cpython/Lib/test/test_hashlib.py

1089 lines
42 KiB
Python

# Test hashlib module
#
# $Id$
#
# Copyright (C) 2005-2010 Gregory P. Smith (greg@krypto.org)
# Licensed to PSF under a Contributor Agreement.
#
import array
from binascii import unhexlify
import hashlib
import importlib
import itertools
import os
import sys
import sysconfig
import threading
import unittest
import warnings
from test import support
from test.support import _4G, bigmemtest, import_fresh_module
from test.support import threading_helper
from http.client import HTTPException
# Were we compiled --with-pydebug or with #define Py_DEBUG?
COMPILED_WITH_PYDEBUG = hasattr(sys, 'gettotalrefcount')
c_hashlib = import_fresh_module('hashlib', fresh=['_hashlib'])
py_hashlib = import_fresh_module('hashlib', blocked=['_hashlib'])
builtin_hashes = sysconfig.get_config_var("PY_BUILTIN_HASHLIB_HASHES")
if builtin_hashes is None:
builtin_hashes = {'md5', 'sha1', 'sha256', 'sha512', 'sha3', 'blake2'}
else:
builtin_hashes = {
m.strip() for m in builtin_hashes.strip('"').lower().split(",")
}
try:
from _hashlib import HASH, HASHXOF, openssl_md_meth_names
except ImportError:
HASH = None
HASHXOF = None
openssl_md_meth_names = frozenset()
try:
import _blake2
except ImportError:
_blake2 = None
requires_blake2 = unittest.skipUnless(_blake2, 'requires _blake2')
try:
import _sha3
except ImportError:
_sha3 = None
requires_sha3 = unittest.skipUnless(_sha3, 'requires _sha3')
def hexstr(s):
assert isinstance(s, bytes), repr(s)
h = "0123456789abcdef"
r = ''
for i in s:
r += h[(i >> 4) & 0xF] + h[i & 0xF]
return r
URL = "http://www.pythontest.net/hashlib/{}.txt"
def read_vectors(hash_name):
url = URL.format(hash_name)
try:
testdata = support.open_urlresource(url)
except (OSError, HTTPException):
raise unittest.SkipTest("Could not retrieve {}".format(url))
with testdata:
for line in testdata:
line = line.strip()
if line.startswith('#') or not line:
continue
parts = line.split(',')
parts[0] = bytes.fromhex(parts[0])
yield parts
class HashLibTestCase(unittest.TestCase):
supported_hash_names = ( 'md5', 'MD5', 'sha1', 'SHA1',
'sha224', 'SHA224', 'sha256', 'SHA256',
'sha384', 'SHA384', 'sha512', 'SHA512',
'blake2b', 'blake2s',
'sha3_224', 'sha3_256', 'sha3_384', 'sha3_512',
'shake_128', 'shake_256')
shakes = {'shake_128', 'shake_256'}
# Issue #14693: fallback modules are always compiled under POSIX
_warn_on_extension_import = os.name == 'posix' or COMPILED_WITH_PYDEBUG
def _conditional_import_module(self, module_name):
"""Import a module and return a reference to it or None on failure."""
try:
return importlib.import_module(module_name)
except ModuleNotFoundError as error:
if self._warn_on_extension_import:
warnings.warn('Did a C extension fail to compile? %s' % error)
return None
def __init__(self, *args, **kwargs):
algorithms = set()
for algorithm in self.supported_hash_names:
algorithms.add(algorithm.lower())
_blake2 = self._conditional_import_module('_blake2')
if _blake2:
algorithms.update({'blake2b', 'blake2s'})
self.constructors_to_test = {}
for algorithm in algorithms:
self.constructors_to_test[algorithm] = set()
# For each algorithm, test the direct constructor and the use
# of hashlib.new given the algorithm name.
for algorithm, constructors in self.constructors_to_test.items():
constructors.add(getattr(hashlib, algorithm))
def _test_algorithm_via_hashlib_new(data=None, _alg=algorithm, **kwargs):
if data is None:
return hashlib.new(_alg, **kwargs)
return hashlib.new(_alg, data, **kwargs)
constructors.add(_test_algorithm_via_hashlib_new)
_hashlib = self._conditional_import_module('_hashlib')
self._hashlib = _hashlib
if _hashlib:
# These two algorithms should always be present when this module
# is compiled. If not, something was compiled wrong.
self.assertTrue(hasattr(_hashlib, 'openssl_md5'))
self.assertTrue(hasattr(_hashlib, 'openssl_sha1'))
for algorithm, constructors in self.constructors_to_test.items():
constructor = getattr(_hashlib, 'openssl_'+algorithm, None)
if constructor:
try:
constructor()
except ValueError:
# default constructor blocked by crypto policy
pass
else:
constructors.add(constructor)
def add_builtin_constructor(name):
constructor = getattr(hashlib, "__get_builtin_constructor")(name)
self.constructors_to_test[name].add(constructor)
_md5 = self._conditional_import_module('_md5')
if _md5:
add_builtin_constructor('md5')
_sha1 = self._conditional_import_module('_sha1')
if _sha1:
add_builtin_constructor('sha1')
_sha256 = self._conditional_import_module('_sha256')
if _sha256:
add_builtin_constructor('sha224')
add_builtin_constructor('sha256')
_sha512 = self._conditional_import_module('_sha512')
if _sha512:
add_builtin_constructor('sha384')
add_builtin_constructor('sha512')
if _blake2:
add_builtin_constructor('blake2s')
add_builtin_constructor('blake2b')
_sha3 = self._conditional_import_module('_sha3')
if _sha3:
add_builtin_constructor('sha3_224')
add_builtin_constructor('sha3_256')
add_builtin_constructor('sha3_384')
add_builtin_constructor('sha3_512')
add_builtin_constructor('shake_128')
add_builtin_constructor('shake_256')
super(HashLibTestCase, self).__init__(*args, **kwargs)
@property
def hash_constructors(self):
constructors = self.constructors_to_test.values()
return itertools.chain.from_iterable(constructors)
@property
def is_fips_mode(self):
if hasattr(self._hashlib, "get_fips_mode"):
return self._hashlib.get_fips_mode()
else:
return None
def test_hash_array(self):
a = array.array("b", range(10))
for cons in self.hash_constructors:
c = cons(a, usedforsecurity=False)
if c.name in self.shakes:
c.hexdigest(16)
else:
c.hexdigest()
def test_algorithms_guaranteed(self):
self.assertEqual(hashlib.algorithms_guaranteed,
set(_algo for _algo in self.supported_hash_names
if _algo.islower()))
def test_algorithms_available(self):
self.assertTrue(set(hashlib.algorithms_guaranteed).
issubset(hashlib.algorithms_available))
def test_usedforsecurity_true(self):
hashlib.new("sha256", usedforsecurity=True)
if self.is_fips_mode:
self.skipTest("skip in FIPS mode")
for cons in self.hash_constructors:
cons(usedforsecurity=True)
cons(b'', usedforsecurity=True)
hashlib.new("md5", usedforsecurity=True)
hashlib.md5(usedforsecurity=True)
if self._hashlib is not None:
self._hashlib.new("md5", usedforsecurity=True)
self._hashlib.openssl_md5(usedforsecurity=True)
def test_usedforsecurity_false(self):
hashlib.new("sha256", usedforsecurity=False)
for cons in self.hash_constructors:
cons(usedforsecurity=False)
cons(b'', usedforsecurity=False)
hashlib.new("md5", usedforsecurity=False)
hashlib.md5(usedforsecurity=False)
if self._hashlib is not None:
self._hashlib.new("md5", usedforsecurity=False)
self._hashlib.openssl_md5(usedforsecurity=False)
def test_unknown_hash(self):
self.assertRaises(ValueError, hashlib.new, 'spam spam spam spam spam')
self.assertRaises(TypeError, hashlib.new, 1)
def test_new_upper_to_lower(self):
self.assertEqual(hashlib.new("SHA256").name, "sha256")
def test_get_builtin_constructor(self):
get_builtin_constructor = getattr(hashlib,
'__get_builtin_constructor')
builtin_constructor_cache = getattr(hashlib,
'__builtin_constructor_cache')
self.assertRaises(ValueError, get_builtin_constructor, 'test')
try:
import _md5
except ImportError:
self.skipTest("_md5 module not available")
# This forces an ImportError for "import _md5" statements
sys.modules['_md5'] = None
# clear the cache
builtin_constructor_cache.clear()
try:
self.assertRaises(ValueError, get_builtin_constructor, 'md5')
finally:
if '_md5' in locals():
sys.modules['_md5'] = _md5
else:
del sys.modules['_md5']
self.assertRaises(TypeError, get_builtin_constructor, 3)
constructor = get_builtin_constructor('md5')
self.assertIs(constructor, _md5.md5)
self.assertEqual(sorted(builtin_constructor_cache), ['MD5', 'md5'])
def test_hexdigest(self):
for cons in self.hash_constructors:
h = cons(usedforsecurity=False)
if h.name in self.shakes:
self.assertIsInstance(h.digest(16), bytes)
self.assertEqual(hexstr(h.digest(16)), h.hexdigest(16))
else:
self.assertIsInstance(h.digest(), bytes)
self.assertEqual(hexstr(h.digest()), h.hexdigest())
def test_digest_length_overflow(self):
# See issue #34922
large_sizes = (2**29, 2**32-10, 2**32+10, 2**61, 2**64-10, 2**64+10)
for cons in self.hash_constructors:
h = cons(usedforsecurity=False)
if h.name not in self.shakes:
continue
if HASH is not None and isinstance(h, HASH):
# _hashopenssl's take a size_t
continue
for digest in h.digest, h.hexdigest:
self.assertRaises(ValueError, digest, -10)
for length in large_sizes:
with self.assertRaises((ValueError, OverflowError)):
digest(length)
def test_name_attribute(self):
for cons in self.hash_constructors:
h = cons(usedforsecurity=False)
self.assertIsInstance(h.name, str)
if h.name in self.supported_hash_names:
self.assertIn(h.name, self.supported_hash_names)
else:
self.assertNotIn(h.name, self.supported_hash_names)
self.assertEqual(
h.name,
hashlib.new(h.name, usedforsecurity=False).name
)
def test_large_update(self):
aas = b'a' * 128
bees = b'b' * 127
cees = b'c' * 126
dees = b'd' * 2048 # HASHLIB_GIL_MINSIZE
for cons in self.hash_constructors:
m1 = cons(usedforsecurity=False)
m1.update(aas)
m1.update(bees)
m1.update(cees)
m1.update(dees)
if m1.name in self.shakes:
args = (16,)
else:
args = ()
m2 = cons(usedforsecurity=False)
m2.update(aas + bees + cees + dees)
self.assertEqual(m1.digest(*args), m2.digest(*args))
m3 = cons(aas + bees + cees + dees, usedforsecurity=False)
self.assertEqual(m1.digest(*args), m3.digest(*args))
# verify copy() doesn't touch original
m4 = cons(aas + bees + cees, usedforsecurity=False)
m4_digest = m4.digest(*args)
m4_copy = m4.copy()
m4_copy.update(dees)
self.assertEqual(m1.digest(*args), m4_copy.digest(*args))
self.assertEqual(m4.digest(*args), m4_digest)
def check(self, name, data, hexdigest, shake=False, **kwargs):
length = len(hexdigest)//2
hexdigest = hexdigest.lower()
constructors = self.constructors_to_test[name]
# 2 is for hashlib.name(...) and hashlib.new(name, ...)
self.assertGreaterEqual(len(constructors), 2)
for hash_object_constructor in constructors:
m = hash_object_constructor(data, **kwargs)
computed = m.hexdigest() if not shake else m.hexdigest(length)
self.assertEqual(
computed, hexdigest,
"Hash algorithm %s constructed using %s returned hexdigest"
" %r for %d byte input data that should have hashed to %r."
% (name, hash_object_constructor,
computed, len(data), hexdigest))
computed = m.digest() if not shake else m.digest(length)
digest = bytes.fromhex(hexdigest)
self.assertEqual(computed, digest)
if not shake:
self.assertEqual(len(digest), m.digest_size)
def check_no_unicode(self, algorithm_name):
# Unicode objects are not allowed as input.
constructors = self.constructors_to_test[algorithm_name]
for hash_object_constructor in constructors:
self.assertRaises(TypeError, hash_object_constructor, 'spam')
def test_no_unicode(self):
self.check_no_unicode('md5')
self.check_no_unicode('sha1')
self.check_no_unicode('sha224')
self.check_no_unicode('sha256')
self.check_no_unicode('sha384')
self.check_no_unicode('sha512')
@requires_blake2
def test_no_unicode_blake2(self):
self.check_no_unicode('blake2b')
self.check_no_unicode('blake2s')
@requires_sha3
def test_no_unicode_sha3(self):
self.check_no_unicode('sha3_224')
self.check_no_unicode('sha3_256')
self.check_no_unicode('sha3_384')
self.check_no_unicode('sha3_512')
self.check_no_unicode('shake_128')
self.check_no_unicode('shake_256')
def check_blocksize_name(self, name, block_size=0, digest_size=0,
digest_length=None):
constructors = self.constructors_to_test[name]
for hash_object_constructor in constructors:
m = hash_object_constructor(usedforsecurity=False)
self.assertEqual(m.block_size, block_size)
self.assertEqual(m.digest_size, digest_size)
if digest_length:
self.assertEqual(len(m.digest(digest_length)),
digest_length)
self.assertEqual(len(m.hexdigest(digest_length)),
2*digest_length)
else:
self.assertEqual(len(m.digest()), digest_size)
self.assertEqual(len(m.hexdigest()), 2*digest_size)
self.assertEqual(m.name, name)
# split for sha3_512 / _sha3.sha3 object
self.assertIn(name.split("_")[0], repr(m))
def test_blocksize_name(self):
self.check_blocksize_name('md5', 64, 16)
self.check_blocksize_name('sha1', 64, 20)
self.check_blocksize_name('sha224', 64, 28)
self.check_blocksize_name('sha256', 64, 32)
self.check_blocksize_name('sha384', 128, 48)
self.check_blocksize_name('sha512', 128, 64)
@requires_sha3
def test_blocksize_name_sha3(self):
self.check_blocksize_name('sha3_224', 144, 28)
self.check_blocksize_name('sha3_256', 136, 32)
self.check_blocksize_name('sha3_384', 104, 48)
self.check_blocksize_name('sha3_512', 72, 64)
self.check_blocksize_name('shake_128', 168, 0, 32)
self.check_blocksize_name('shake_256', 136, 0, 64)
def check_sha3(self, name, capacity, rate, suffix):
constructors = self.constructors_to_test[name]
for hash_object_constructor in constructors:
m = hash_object_constructor()
if HASH is not None and isinstance(m, HASH):
# _hashopenssl's variant does not have extra SHA3 attributes
continue
self.assertEqual(capacity + rate, 1600)
self.assertEqual(m._capacity_bits, capacity)
self.assertEqual(m._rate_bits, rate)
self.assertEqual(m._suffix, suffix)
@requires_sha3
def test_extra_sha3(self):
self.check_sha3('sha3_224', 448, 1152, b'\x06')
self.check_sha3('sha3_256', 512, 1088, b'\x06')
self.check_sha3('sha3_384', 768, 832, b'\x06')
self.check_sha3('sha3_512', 1024, 576, b'\x06')
self.check_sha3('shake_128', 256, 1344, b'\x1f')
self.check_sha3('shake_256', 512, 1088, b'\x1f')
@requires_blake2
def test_blocksize_name_blake2(self):
self.check_blocksize_name('blake2b', 128, 64)
self.check_blocksize_name('blake2s', 64, 32)
def test_case_md5_0(self):
self.check(
'md5', b'', 'd41d8cd98f00b204e9800998ecf8427e',
usedforsecurity=False
)
def test_case_md5_1(self):
self.check(
'md5', b'abc', '900150983cd24fb0d6963f7d28e17f72',
usedforsecurity=False
)
def test_case_md5_2(self):
self.check(
'md5',
b'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789',
'd174ab98d277d9f5a5611c2c9f419d9f',
usedforsecurity=False
)
@unittest.skipIf(sys.maxsize < _4G + 5, 'test cannot run on 32-bit systems')
@bigmemtest(size=_4G + 5, memuse=1, dry_run=False)
def test_case_md5_huge(self, size):
self.check('md5', b'A'*size, 'c9af2dff37468ce5dfee8f2cfc0a9c6d')
@unittest.skipIf(sys.maxsize < _4G - 1, 'test cannot run on 32-bit systems')
@bigmemtest(size=_4G - 1, memuse=1, dry_run=False)
def test_case_md5_uintmax(self, size):
self.check('md5', b'A'*size, '28138d306ff1b8281f1a9067e1a1a2b3')
# use the three examples from Federal Information Processing Standards
# Publication 180-1, Secure Hash Standard, 1995 April 17
# http://www.itl.nist.gov/div897/pubs/fip180-1.htm
def test_case_sha1_0(self):
self.check('sha1', b"",
"da39a3ee5e6b4b0d3255bfef95601890afd80709")
def test_case_sha1_1(self):
self.check('sha1', b"abc",
"a9993e364706816aba3e25717850c26c9cd0d89d")
def test_case_sha1_2(self):
self.check('sha1',
b"abcdbcdecdefdefgefghfghighijhijkijkljklmklmnlmnomnopnopq",
"84983e441c3bd26ebaae4aa1f95129e5e54670f1")
def test_case_sha1_3(self):
self.check('sha1', b"a" * 1000000,
"34aa973cd4c4daa4f61eeb2bdbad27316534016f")
# use the examples from Federal Information Processing Standards
# Publication 180-2, Secure Hash Standard, 2002 August 1
# http://csrc.nist.gov/publications/fips/fips180-2/fips180-2.pdf
def test_case_sha224_0(self):
self.check('sha224', b"",
"d14a028c2a3a2bc9476102bb288234c415a2b01f828ea62ac5b3e42f")
def test_case_sha224_1(self):
self.check('sha224', b"abc",
"23097d223405d8228642a477bda255b32aadbce4bda0b3f7e36c9da7")
def test_case_sha224_2(self):
self.check('sha224',
b"abcdbcdecdefdefgefghfghighijhijkijkljklmklmnlmnomnopnopq",
"75388b16512776cc5dba5da1fd890150b0c6455cb4f58b1952522525")
def test_case_sha224_3(self):
self.check('sha224', b"a" * 1000000,
"20794655980c91d8bbb4c1ea97618a4bf03f42581948b2ee4ee7ad67")
def test_case_sha256_0(self):
self.check('sha256', b"",
"e3b0c44298fc1c149afbf4c8996fb92427ae41e4649b934ca495991b7852b855")
def test_case_sha256_1(self):
self.check('sha256', b"abc",
"ba7816bf8f01cfea414140de5dae2223b00361a396177a9cb410ff61f20015ad")
def test_case_sha256_2(self):
self.check('sha256',
b"abcdbcdecdefdefgefghfghighijhijkijkljklmklmnlmnomnopnopq",
"248d6a61d20638b8e5c026930c3e6039a33ce45964ff2167f6ecedd419db06c1")
def test_case_sha256_3(self):
self.check('sha256', b"a" * 1000000,
"cdc76e5c9914fb9281a1c7e284d73e67f1809a48a497200e046d39ccc7112cd0")
def test_case_sha384_0(self):
self.check('sha384', b"",
"38b060a751ac96384cd9327eb1b1e36a21fdb71114be07434c0cc7bf63f6e1da"+
"274edebfe76f65fbd51ad2f14898b95b")
def test_case_sha384_1(self):
self.check('sha384', b"abc",
"cb00753f45a35e8bb5a03d699ac65007272c32ab0eded1631a8b605a43ff5bed"+
"8086072ba1e7cc2358baeca134c825a7")
def test_case_sha384_2(self):
self.check('sha384',
b"abcdefghbcdefghicdefghijdefghijkefghijklfghijklmghijklmn"+
b"hijklmnoijklmnopjklmnopqklmnopqrlmnopqrsmnopqrstnopqrstu",
"09330c33f71147e83d192fc782cd1b4753111b173b3b05d22fa08086e3b0f712"+
"fcc7c71a557e2db966c3e9fa91746039")
def test_case_sha384_3(self):
self.check('sha384', b"a" * 1000000,
"9d0e1809716474cb086e834e310a4a1ced149e9c00f248527972cec5704c2a5b"+
"07b8b3dc38ecc4ebae97ddd87f3d8985")
def test_case_sha512_0(self):
self.check('sha512', b"",
"cf83e1357eefb8bdf1542850d66d8007d620e4050b5715dc83f4a921d36ce9ce"+
"47d0d13c5d85f2b0ff8318d2877eec2f63b931bd47417a81a538327af927da3e")
def test_case_sha512_1(self):
self.check('sha512', b"abc",
"ddaf35a193617abacc417349ae20413112e6fa4e89a97ea20a9eeee64b55d39a"+
"2192992a274fc1a836ba3c23a3feebbd454d4423643ce80e2a9ac94fa54ca49f")
def test_case_sha512_2(self):
self.check('sha512',
b"abcdefghbcdefghicdefghijdefghijkefghijklfghijklmghijklmn"+
b"hijklmnoijklmnopjklmnopqklmnopqrlmnopqrsmnopqrstnopqrstu",
"8e959b75dae313da8cf4f72814fc143f8f7779c6eb9f7fa17299aeadb6889018"+
"501d289e4900f7e4331b99dec4b5433ac7d329eeb6dd26545e96e55b874be909")
def test_case_sha512_3(self):
self.check('sha512', b"a" * 1000000,
"e718483d0ce769644e2e42c7bc15b4638e1f98b13b2044285632a803afa973eb"+
"de0ff244877ea60a4cb0432ce577c31beb009c5c2c49aa2e4eadb217ad8cc09b")
def check_blake2(self, constructor, salt_size, person_size, key_size,
digest_size, max_offset):
self.assertEqual(constructor.SALT_SIZE, salt_size)
for i in range(salt_size + 1):
constructor(salt=b'a' * i)
salt = b'a' * (salt_size + 1)
self.assertRaises(ValueError, constructor, salt=salt)
self.assertEqual(constructor.PERSON_SIZE, person_size)
for i in range(person_size+1):
constructor(person=b'a' * i)
person = b'a' * (person_size + 1)
self.assertRaises(ValueError, constructor, person=person)
self.assertEqual(constructor.MAX_DIGEST_SIZE, digest_size)
for i in range(1, digest_size + 1):
constructor(digest_size=i)
self.assertRaises(ValueError, constructor, digest_size=-1)
self.assertRaises(ValueError, constructor, digest_size=0)
self.assertRaises(ValueError, constructor, digest_size=digest_size+1)
self.assertEqual(constructor.MAX_KEY_SIZE, key_size)
for i in range(key_size+1):
constructor(key=b'a' * i)
key = b'a' * (key_size + 1)
self.assertRaises(ValueError, constructor, key=key)
self.assertEqual(constructor().hexdigest(),
constructor(key=b'').hexdigest())
for i in range(0, 256):
constructor(fanout=i)
self.assertRaises(ValueError, constructor, fanout=-1)
self.assertRaises(ValueError, constructor, fanout=256)
for i in range(1, 256):
constructor(depth=i)
self.assertRaises(ValueError, constructor, depth=-1)
self.assertRaises(ValueError, constructor, depth=0)
self.assertRaises(ValueError, constructor, depth=256)
for i in range(0, 256):
constructor(node_depth=i)
self.assertRaises(ValueError, constructor, node_depth=-1)
self.assertRaises(ValueError, constructor, node_depth=256)
for i in range(0, digest_size + 1):
constructor(inner_size=i)
self.assertRaises(ValueError, constructor, inner_size=-1)
self.assertRaises(ValueError, constructor, inner_size=digest_size+1)
constructor(leaf_size=0)
constructor(leaf_size=(1<<32)-1)
self.assertRaises(ValueError, constructor, leaf_size=-1)
self.assertRaises(OverflowError, constructor, leaf_size=1<<32)
constructor(node_offset=0)
constructor(node_offset=max_offset)
self.assertRaises(ValueError, constructor, node_offset=-1)
self.assertRaises(OverflowError, constructor, node_offset=max_offset+1)
self.assertRaises(TypeError, constructor, data=b'')
self.assertRaises(TypeError, constructor, string=b'')
self.assertRaises(TypeError, constructor, '')
constructor(
b'',
key=b'',
salt=b'',
person=b'',
digest_size=17,
fanout=1,
depth=1,
leaf_size=256,
node_offset=512,
node_depth=1,
inner_size=7,
last_node=True
)
def blake2_rfc7693(self, constructor, md_len, in_len):
def selftest_seq(length, seed):
mask = (1<<32)-1
a = (0xDEAD4BAD * seed) & mask
b = 1
out = bytearray(length)
for i in range(length):
t = (a + b) & mask
a, b = b, t
out[i] = (t >> 24) & 0xFF
return out
outer = constructor(digest_size=32)
for outlen in md_len:
for inlen in in_len:
indata = selftest_seq(inlen, inlen)
key = selftest_seq(outlen, outlen)
unkeyed = constructor(indata, digest_size=outlen)
outer.update(unkeyed.digest())
keyed = constructor(indata, key=key, digest_size=outlen)
outer.update(keyed.digest())
return outer.hexdigest()
@requires_blake2
def test_blake2b(self):
self.check_blake2(hashlib.blake2b, 16, 16, 64, 64, (1<<64)-1)
b2b_md_len = [20, 32, 48, 64]
b2b_in_len = [0, 3, 128, 129, 255, 1024]
self.assertEqual(
self.blake2_rfc7693(hashlib.blake2b, b2b_md_len, b2b_in_len),
"c23a7800d98123bd10f506c61e29da5603d763b8bbad2e737f5e765a7bccd475")
@requires_blake2
def test_case_blake2b_0(self):
self.check('blake2b', b"",
"786a02f742015903c6c6fd852552d272912f4740e15847618a86e217f71f5419"+
"d25e1031afee585313896444934eb04b903a685b1448b755d56f701afe9be2ce")
@requires_blake2
def test_case_blake2b_1(self):
self.check('blake2b', b"abc",
"ba80a53f981c4d0d6a2797b69f12f6e94c212f14685ac4b74b12bb6fdbffa2d1"+
"7d87c5392aab792dc252d5de4533cc9518d38aa8dbf1925ab92386edd4009923")
@requires_blake2
def test_case_blake2b_all_parameters(self):
# This checks that all the parameters work in general, and also that
# parameter byte order doesn't get confused on big endian platforms.
self.check('blake2b', b"foo",
"920568b0c5873b2f0ab67bedb6cf1b2b",
digest_size=16,
key=b"bar",
salt=b"baz",
person=b"bing",
fanout=2,
depth=3,
leaf_size=4,
node_offset=5,
node_depth=6,
inner_size=7,
last_node=True)
@requires_blake2
def test_blake2b_vectors(self):
for msg, key, md in read_vectors('blake2b'):
key = bytes.fromhex(key)
self.check('blake2b', msg, md, key=key)
@requires_blake2
def test_blake2s(self):
self.check_blake2(hashlib.blake2s, 8, 8, 32, 32, (1<<48)-1)
b2s_md_len = [16, 20, 28, 32]
b2s_in_len = [0, 3, 64, 65, 255, 1024]
self.assertEqual(
self.blake2_rfc7693(hashlib.blake2s, b2s_md_len, b2s_in_len),
"6a411f08ce25adcdfb02aba641451cec53c598b24f4fc787fbdc88797f4c1dfe")
@requires_blake2
def test_case_blake2s_0(self):
self.check('blake2s', b"",
"69217a3079908094e11121d042354a7c1f55b6482ca1a51e1b250dfd1ed0eef9")
@requires_blake2
def test_case_blake2s_1(self):
self.check('blake2s', b"abc",
"508c5e8c327c14e2e1a72ba34eeb452f37458b209ed63a294d999b4c86675982")
@requires_blake2
def test_case_blake2s_all_parameters(self):
# This checks that all the parameters work in general, and also that
# parameter byte order doesn't get confused on big endian platforms.
self.check('blake2s', b"foo",
"bf2a8f7fe3c555012a6f8046e646bc75",
digest_size=16,
key=b"bar",
salt=b"baz",
person=b"bing",
fanout=2,
depth=3,
leaf_size=4,
node_offset=5,
node_depth=6,
inner_size=7,
last_node=True)
@requires_blake2
def test_blake2s_vectors(self):
for msg, key, md in read_vectors('blake2s'):
key = bytes.fromhex(key)
self.check('blake2s', msg, md, key=key)
@requires_sha3
def test_case_sha3_224_0(self):
self.check('sha3_224', b"",
"6b4e03423667dbb73b6e15454f0eb1abd4597f9a1b078e3f5b5a6bc7")
@requires_sha3
def test_case_sha3_224_vector(self):
for msg, md in read_vectors('sha3_224'):
self.check('sha3_224', msg, md)
@requires_sha3
def test_case_sha3_256_0(self):
self.check('sha3_256', b"",
"a7ffc6f8bf1ed76651c14756a061d662f580ff4de43b49fa82d80a4b80f8434a")
@requires_sha3
def test_case_sha3_256_vector(self):
for msg, md in read_vectors('sha3_256'):
self.check('sha3_256', msg, md)
@requires_sha3
def test_case_sha3_384_0(self):
self.check('sha3_384', b"",
"0c63a75b845e4f7d01107d852e4c2485c51a50aaaa94fc61995e71bbee983a2a"+
"c3713831264adb47fb6bd1e058d5f004")
@requires_sha3
def test_case_sha3_384_vector(self):
for msg, md in read_vectors('sha3_384'):
self.check('sha3_384', msg, md)
@requires_sha3
def test_case_sha3_512_0(self):
self.check('sha3_512', b"",
"a69f73cca23a9ac5c8b567dc185a756e97c982164fe25859e0d1dcc1475c80a6"+
"15b2123af1f5f94c11e3e9402c3ac558f500199d95b6d3e301758586281dcd26")
@requires_sha3
def test_case_sha3_512_vector(self):
for msg, md in read_vectors('sha3_512'):
self.check('sha3_512', msg, md)
@requires_sha3
def test_case_shake_128_0(self):
self.check('shake_128', b"",
"7f9c2ba4e88f827d616045507605853ed73b8093f6efbc88eb1a6eacfa66ef26",
True)
self.check('shake_128', b"", "7f9c", True)
@requires_sha3
def test_case_shake128_vector(self):
for msg, md in read_vectors('shake_128'):
self.check('shake_128', msg, md, True)
@requires_sha3
def test_case_shake_256_0(self):
self.check('shake_256', b"",
"46b9dd2b0ba88d13233b3feb743eeb243fcd52ea62b81b82b50c27646ed5762f",
True)
self.check('shake_256', b"", "46b9", True)
@requires_sha3
def test_case_shake256_vector(self):
for msg, md in read_vectors('shake_256'):
self.check('shake_256', msg, md, True)
def test_gil(self):
# Check things work fine with an input larger than the size required
# for multithreaded operation (which is hardwired to 2048).
gil_minsize = 2048
for cons in self.hash_constructors:
m = cons(usedforsecurity=False)
m.update(b'1')
m.update(b'#' * gil_minsize)
m.update(b'1')
m = cons(b'x' * gil_minsize, usedforsecurity=False)
m.update(b'1')
m = hashlib.sha256()
m.update(b'1')
m.update(b'#' * gil_minsize)
m.update(b'1')
self.assertEqual(
m.hexdigest(),
'1cfceca95989f51f658e3f3ffe7f1cd43726c9e088c13ee10b46f57cef135b94'
)
m = hashlib.sha256(b'1' + b'#' * gil_minsize + b'1')
self.assertEqual(
m.hexdigest(),
'1cfceca95989f51f658e3f3ffe7f1cd43726c9e088c13ee10b46f57cef135b94'
)
@threading_helper.reap_threads
def test_threaded_hashing(self):
# Updating the same hash object from several threads at once
# using data chunk sizes containing the same byte sequences.
#
# If the internal locks are working to prevent multiple
# updates on the same object from running at once, the resulting
# hash will be the same as doing it single threaded upfront.
hasher = hashlib.sha1()
num_threads = 5
smallest_data = b'swineflu'
data = smallest_data * 200000
expected_hash = hashlib.sha1(data*num_threads).hexdigest()
def hash_in_chunks(chunk_size):
index = 0
while index < len(data):
hasher.update(data[index:index + chunk_size])
index += chunk_size
threads = []
for threadnum in range(num_threads):
chunk_size = len(data) // (10 ** threadnum)
self.assertGreater(chunk_size, 0)
self.assertEqual(chunk_size % len(smallest_data), 0)
thread = threading.Thread(target=hash_in_chunks,
args=(chunk_size,))
threads.append(thread)
for thread in threads:
thread.start()
for thread in threads:
thread.join()
self.assertEqual(expected_hash, hasher.hexdigest())
def test_get_fips_mode(self):
fips_mode = self.is_fips_mode
if fips_mode is not None:
self.assertIsInstance(fips_mode, int)
@unittest.skipUnless(HASH is not None, 'need _hashlib')
def test_internal_types(self):
# internal types like _hashlib.HASH are not constructable
with self.assertRaisesRegex(
TypeError, "cannot create 'HASH' instance"
):
HASH()
with self.assertRaisesRegex(
TypeError, "cannot create 'HASHXOF' instance"
):
HASHXOF()
class KDFTests(unittest.TestCase):
pbkdf2_test_vectors = [
(b'password', b'salt', 1, None),
(b'password', b'salt', 2, None),
(b'password', b'salt', 4096, None),
# too slow, it takes over a minute on a fast CPU.
#(b'password', b'salt', 16777216, None),
(b'passwordPASSWORDpassword', b'saltSALTsaltSALTsaltSALTsaltSALTsalt',
4096, -1),
(b'pass\0word', b'sa\0lt', 4096, 16),
]
scrypt_test_vectors = [
(b'', b'', 16, 1, 1, unhexlify('77d6576238657b203b19ca42c18a0497f16b4844e3074ae8dfdffa3fede21442fcd0069ded0948f8326a753a0fc81f17e8d3e0fb2e0d3628cf35e20c38d18906')),
(b'password', b'NaCl', 1024, 8, 16, unhexlify('fdbabe1c9d3472007856e7190d01e9fe7c6ad7cbc8237830e77376634b3731622eaf30d92e22a3886ff109279d9830dac727afb94a83ee6d8360cbdfa2cc0640')),
(b'pleaseletmein', b'SodiumChloride', 16384, 8, 1, unhexlify('7023bdcb3afd7348461c06cd81fd38ebfda8fbba904f8e3ea9b543f6545da1f2d5432955613f0fcf62d49705242a9af9e61e85dc0d651e40dfcf017b45575887')),
]
pbkdf2_results = {
"sha1": [
# official test vectors from RFC 6070
(bytes.fromhex('0c60c80f961f0e71f3a9b524af6012062fe037a6'), None),
(bytes.fromhex('ea6c014dc72d6f8ccd1ed92ace1d41f0d8de8957'), None),
(bytes.fromhex('4b007901b765489abead49d926f721d065a429c1'), None),
#(bytes.fromhex('eefe3d61cd4da4e4e9945b3d6ba2158c2634e984'), None),
(bytes.fromhex('3d2eec4fe41c849b80c8d83662c0e44a8b291a964c'
'f2f07038'), 25),
(bytes.fromhex('56fa6aa75548099dcc37d7f03425e0c3'), None),],
"sha256": [
(bytes.fromhex('120fb6cffcf8b32c43e7225256c4f837'
'a86548c92ccc35480805987cb70be17b'), None),
(bytes.fromhex('ae4d0c95af6b46d32d0adff928f06dd0'
'2a303f8ef3c251dfd6e2d85a95474c43'), None),
(bytes.fromhex('c5e478d59288c841aa530db6845c4c8d'
'962893a001ce4e11a4963873aa98134a'), None),
#(bytes.fromhex('cf81c66fe8cfc04d1f31ecb65dab4089'
# 'f7f179e89b3b0bcb17ad10e3ac6eba46'), None),
(bytes.fromhex('348c89dbcbd32b2f32d814b8116e84cf2b17'
'347ebc1800181c4e2a1fb8dd53e1c635518c7dac47e9'), 40),
(bytes.fromhex('89b69d0516f829893c696226650a8687'), None),],
"sha512": [
(bytes.fromhex('867f70cf1ade02cff3752599a3a53dc4af34c7a669815ae5'
'd513554e1c8cf252c02d470a285a0501bad999bfe943c08f'
'050235d7d68b1da55e63f73b60a57fce'), None),
(bytes.fromhex('e1d9c16aa681708a45f5c7c4e215ceb66e011a2e9f004071'
'3f18aefdb866d53cf76cab2868a39b9f7840edce4fef5a82'
'be67335c77a6068e04112754f27ccf4e'), None),
(bytes.fromhex('d197b1b33db0143e018b12f3d1d1479e6cdebdcc97c5c0f8'
'7f6902e072f457b5143f30602641b3d55cd335988cb36b84'
'376060ecd532e039b742a239434af2d5'), None),
(bytes.fromhex('8c0511f4c6e597c6ac6315d8f0362e225f3c501495ba23b8'
'68c005174dc4ee71115b59f9e60cd9532fa33e0f75aefe30'
'225c583a186cd82bd4daea9724a3d3b8'), 64),
(bytes.fromhex('9d9e9c4cd21fe4be24d5b8244c759665'), None),],
}
def _test_pbkdf2_hmac(self, pbkdf2, supported):
for digest_name, results in self.pbkdf2_results.items():
if digest_name not in supported:
continue
for i, vector in enumerate(self.pbkdf2_test_vectors):
password, salt, rounds, dklen = vector
expected, overwrite_dklen = results[i]
if overwrite_dklen:
dklen = overwrite_dklen
out = pbkdf2(digest_name, password, salt, rounds, dklen)
self.assertEqual(out, expected,
(digest_name, password, salt, rounds, dklen))
out = pbkdf2(digest_name, memoryview(password),
memoryview(salt), rounds, dklen)
self.assertEqual(out, expected)
out = pbkdf2(digest_name, bytearray(password),
bytearray(salt), rounds, dklen)
self.assertEqual(out, expected)
if dklen is None:
out = pbkdf2(digest_name, password, salt, rounds)
self.assertEqual(out, expected,
(digest_name, password, salt, rounds))
with self.assertRaisesRegex(ValueError, 'unsupported hash type'):
pbkdf2('unknown', b'pass', b'salt', 1)
if 'sha1' in supported:
self.assertRaises(
TypeError, pbkdf2, b'sha1', b'pass', b'salt', 1
)
self.assertRaises(
TypeError, pbkdf2, 'sha1', 'pass', 'salt', 1
)
self.assertRaises(
ValueError, pbkdf2, 'sha1', b'pass', b'salt', 0
)
self.assertRaises(
ValueError, pbkdf2, 'sha1', b'pass', b'salt', -1
)
self.assertRaises(
ValueError, pbkdf2, 'sha1', b'pass', b'salt', 1, 0
)
self.assertRaises(
ValueError, pbkdf2, 'sha1', b'pass', b'salt', 1, -1
)
out = pbkdf2(hash_name='sha1', password=b'password', salt=b'salt',
iterations=1, dklen=None)
self.assertEqual(out, self.pbkdf2_results['sha1'][0][0])
def test_pbkdf2_hmac_py(self):
self._test_pbkdf2_hmac(py_hashlib.pbkdf2_hmac, builtin_hashes)
@unittest.skipUnless(hasattr(c_hashlib, 'pbkdf2_hmac'),
' test requires OpenSSL > 1.0')
def test_pbkdf2_hmac_c(self):
self._test_pbkdf2_hmac(c_hashlib.pbkdf2_hmac, openssl_md_meth_names)
@unittest.skipUnless(hasattr(c_hashlib, 'scrypt'),
' test requires OpenSSL > 1.1')
def test_scrypt(self):
for password, salt, n, r, p, expected in self.scrypt_test_vectors:
result = hashlib.scrypt(password, salt=salt, n=n, r=r, p=p)
self.assertEqual(result, expected)
# this values should work
hashlib.scrypt(b'password', salt=b'salt', n=2, r=8, p=1)
# password and salt must be bytes-like
with self.assertRaises(TypeError):
hashlib.scrypt('password', salt=b'salt', n=2, r=8, p=1)
with self.assertRaises(TypeError):
hashlib.scrypt(b'password', salt='salt', n=2, r=8, p=1)
# require keyword args
with self.assertRaises(TypeError):
hashlib.scrypt(b'password')
with self.assertRaises(TypeError):
hashlib.scrypt(b'password', b'salt')
with self.assertRaises(TypeError):
hashlib.scrypt(b'password', 2, 8, 1, salt=b'salt')
for n in [-1, 0, 1, None]:
with self.assertRaises((ValueError, OverflowError, TypeError)):
hashlib.scrypt(b'password', salt=b'salt', n=n, r=8, p=1)
for r in [-1, 0, None]:
with self.assertRaises((ValueError, OverflowError, TypeError)):
hashlib.scrypt(b'password', salt=b'salt', n=2, r=r, p=1)
for p in [-1, 0, None]:
with self.assertRaises((ValueError, OverflowError, TypeError)):
hashlib.scrypt(b'password', salt=b'salt', n=2, r=8, p=p)
for maxmem in [-1, None]:
with self.assertRaises((ValueError, OverflowError, TypeError)):
hashlib.scrypt(b'password', salt=b'salt', n=2, r=8, p=1,
maxmem=maxmem)
for dklen in [-1, None]:
with self.assertRaises((ValueError, OverflowError, TypeError)):
hashlib.scrypt(b'password', salt=b'salt', n=2, r=8, p=1,
dklen=dklen)
def test_normalized_name(self):
self.assertNotIn("blake2b512", hashlib.algorithms_available)
self.assertNotIn("sha3-512", hashlib.algorithms_available)
if __name__ == "__main__":
unittest.main()