$sha-1=HZbuOlKbWl.eR8AfIposuKbhX30'
'sha-256=qXUXrlcvnaxxWG00DdRgVioR2gnUpuX5r.3EZ1rdhVY',
# too many chars in alg name
'$scram$4096$QSXCR.Q6sek8bf92$sha-1=HZbuOlKbWl.eR8AfIposuKbhX30,'
'shaxxx-190=HZbuOlKbWl.eR8AfIposuKbhX30',
# missing sha-1 alg
'$scram$4096$QSXCR.Q6sek8bf92$sha-256=HZbuOlKbWl.eR8AfIposuKbhX30',
# non-iana name
'$scram$4096$QSXCR.Q6sek8bf92$sha1=HZbuOlKbWl.eR8AfIposuKbhX30',
]
def setUp(self):
super(scram_test, self).setUp()
# some platforms lack stringprep (e.g. Jython, IronPython)
self.require_stringprep()
# silence norm_hash_name() warning
warnings.filterwarnings("ignore", r"norm_hash_name\(\): unknown hash")
def test_90_algs(self):
"""test parsing of 'algs' setting"""
defaults = dict(salt=b'A'*10, rounds=1000)
def parse(algs, **kwds):
for k in defaults:
kwds.setdefault(k, defaults[k])
return self.handler(algs=algs, **kwds).algs
# None -> default list
self.assertEqual(parse(None, use_defaults=True), hash.scram.default_algs)
self.assertRaises(TypeError, parse, None)
# strings should be parsed
self.assertEqual(parse("sha1"), ["sha-1"])
self.assertEqual(parse("sha1, sha256, md5"), ["md5","sha-1","sha-256"])
# lists should be normalized
self.assertEqual(parse(["sha-1","sha256"]), ["sha-1","sha-256"])
# sha-1 required
self.assertRaises(ValueError, parse, ["sha-256"])
self.assertRaises(ValueError, parse, algs=[], use_defaults=True)
# alg names must be < 10 chars
self.assertRaises(ValueError, parse, ["sha-1","shaxxx-190"])
# alg & checksum mutually exclusive.
self.assertRaises(RuntimeError, parse, ['sha-1'],
checksum={"sha-1": b"\x00"*20})
def test_90_checksums(self):
"""test internal parsing of 'checksum' keyword"""
# check non-bytes checksum values are rejected
self.assertRaises(TypeError, self.handler, use_defaults=True,
checksum={'sha-1': u('X')*20})
# check sha-1 is required
self.assertRaises(ValueError, self.handler, use_defaults=True,
checksum={'sha-256': b'X'*32})
# XXX: anything else that's not tested by the other code already?
def test_91_extract_digest_info(self):
"""test scram.extract_digest_info()"""
edi = self.handler.extract_digest_info
# return appropriate value or throw KeyError
h = "$scram$10$AAAAAA$sha-1=AQ,bbb=Ag,ccc=Aw"
s = b'\x00'*4
self.assertEqual(edi(h,"SHA1"), (s,10, b'\x01'))
self.assertEqual(edi(h,"bbb"), (s,10, b'\x02'))
self.assertEqual(edi(h,"ccc"), (s,10, b'\x03'))
self.assertRaises(KeyError, edi, h, "ddd")
# config strings should cause value error.
c = "$scram$10$....$sha-1,bbb,ccc"
self.assertRaises(ValueError, edi, c, "sha-1")
self.assertRaises(ValueError, edi, c, "bbb")
self.assertRaises(ValueError, edi, c, "ddd")
def test_92_extract_digest_algs(self):
"""test scram.extract_digest_algs()"""
eda = self.handler.extract_digest_algs
self.assertEqual(eda('$scram$4096$QSXCR.Q6sek8bf92$'
'sha-1=HZbuOlKbWl.eR8AfIposuKbhX30'), ["sha-1"])
self.assertEqual(eda('$scram$4096$QSXCR.Q6sek8bf92$'
'sha-1=HZbuOlKbWl.eR8AfIposuKbhX30', format="hashlib"),
["sha1"])
self.assertEqual(eda('$scram$4096$QSXCR.Q6sek8bf92$'
'sha-1=HZbuOlKbWl.eR8AfIposuKbhX30,'
'sha-256=qXUXrlcvnaxxWG00DdRgVioR2gnUpuX5r.3EZ1rdhVY,'
'sha-512=lzgniLFcvglRLS0gt.C4gy.NurS3OIOVRAU1zZOV4P.qFiVFO2/'
'edGQSu/kD1LwdX0SNV/KsPdHSwEl5qRTuZQ'),
["sha-1","sha-256","sha-512"])
def test_93_derive_digest(self):
"""test scram.derive_digest()"""
# NOTE: this just does a light test, since derive_digest
# is used by hash / verify, and is tested pretty well via those.
hash = self.handler.derive_digest
# check various encodings of password work.
s1 = b'\x01\x02\x03'
d1 = b'\xb2\xfb\xab\x82[tNuPnI\x8aZZ\x19\x87\xcen\xe9\xd3'
self.assertEqual(hash(u("\u2168"), s1, 1000, 'sha-1'), d1)
self.assertEqual(hash(b"\xe2\x85\xa8", s1, 1000, 'SHA-1'), d1)
self.assertEqual(hash(u("IX"), s1, 1000, 'sha1'), d1)
self.assertEqual(hash(b"IX", s1, 1000, 'SHA1'), d1)
# check algs
self.assertEqual(hash("IX", s1, 1000, 'md5'),
b'3\x19\x18\xc0\x1c/\xa8\xbf\xe4\xa3\xc2\x8eM\xe8od')
self.assertRaises(ValueError, hash, "IX", s1, 1000, 'sha-666')
# check rounds
self.assertRaises(ValueError, hash, "IX", s1, 0, 'sha-1')
# unicode salts accepted as of passlib 1.7 (previous caused TypeError)
self.assertEqual(hash(u("IX"), s1.decode("latin-1"), 1000, 'sha1'), d1)
def test_94_saslprep(self):
"""test hash/verify use saslprep"""
# NOTE: this just does a light test that saslprep() is being
# called in various places, relying in saslpreps()'s tests
# to verify full normalization behavior.
# hash unnormalized
h = self.do_encrypt(u("I\u00ADX"))
self.assertTrue(self.do_verify(u("IX"), h))
self.assertTrue(self.do_verify(u("\u2168"), h))
# hash normalized
h = self.do_encrypt(u("\xF3"))
self.assertTrue(self.do_verify(u("o\u0301"), h))
self.assertTrue(self.do_verify(u("\u200Do\u0301"), h))
# throws error if forbidden char provided
self.assertRaises(ValueError, self.do_encrypt, u("\uFDD0"))
self.assertRaises(ValueError, self.do_verify, u("\uFDD0"), h)
def test_94_using_w_default_algs(self, param="default_algs"):
"""using() -- 'default_algs' parameter"""
# create subclass
handler = self.handler
orig = list(handler.default_algs) # in case it's modified in place
subcls = handler.using(**{param: "sha1,md5"})
# shouldn't have changed handler
self.assertEqual(handler.default_algs, orig)
# should have own set
self.assertEqual(subcls.default_algs, ["md5", "sha-1"])
# test hash output
h1 = subcls.hash("dummy")
self.assertEqual(handler.extract_digest_algs(h1), ["md5", "sha-1"])
def test_94_using_w_algs(self):
"""using() -- 'algs' parameter"""
self.test_94_using_w_default_algs(param="algs")
def test_94_needs_update_algs(self):
"""needs_update() -- algs setting"""
handler1 = self.handler.using(algs="sha1,md5")
# shouldn't need update, has same algs
h1 = handler1.hash("dummy")
self.assertFalse(handler1.needs_update(h1))
# *currently* shouldn't need update, has superset of algs required by handler2
# (may change this policy)
handler2 = handler1.using(algs="sha1")
self.assertFalse(handler2.needs_update(h1))
# should need update, doesn't have all algs required by handler3
handler3 = handler1.using(algs="sha1,sha256")
self.assertTrue(handler3.needs_update(h1))
def test_95_context_algs(self):
"""test handling of 'algs' in context object"""
handler = self.handler
from passlib.context import CryptContext
c1 = CryptContext(["scram"], scram__algs="sha1,md5")
h = c1.hash("dummy")
self.assertEqual(handler.extract_digest_algs(h), ["md5", "sha-1"])
self.assertFalse(c1.needs_update(h))
c2 = c1.copy(scram__algs="sha1")
self.assertFalse(c2.needs_update(h))
c2 = c1.copy(scram__algs="sha1,sha256")
self.assertTrue(c2.needs_update(h))
def test_96_full_verify(self):
"""test verify(full=True) flag"""
def vpart(s, h):
return self.handler.verify(s, h)
def vfull(s, h):
return self.handler.verify(s, h, full=True)
# reference
h = ('$scram$4096$QSXCR.Q6sek8bf92$'
'sha-1=HZbuOlKbWl.eR8AfIposuKbhX30,'
'sha-256=qXUXrlcvnaxxWG00DdRgVioR2gnUpuX5r.3EZ1rdhVY,'
'sha-512=lzgniLFcvglRLS0gt.C4gy.NurS3OIOVRAU1zZOV4P.qFiVFO2/'
'edGQSu/kD1LwdX0SNV/KsPdHSwEl5qRTuZQ')
self.assertTrue(vfull('pencil', h))
self.assertFalse(vfull('tape', h))
# catch truncated digests.
h = ('$scram$4096$QSXCR.Q6sek8bf92$'
'sha-1=HZbuOlKbWl.eR8AfIposuKbhX30,'
'sha-256=qXUXrlcvnaxxWG00DdRgVioR2gnUpuX5r.3EZ1rdhV,' # -1 char
'sha-512=lzgniLFcvglRLS0gt.C4gy.NurS3OIOVRAU1zZOV4P.qFiVFO2/'
'edGQSu/kD1LwdX0SNV/KsPdHSwEl5qRTuZQ')
self.assertRaises(ValueError, vfull, 'pencil', h)
# catch padded digests.
h = ('$scram$4096$QSXCR.Q6sek8bf92$'
'sha-1=HZbuOlKbWl.eR8AfIposuKbhX30,'
'sha-256=qXUXrlcvnaxxWG00DdRgVioR2gnUpuX5r.3EZ1rdhVYa,' # +1 char
'sha-512=lzgniLFcvglRLS0gt.C4gy.NurS3OIOVRAU1zZOV4P.qFiVFO2/'
'edGQSu/kD1LwdX0SNV/KsPdHSwEl5qRTuZQ')
self.assertRaises(ValueError, vfull, 'pencil', h)
# catch hash containing digests belonging to diff passwords.
# proper behavior for quick-verify (the default) is undefined,
# but full-verify should throw error.
h = ('$scram$4096$QSXCR.Q6sek8bf92$'
'sha-1=HZbuOlKbWl.eR8AfIposuKbhX30,' # 'pencil'
'sha-256=R7RJDWIbeKRTFwhE9oxh04kab0CllrQ3kCcpZUcligc,' # 'tape'
'sha-512=lzgniLFcvglRLS0gt.C4gy.NurS3OIOVRAU1zZOV4P.qFiVFO2/' # 'pencil'
'edGQSu/kD1LwdX0SNV/KsPdHSwEl5qRTuZQ')
self.assertTrue(vpart('tape', h))
self.assertFalse(vpart('pencil', h))
self.assertRaises(ValueError, vfull, 'pencil', h)
self.assertRaises(ValueError, vfull, 'tape', h)
#=============================================================================
# eof
#=============================================================================