/usr/lib/python2.7/dist-packages/passlib/tests/test_utils.py is in python-passlib 1.5.3-0ubuntu3.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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#=========================================================
#imports
#=========================================================
from __future__ import with_statement
#core
from binascii import hexlify, unhexlify
import sys
import random
import warnings
#site
#pkg
#module
from passlib.context import CryptContext
from passlib import utils
from passlib.utils import h64, des, Undef, sys_bits, bytes, b, \
native_str, to_bytes, to_unicode, to_native_str, to_hash_str, \
is_same_codec, is_ascii_safe, safe_os_crypt, md4 as md4_mod
from passlib.tests.utils import TestCase, Params as ak, \
enable_option, catch_warnings
def hb(source):
return unhexlify(b(source))
#=========================================================
#byte funcs
#=========================================================
class MiscTest(TestCase):
"tests various parts of utils module"
#NOTE: could test xor_bytes(), but it's exercised well enough by pbkdf2 test
def test_undef(self):
"test Undef singleton"
self.assertEqual(repr(Undef), "<Undef>")
self.assertFalse(Undef==None,)
self.assertFalse(Undef==Undef,)
self.assertFalse(Undef==True,)
self.assertTrue(Undef!=None,)
self.assertTrue(Undef!=Undef,)
self.assertTrue(Undef!=True,)
def test_getrandbytes(self):
"test getrandbytes()"
def f(*a,**k):
return utils.getrandbytes(utils.rng, *a, **k)
self.assertEqual(len(f(0)), 0)
a = f(10)
b = f(10)
self.assertIsInstance(a, bytes)
self.assertEqual(len(a), 10)
self.assertEqual(len(b), 10)
self.assertNotEqual(a, b)
def test_getrandstr(self):
"test getrandstr()"
def f(*a,**k):
return utils.getrandstr(utils.rng, *a, **k)
#count 0
self.assertEqual(f('abc',0), '')
#count <0
self.assertRaises(ValueError, f, 'abc', -1)
#letters 0
self.assertRaises(ValueError, f, '', 0)
#letters 1
self.assertEqual(f('a',5), 'aaaaa')
#letters
x = f(u'abc', 16)
y = f(u'abc', 16)
self.assertIsInstance(x, unicode)
self.assertNotEqual(x,y)
self.assertEqual(sorted(set(x)), [u'a',u'b',u'c'])
#bytes
x = f(b('abc'), 16)
y = f(b('abc'), 16)
self.assertIsInstance(x, bytes)
self.assertNotEqual(x,y)
#NOTE: decoding this due to py3 bytes
self.assertEqual(sorted(set(x.decode("ascii"))), [u'a',u'b',u'c'])
#generate_password
self.assertEqual(len(utils.generate_password(15)), 15)
def test_is_crypt_context(self):
"test is_crypt_context()"
cc = CryptContext(["des_crypt"])
self.assertTrue(utils.is_crypt_context(cc))
self.assertFalse(not utils.is_crypt_context(cc))
def test_genseed(self):
"test genseed()"
rng = utils.random.Random(utils.genseed())
a = rng.randint(0, 100000)
rng = utils.random.Random(utils.genseed())
b = rng.randint(0, 100000)
self.assertNotEqual(a,b)
rng.seed(utils.genseed(rng))
def test_safe_os_crypt(self):
"test safe_os_crypt() wrapper"
if not safe_os_crypt:
raise self.skipTest("stdlib crypt module not available")
#NOTE: this is assuming EVERY crypt will support des_crypt.
# if this fails on some platform, this test will need modifying.
#test normal case
ok, hash = safe_os_crypt(u'test', u'aa')
self.assertTrue(ok)
self.assertIsInstance(hash, unicode)
self.assertEqual(hash, u'aaqPiZY5xR5l.')
#test hash-as-bytes
self.assertRaises(TypeError, safe_os_crypt, u'test', b('aa'))
#test password as ascii
ret = safe_os_crypt(b('test'), u'aa')
self.assertEqual(ret, (True, u'aaqPiZY5xR5l.'))
#test unicode password w/ high char
ret = safe_os_crypt(u'test\u1234', u'aa')
self.assertEqual(ret, (True, u'aahWwbrUsKZk.'))
#test utf-8 password w/ high char
ret = safe_os_crypt(b('test\xe1\x88\xb4'), u'aa')
self.assertEqual(ret, (True, u'aahWwbrUsKZk.'))
#test latin-1 password
ret = safe_os_crypt(b('test\xff'), u'aa')
# Py2k #
self.assertEqual(ret, (True, u'aaOx.5nbTU/.M'))
# Py3k #
#self.assertEqual(ret, (False, None))
# end Py3k #
#=========================================================
#byte/unicode helpers
#=========================================================
class CodecTest(TestCase):
"tests bytes/unicode helpers in passlib.utils"
def test_bytes(self):
"test b() helper, bytes and native_str types"
# Py2k #
self.assertIs(bytes, type(''))
self.assertIs(native_str, bytes)
# Py3k #
#self.assertIs(bytes, type(b''))
#self.assertIs(native_str, unicode)
# end Py3k #
self.assertIsInstance(b(''), bytes)
self.assertIsInstance(b('\x00\xff'), bytes)
# Py2k #
self.assertEqual(b('\x00\xff'), "\x00\xff")
# Py3k #
#self.assertEqual(b('\x00\xff'), b"\x00\xff")
# end Py3k #
def test_to_bytes(self):
"test to_bytes()"
#check unicode inputs
self.assertEqual(to_bytes(u'abc'), b('abc'))
self.assertEqual(to_bytes(u'\x00\xff'), b('\x00\xc3\xbf'))
#check unicode w/ encodings
self.assertEqual(to_bytes(u'\x00\xff', 'latin-1'), b('\x00\xff'))
self.assertRaises(ValueError, to_bytes, u'\x00\xff', 'ascii')
self.assertRaises(TypeError, to_bytes, u'abc', None)
#check bytes inputs
self.assertEqual(to_bytes(b('abc')), b('abc'))
self.assertEqual(to_bytes(b('\x00\xff')), b('\x00\xff'))
self.assertEqual(to_bytes(b('\x00\xc3\xbf')), b('\x00\xc3\xbf'))
#check byte inputs ignores enocding
self.assertEqual(to_bytes(b('\x00\xc3\xbf'), "latin-1"),
b('\x00\xc3\xbf'))
self.assertEqual(to_bytes(b('\x00\xc3\xbf'), None, "utf-8"),
b('\x00\xc3\xbf'))
#check bytes transcoding
self.assertEqual(to_bytes(b('\x00\xc3\xbf'), "latin-1", "utf-8"),
b('\x00\xff'))
#check other
self.assertRaises(TypeError, to_bytes, None)
def test_to_unicode(self):
"test to_unicode()"
#check unicode inputs
self.assertEqual(to_unicode(u'abc'), u'abc')
self.assertEqual(to_unicode(u'\x00\xff'), u'\x00\xff')
#check unicode input ignores encoding
self.assertEqual(to_unicode(u'\x00\xff', None), u'\x00\xff')
self.assertEqual(to_unicode(u'\x00\xff', "ascii"), u'\x00\xff')
#check bytes input
self.assertEqual(to_unicode(b('abc')), u'abc')
self.assertEqual(to_unicode(b('\x00\xc3\xbf')), u'\x00\xff')
self.assertEqual(to_unicode(b('\x00\xff'), 'latin-1'),
u'\x00\xff')
self.assertRaises(ValueError, to_unicode, b('\x00\xff'))
self.assertRaises(TypeError, to_unicode, b('\x00\xff'), None)
#check other
self.assertRaises(TypeError, to_unicode, None)
def test_to_native_str(self):
"test to_native_str()"
self.assertEqual(to_native_str(u'abc'), 'abc')
self.assertEqual(to_native_str(b('abc')), 'abc')
self.assertRaises(TypeError, to_native_str, None)
# Py2k #
self.assertEqual(to_native_str(u'\x00\xff'), b('\x00\xc3\xbf'))
self.assertEqual(to_native_str(b('\x00\xc3\xbf')), b('\x00\xc3\xbf'))
self.assertEqual(to_native_str(u'\x00\xff', 'latin-1'),
b('\x00\xff'))
self.assertEqual(to_native_str(b('\x00\xff'), 'latin-1'),
b('\x00\xff'))
# Py3k #
#self.assertEqual(to_native_str(u'\x00\xff'), '\x00\xff')
#self.assertEqual(to_native_str(b('\x00\xc3\xbf')), '\x00\xff')
#self.assertEqual(to_native_str(u'\x00\xff', 'latin-1'),
# '\x00\xff')
#self.assertEqual(to_native_str(b('\x00\xff'), 'latin-1'),
# '\x00\xff')
#
# end Py3k #
#TODO: test to_hash_str()
def test_is_ascii_safe(self):
"test is_ascii_safe()"
self.assertTrue(is_ascii_safe(b("\x00abc\x7f")))
self.assertTrue(is_ascii_safe(u"\x00abc\x7f"))
self.assertFalse(is_ascii_safe(b("\x00abc\x80")))
self.assertFalse(is_ascii_safe(u"\x00abc\x80"))
def test_is_same_codec(self):
"test is_same_codec()"
self.assertTrue(is_same_codec(None, None))
self.assertFalse(is_same_codec(None, 'ascii'))
self.assertTrue(is_same_codec("ascii", "ascii"))
self.assertTrue(is_same_codec("ascii", "ASCII"))
self.assertTrue(is_same_codec("utf-8", "utf-8"))
self.assertTrue(is_same_codec("utf-8", "utf8"))
self.assertTrue(is_same_codec("utf-8", "UTF_8"))
self.assertFalse(is_same_codec("ascii", "utf-8"))
#=========================================================
#test des module
#=========================================================
class DesTest(TestCase):
#test vectors taken from http://www.skepticfiles.org/faq/testdes.htm
#data is list of (key, plaintext, ciphertext), all as 64 bit hex string
test_des_vectors = [
(line[4:20], line[21:37], line[38:54])
for line in
b(""" 0000000000000000 0000000000000000 8CA64DE9C1B123A7
FFFFFFFFFFFFFFFF FFFFFFFFFFFFFFFF 7359B2163E4EDC58
3000000000000000 1000000000000001 958E6E627A05557B
1111111111111111 1111111111111111 F40379AB9E0EC533
0123456789ABCDEF 1111111111111111 17668DFC7292532D
1111111111111111 0123456789ABCDEF 8A5AE1F81AB8F2DD
0000000000000000 0000000000000000 8CA64DE9C1B123A7
FEDCBA9876543210 0123456789ABCDEF ED39D950FA74BCC4
7CA110454A1A6E57 01A1D6D039776742 690F5B0D9A26939B
0131D9619DC1376E 5CD54CA83DEF57DA 7A389D10354BD271
07A1133E4A0B2686 0248D43806F67172 868EBB51CAB4599A
3849674C2602319E 51454B582DDF440A 7178876E01F19B2A
04B915BA43FEB5B6 42FD443059577FA2 AF37FB421F8C4095
0113B970FD34F2CE 059B5E0851CF143A 86A560F10EC6D85B
0170F175468FB5E6 0756D8E0774761D2 0CD3DA020021DC09
43297FAD38E373FE 762514B829BF486A EA676B2CB7DB2B7A
07A7137045DA2A16 3BDD119049372802 DFD64A815CAF1A0F
04689104C2FD3B2F 26955F6835AF609A 5C513C9C4886C088
37D06BB516CB7546 164D5E404F275232 0A2AEEAE3FF4AB77
1F08260D1AC2465E 6B056E18759F5CCA EF1BF03E5DFA575A
584023641ABA6176 004BD6EF09176062 88BF0DB6D70DEE56
025816164629B007 480D39006EE762F2 A1F9915541020B56
49793EBC79B3258F 437540C8698F3CFA 6FBF1CAFCFFD0556
4FB05E1515AB73A7 072D43A077075292 2F22E49BAB7CA1AC
49E95D6D4CA229BF 02FE55778117F12A 5A6B612CC26CCE4A
018310DC409B26D6 1D9D5C5018F728C2 5F4C038ED12B2E41
1C587F1C13924FEF 305532286D6F295A 63FAC0D034D9F793
0101010101010101 0123456789ABCDEF 617B3A0CE8F07100
1F1F1F1F0E0E0E0E 0123456789ABCDEF DB958605F8C8C606
E0FEE0FEF1FEF1FE 0123456789ABCDEF EDBFD1C66C29CCC7
0000000000000000 FFFFFFFFFFFFFFFF 355550B2150E2451
FFFFFFFFFFFFFFFF 0000000000000000 CAAAAF4DEAF1DBAE
0123456789ABCDEF 0000000000000000 D5D44FF720683D0D
FEDCBA9876543210 FFFFFFFFFFFFFFFF 2A2BB008DF97C2F2
""").split(b("\n")) if line.strip()
]
def test_des_encrypt_block(self):
for k,p,c in self.test_des_vectors:
k = unhexlify(k)
p = unhexlify(p)
c = unhexlify(c)
result = des.des_encrypt_block(k,p)
self.assertEqual(result, c, "key=%r p=%r:" % (k,p))
#test 7 byte key
#FIXME: use a better key
k,p,c = b('00000000000000'), b('FFFFFFFFFFFFFFFF'), b('355550B2150E2451')
k = unhexlify(k)
p = unhexlify(p)
c = unhexlify(c)
result = des.des_encrypt_block(k,p)
self.assertEqual(result, c, "key=%r p=%r:" % (k,p))
def test_mdes_encrypt_int_block(self):
for k,p,c in self.test_des_vectors:
k = int(k,16)
p = int(p,16)
c = int(c,16)
result = des.mdes_encrypt_int_block(k,p, salt=0, rounds=1)
self.assertEqual(result, c, "key=%r p=%r:" % (k,p))
#TODO: test other des methods (eg: mdes_encrypt_int_block w/ salt & rounds)
# though des-crypt builtin backend test should thump it well enough
#=========================================================
#hash64
#=========================================================
class H64_Test(TestCase):
"test H64 codec functions"
case_prefix = "H64 codec"
#=========================================================
#test basic encode/decode
#=========================================================
encoded_bytes = [
#test lengths 0..6 to ensure tail is encoded properly
(b(""),b("")),
(b("\x55"),b("J/")),
(b("\x55\xaa"),b("Jd8")),
(b("\x55\xaa\x55"),b("JdOJ")),
(b("\x55\xaa\x55\xaa"),b("JdOJe0")),
(b("\x55\xaa\x55\xaa\x55"),b("JdOJeK3")),
(b("\x55\xaa\x55\xaa\x55\xaa"),b("JdOJeKZe")),
#test padding bits are null
(b("\x55\xaa\x55\xaf"),b("JdOJj0")), # len = 1 mod 3
(b("\x55\xaa\x55\xaa\x5f"),b("JdOJey3")), # len = 2 mod 3
]
decode_padding_bytes = [
#len = 2 mod 4 -> 2 msb of last digit is padding
(b(".."), b("\x00")), # . = h64.CHARS[0b000000]
(b(".0"), b("\x80")), # 0 = h64.CHARS[0b000010]
(b(".2"), b("\x00")), # 2 = h64.CHARS[0b000100]
(b(".U"), b("\x00")), # U = h64.CHARS[0b100000]
#len = 3 mod 4 -> 4 msb of last digit is padding
(b("..."), b("\x00\x00")),
(b("..6"), b("\x00\x80")), # 6 = h64.CHARS[0b001000]
(b("..E"), b("\x00\x00")), # E = h64.CHARS[0b010000]
(b("..U"), b("\x00\x00")),
]
def test_encode_bytes(self):
for source, result in self.encoded_bytes:
out = h64.encode_bytes(source)
self.assertEqual(out, result)
def test_decode_bytes(self):
for result, source in self.encoded_bytes:
out = h64.decode_bytes(source)
self.assertEqual(out, result)
#wrong size (1 % 4)
self.assertRaises(ValueError, h64.decode_bytes, b('abcde'))
self.assertRaises(TypeError, h64.decode_bytes, u'abcd')
def test_encode_int(self):
self.assertEqual(h64.encode_int(63, 11, True), b('..........z'))
self.assertEqual(h64.encode_int(63, 11), b('z..........'))
self.assertRaises(ValueError, h64.encode_int64, -1)
def test_decode_int(self):
self.assertEqual(h64.decode_int64(b('...........')), 0)
self.assertRaises(ValueError, h64.decode_int12, b('a?'))
self.assertRaises(ValueError, h64.decode_int24, b('aaa?'))
self.assertRaises(ValueError, h64.decode_int64, b('aaa?aaa?aaa'))
self.assertRaises(ValueError, h64.decode_dc_int64, b('aaa?aaa?aaa'))
self.assertRaises(TypeError, h64.decode_int12, u'a'*2)
self.assertRaises(TypeError, h64.decode_int24, u'a'*4)
self.assertRaises(TypeError, h64.decode_int64, u'a'*11)
self.assertRaises(TypeError, h64.decode_dc_int64, u'a'*11)
def test_decode_bytes_padding(self):
for source, result in self.decode_padding_bytes:
out = h64.decode_bytes(source)
self.assertEqual(out, result)
self.assertRaises(TypeError, h64.decode_bytes, u'..')
def test_decode_int6(self):
self.assertEqual(h64.decode_int6(b('.')),0)
self.assertEqual(h64.decode_int6(b('z')),63)
self.assertRaises(ValueError, h64.decode_int6, b('?'))
self.assertRaises(TypeError, h64.decode_int6, u'?')
def test_encode_int6(self):
self.assertEqual(h64.encode_int6(0),b('.'))
self.assertEqual(h64.encode_int6(63),b('z'))
self.assertRaises(ValueError, h64.encode_int6, -1)
self.assertRaises(ValueError, h64.encode_int6, 64)
#=========================================================
#test transposed encode/decode
#=========================================================
encode_transposed = [
(b("\x33\x22\x11"), b("\x11\x22\x33"),[2,1,0]),
(b("\x22\x33\x11"), b("\x11\x22\x33"),[1,2,0]),
]
encode_transposed_dups = [
(b("\x11\x11\x22"), b("\x11\x22\x33"),[0,0,1]),
]
def test_encode_transposed_bytes(self):
for result, input, offsets in self.encode_transposed + self.encode_transposed_dups:
tmp = h64.encode_transposed_bytes(input, offsets)
out = h64.decode_bytes(tmp)
self.assertEqual(out, result)
def test_decode_transposed_bytes(self):
for input, result, offsets in self.encode_transposed:
tmp = h64.encode_bytes(input)
out = h64.decode_transposed_bytes(tmp, offsets)
self.assertEqual(out, result)
def test_decode_transposed_bytes_bad(self):
for input, _, offsets in self.encode_transposed_dups:
tmp = h64.encode_bytes(input)
self.assertRaises(TypeError, h64.decode_transposed_bytes, tmp, offsets)
#=========================================================
#TODO: test other h64 methods
#=========================================================
#=========================================================
#test md4
#=========================================================
class _MD4_Test(TestCase):
#test vectors from http://www.faqs.org/rfcs/rfc1320.html - A.5
hash = None
vectors = [
# input -> hex digest
(b(""), "31d6cfe0d16ae931b73c59d7e0c089c0"),
(b("a"), "bde52cb31de33e46245e05fbdbd6fb24"),
(b("abc"), "a448017aaf21d8525fc10ae87aa6729d"),
(b("message digest"), "d9130a8164549fe818874806e1c7014b"),
(b("abcdefghijklmnopqrstuvwxyz"), "d79e1c308aa5bbcdeea8ed63df412da9"),
(b("ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789"), "043f8582f241db351ce627e153e7f0e4"),
(b("12345678901234567890123456789012345678901234567890123456789012345678901234567890"), "e33b4ddc9c38f2199c3e7b164fcc0536"),
]
def test_md4_update(self):
"test md4 update"
md4 = self.hash
h = md4(b(''))
self.assertEqual(h.hexdigest(), "31d6cfe0d16ae931b73c59d7e0c089c0")
#NOTE: under py2, hashlib methods try to encode to ascii,
# though shouldn't rely on that.
# Py3k #
#self.assertRaises(TypeError, h.update, u'x')
# end Py3k #
h.update(b('a'))
self.assertEqual(h.hexdigest(), "bde52cb31de33e46245e05fbdbd6fb24")
h.update(b('bcdefghijklmnopqrstuvwxyz'))
self.assertEqual(h.hexdigest(), "d79e1c308aa5bbcdeea8ed63df412da9")
def test_md4_hexdigest(self):
"test md4 hexdigest()"
md4 = self.hash
for input, hex in self.vectors:
out = md4(input).hexdigest()
self.assertEqual(out, hex)
def test_md4_digest(self):
"test md4 digest()"
md4 = self.hash
for input, hex in self.vectors:
out = md4(input).digest()
self.assertEqual(to_native_str(hexlify(out)), hex)
def test_md4_copy(self):
"test md4 copy()"
md4 = self.hash
h = md4(b('abc'))
h2 = h.copy()
h2.update(b('def'))
self.assertEqual(h2.hexdigest(), '804e7f1c2586e50b49ac65db5b645131')
h.update(b('ghi'))
self.assertEqual(h.hexdigest(), 'c5225580bfe176f6deeee33dee98732c')
#
#now do a bunch of things to test multiple possible backends.
#
has_ssl_md4 = (md4_mod.md4 is not md4_mod._builtin_md4)
if has_ssl_md4:
class MD4_SSL_Test(_MD4_Test):
case_prefix = "MD4 (SSL version)"
hash = staticmethod(md4_mod.md4)
if not has_ssl_md4 or enable_option("cover"):
class MD4_Builtin_Test(_MD4_Test):
case_prefix = "MD4 (builtin version)"
hash = md4_mod._builtin_md4
#=========================================================
#test passlib.utils.pbkdf2
#=========================================================
import hashlib
import hmac
from passlib.utils import pbkdf2
#TODO: should we bother testing hmac_sha1() function? it's verified via sha1_crypt testing.
class KdfTest(TestCase):
"test kdf helpers"
def test_pbkdf1(self):
"test pbkdf1"
for secret, salt, rounds, klen, hash, correct in [
#http://www.di-mgt.com.au/cryptoKDFs.html
(b('password'), hb('78578E5A5D63CB06'), 1000, 16, 'sha1',
hb('dc19847e05c64d2faf10ebfb4a3d2a20')),
]:
result = pbkdf2.pbkdf1(secret, salt, rounds, klen, hash)
self.assertEqual(result, correct)
#test rounds < 1
#test klen < 0
#test klen > block size
#test invalid hash
#NOTE: this is not run directly, but via two subclasses (below)
class _Pbkdf2BackendTest(TestCase):
"test builtin unix crypt backend"
enable_m2crypto = False
def setUp(self):
#disable m2crypto support so we'll always use software backend
if not self.enable_m2crypto:
self._orig_EVP = pbkdf2._EVP
pbkdf2._EVP = None
else:
#set flag so tests can check for m2crypto presence quickly
self.enable_m2crypto = bool(pbkdf2._EVP)
pbkdf2._clear_prf_cache()
def tearDown(self):
if not self.enable_m2crypto:
pbkdf2._EVP = self._orig_EVP
pbkdf2._clear_prf_cache()
#TODO: test get_prf() behavior in various situations - though overall behavior tested via pbkdf2
def test_rfc3962(self):
"rfc3962 test vectors"
self.assertFunctionResults(pbkdf2.pbkdf2, [
# result, secret, salt, rounds, keylen, digest="sha1"
#test case 1 / 128 bit
(
hb("cdedb5281bb2f801565a1122b2563515"),
b("password"), b("ATHENA.MIT.EDUraeburn"), 1, 16
),
#test case 2 / 128 bit
(
hb("01dbee7f4a9e243e988b62c73cda935d"),
b("password"), b("ATHENA.MIT.EDUraeburn"), 2, 16
),
#test case 2 / 256 bit
(
hb("01dbee7f4a9e243e988b62c73cda935da05378b93244ec8f48a99e61ad799d86"),
b("password"), b("ATHENA.MIT.EDUraeburn"), 2, 32
),
#test case 3 / 256 bit
(
hb("5c08eb61fdf71e4e4ec3cf6ba1f5512ba7e52ddbc5e5142f708a31e2e62b1e13"),
b("password"), b("ATHENA.MIT.EDUraeburn"), 1200, 32
),
#test case 4 / 256 bit
(
hb("d1daa78615f287e6a1c8b120d7062a493f98d203e6be49a6adf4fa574b6e64ee"),
b("password"), b('\x12\x34\x56\x78\x78\x56\x34\x12'), 5, 32
),
#test case 5 / 256 bit
(
hb("139c30c0966bc32ba55fdbf212530ac9c5ec59f1a452f5cc9ad940fea0598ed1"),
b("X"*64), b("pass phrase equals block size"), 1200, 32
),
#test case 6 / 256 bit
(
hb("9ccad6d468770cd51b10e6a68721be611a8b4d282601db3b36be9246915ec82a"),
b("X"*65), b("pass phrase exceeds block size"), 1200, 32
),
])
def test_rfc6070(self):
"rfc6070 test vectors"
self.assertFunctionResults(pbkdf2.pbkdf2, [
(
hb("0c60c80f961f0e71f3a9b524af6012062fe037a6"),
b("password"), b("salt"), 1, 20,
),
(
hb("ea6c014dc72d6f8ccd1ed92ace1d41f0d8de8957"),
b("password"), b("salt"), 2, 20,
),
(
hb("4b007901b765489abead49d926f721d065a429c1"),
b("password"), b("salt"), 4096, 20,
),
#just runs too long - could enable if ALL option is set
##(
##
## unhexlify("eefe3d61cd4da4e4e9945b3d6ba2158c2634e984"),
## "password", "salt", 16777216, 20,
##),
(
hb("3d2eec4fe41c849b80c8d83662c0e44a8b291a964cf2f07038"),
b("passwordPASSWORDpassword"),
b("saltSALTsaltSALTsaltSALTsaltSALTsalt"),
4096, 25,
),
(
hb("56fa6aa75548099dcc37d7f03425e0c3"),
b("pass\00word"), b("sa\00lt"), 4096, 16,
),
])
def test_invalid_values(self):
#invalid rounds
self.assertRaises(ValueError, pbkdf2.pbkdf2, b('password'), b('salt'), -1, 16)
self.assertRaises(ValueError, pbkdf2.pbkdf2, b('password'), b('salt'), 0, 16)
self.assertRaises(TypeError, pbkdf2.pbkdf2, b('password'), b('salt'), 'x', 16)
#invalid keylen
self.assertRaises(ValueError, pbkdf2.pbkdf2, b('password'), b('salt'), 1, 20*(2**32-1)+1)
#invalid salt type
self.assertRaises(TypeError, pbkdf2.pbkdf2, b('password'), 5, 1, 10)
#invalid secret type
self.assertRaises(TypeError, pbkdf2.pbkdf2, 5, b('salt'), 1, 10)
#invalid hash
self.assertRaises(ValueError, pbkdf2.pbkdf2, b('password'), b('salt'), 1, 16, 'hmac-foo')
self.assertRaises(ValueError, pbkdf2.pbkdf2, b('password'), b('salt'), 1, 16, 'foo')
self.assertRaises(TypeError, pbkdf2.pbkdf2, b('password'), b('salt'), 1, 16, 5)
def test_hmac_sha1(self):
"test independant hmac_sha1() method"
self.assertEqual(
pbkdf2.hmac_sha1(b("secret"), b("salt")),
b('\xfc\xd4\x0c;]\r\x97\xc6\xf1S\x8d\x93\xb9\xeb\xc6\x00\x04.\x8b\xfe')
)
def test_sha1_string(self):
"test various prf values"
self.assertEqual(
pbkdf2.pbkdf2(b("secret"), b("salt"), 10, 16, "hmac-sha1"),
b('\xe2H\xfbk\x136QF\xf8\xacc\x07\xcc"(\x12')
)
def test_sha512_string(self):
"test alternate digest string (sha512)"
self.assertFunctionResults(pbkdf2.pbkdf2, [
# result, secret, salt, rounds, keylen, digest="sha1"
#case taken from example in http://grub.enbug.org/Authentication
(
hb("887CFF169EA8335235D8004242AA7D6187A41E3187DF0CE14E256D85ED97A97357AAA8FF0A3871AB9EEFF458392F462F495487387F685B7472FC6C29E293F0A0"),
b("hello"),
hb("9290F727ED06C38BA4549EF7DE25CF5642659211B7FC076F2D28FEFD71784BB8D8F6FB244A8CC5C06240631B97008565A120764C0EE9C2CB0073994D79080136"),
10000, 64, "hmac-sha512"
),
])
def test_sha512_function(self):
"test custom digest function"
def prf(key, msg):
return hmac.new(key, msg, hashlib.sha512).digest()
self.assertFunctionResults(pbkdf2.pbkdf2, [
# result, secret, salt, rounds, keylen, digest="sha1"
#case taken from example in http://grub.enbug.org/Authentication
(
hb("887CFF169EA8335235D8004242AA7D6187A41E3187DF0CE14E256D85ED97A97357AAA8FF0A3871AB9EEFF458392F462F495487387F685B7472FC6C29E293F0A0"),
b("hello"),
hb("9290F727ED06C38BA4549EF7DE25CF5642659211B7FC076F2D28FEFD71784BB8D8F6FB244A8CC5C06240631B97008565A120764C0EE9C2CB0073994D79080136"),
10000, 64, prf,
),
])
has_m2crypto = (pbkdf2._EVP is not None)
if has_m2crypto:
class Pbkdf2_M2Crypto_Test(_Pbkdf2BackendTest):
case_prefix = "pbkdf2 (m2crypto backend)"
enable_m2crypto = True
if not has_m2crypto or enable_option("cover"):
class Pbkdf2_Builtin_Test(_Pbkdf2BackendTest):
case_prefix = "pbkdf2 (builtin backend)"
enable_m2crypto = False
#=========================================================
#EOF
#=========================================================
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