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RVC-beta-v2-0618 / runtime /Lib /site-packages /Crypto /SelfTest /Cipher /test_pkcs1_oaep.py

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	# -- coding: utf-8 --
	#
	# SelfTest/Cipher/test_pkcs1_oaep.py: Self-test for PKCS#1 OAEP encryption
	#
	# ===================================================================
	# The contents of this file are dedicated to the public domain. To
	# the extent that dedication to the public domain is not available,
	# everyone is granted a worldwide, perpetual, royalty-free,
	# non-exclusive license to exercise all rights associated with the
	# contents of this file for any purpose whatsoever.
	# No rights are reserved.
	#
	# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
	# EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
	# MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
	# NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
	# BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
	# ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
	# CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
	# SOFTWARE.
	# ===================================================================

	import unittest

	from Crypto.SelfTest.st_common import list_test_cases, a2b_hex
	from Crypto.SelfTest.loader import load_test_vectors_wycheproof

	from Crypto.PublicKey import RSA
	from Crypto.Cipher import PKCS1_OAEP as PKCS
	from Crypto.Hash import MD2, MD5, SHA1, SHA256, RIPEMD160, SHA224, SHA384, SHA512
	from Crypto import Random
	from Crypto.Signature.pss import MGF1

	from Crypto.Util.py3compat import b, bchr


	def rws(t):
	"""Remove white spaces, tabs, and new lines from a string"""
	for c in ['\n', '\t', ' ']:
	t = t.replace(c, '')
	return t


	def t2b(t):
	"""Convert a text string with bytes in hex form to a byte string"""
	clean = rws(t)
	if len(clean) % 2 == 1:
	raise ValueError("Even number of characters expected")
	return a2b_hex(clean)


	class PKCS1_OAEP_Tests(unittest.TestCase):

	def setUp(self):
	self.rng = Random.new().read
	self.key1024 = RSA.generate(1024, self.rng)

	# List of tuples with test data for PKCS#1 OAEP
	# Each tuple is made up by:
	# Item #0: dictionary with RSA key component
	# Item #1: plaintext
	# Item #2: ciphertext
	# Item #3: random data (=seed)
	# Item #4: hash object

	_testData = (

	#
	# From in oaep-int.txt to be found in
	# ftp://ftp.rsasecurity.com/pub/pkcs/pkcs-1/pkcs-1v2-1-vec.zip
	#
	(
	# Private key
	{
	'n':'''bb f8 2f 09 06 82 ce 9c 23 38 ac 2b 9d a8 71 f7
	36 8d 07 ee d4 10 43 a4 40 d6 b6 f0 74 54 f5 1f
	b8 df ba af 03 5c 02 ab 61 ea 48 ce eb 6f cd 48
	76 ed 52 0d 60 e1 ec 46 19 71 9d 8a 5b 8b 80 7f
	af b8 e0 a3 df c7 37 72 3e e6 b4 b7 d9 3a 25 84
	ee 6a 64 9d 06 09 53 74 88 34 b2 45 45 98 39 4e
	e0 aa b1 2d 7b 61 a5 1f 52 7a 9a 41 f6 c1 68 7f
	e2 53 72 98 ca 2a 8f 59 46 f8 e5 fd 09 1d bd cb''',
	# Public key
	'e':'11',
	# In the test vector, only p and q were given...
	# d is computed offline as e^{-1} mod (p-1)(q-1)
	'd':'''a5dafc5341faf289c4b988db30c1cdf83f31251e0
	668b42784813801579641b29410b3c7998d6bc465745e5c3
	92669d6870da2c082a939e37fdcb82ec93edac97ff3ad595
	0accfbc111c76f1a9529444e56aaf68c56c092cd38dc3bef
	5d20a939926ed4f74a13eddfbe1a1cecc4894af9428c2b7b
	8883fe4463a4bc85b1cb3c1'''
	}
	,
	# Plaintext
	'''d4 36 e9 95 69 fd 32 a7 c8 a0 5b bc 90 d3 2c 49''',
	# Ciphertext
	'''12 53 e0 4d c0 a5 39 7b b4 4a 7a b8 7e 9b f2 a0
	39 a3 3d 1e 99 6f c8 2a 94 cc d3 00 74 c9 5d f7
	63 72 20 17 06 9e 52 68 da 5d 1c 0b 4f 87 2c f6
	53 c1 1d f8 23 14 a6 79 68 df ea e2 8d ef 04 bb
	6d 84 b1 c3 1d 65 4a 19 70 e5 78 3b d6 eb 96 a0
	24 c2 ca 2f 4a 90 fe 9f 2e f5 c9 c1 40 e5 bb 48
	da 95 36 ad 87 00 c8 4f c9 13 0a de a7 4e 55 8d
	51 a7 4d df 85 d8 b5 0d e9 68 38 d6 06 3e 09 55''',
	# Random
	'''aa fd 12 f6 59 ca e6 34 89 b4 79 e5 07 6d de c2
	f0 6c b5 8f''',
	# Hash
	SHA1,
	),

	#
	# From in oaep-vect.txt to be found in Example 1.1
	# ftp://ftp.rsasecurity.com/pub/pkcs/pkcs-1/pkcs-1v2-1-vec.zip
	#
	(
	# Private key
	{
	'n':'''a8 b3 b2 84 af 8e b5 0b 38 70 34 a8 60 f1 46 c4
	91 9f 31 87 63 cd 6c 55 98 c8 ae 48 11 a1 e0 ab
	c4 c7 e0 b0 82 d6 93 a5 e7 fc ed 67 5c f4 66 85
	12 77 2c 0c bc 64 a7 42 c6 c6 30 f5 33 c8 cc 72
	f6 2a e8 33 c4 0b f2 58 42 e9 84 bb 78 bd bf 97
	c0 10 7d 55 bd b6 62 f5 c4 e0 fa b9 84 5c b5 14
	8e f7 39 2d d3 aa ff 93 ae 1e 6b 66 7b b3 d4 24
	76 16 d4 f5 ba 10 d4 cf d2 26 de 88 d3 9f 16 fb''',
	'e':'''01 00 01''',
	'd':'''53 33 9c fd b7 9f c8 46 6a 65 5c 73 16 ac a8 5c
	55 fd 8f 6d d8 98 fd af 11 95 17 ef 4f 52 e8 fd
	8e 25 8d f9 3f ee 18 0f a0 e4 ab 29 69 3c d8 3b
	15 2a 55 3d 4a c4 d1 81 2b 8b 9f a5 af 0e 7f 55
	fe 73 04 df 41 57 09 26 f3 31 1f 15 c4 d6 5a 73
	2c 48 31 16 ee 3d 3d 2d 0a f3 54 9a d9 bf 7c bf
	b7 8a d8 84 f8 4d 5b eb 04 72 4d c7 36 9b 31 de
	f3 7d 0c f5 39 e9 cf cd d3 de 65 37 29 ea d5 d1 '''
	}
	,
	# Plaintext
	'''66 28 19 4e 12 07 3d b0 3b a9 4c da 9e f9 53 23
	97 d5 0d ba 79 b9 87 00 4a fe fe 34''',
	# Ciphertext
	'''35 4f e6 7b 4a 12 6d 5d 35 fe 36 c7 77 79 1a 3f
	7b a1 3d ef 48 4e 2d 39 08 af f7 22 fa d4 68 fb
	21 69 6d e9 5d 0b e9 11 c2 d3 17 4f 8a fc c2 01
	03 5f 7b 6d 8e 69 40 2d e5 45 16 18 c2 1a 53 5f
	a9 d7 bf c5 b8 dd 9f c2 43 f8 cf 92 7d b3 13 22
	d6 e8 81 ea a9 1a 99 61 70 e6 57 a0 5a 26 64 26
	d9 8c 88 00 3f 84 77 c1 22 70 94 a0 d9 fa 1e 8c
	40 24 30 9c e1 ec cc b5 21 00 35 d4 7a c7 2e 8a''',
	# Random
	'''18 b7 76 ea 21 06 9d 69 77 6a 33 e9 6b ad 48 e1
	dd a0 a5 ef''',
	SHA1
	),

	#
	# From in oaep-vect.txt to be found in Example 2.1
	# ftp://ftp.rsasecurity.com/pub/pkcs/pkcs-1/pkcs-1v2-1-vec.zip
	#
	(
	# Private key
	{
	'n':'''01 94 7c 7f ce 90 42 5f 47 27 9e 70 85 1f 25 d5
	e6 23 16 fe 8a 1d f1 93 71 e3 e6 28 e2 60 54 3e
	49 01 ef 60 81 f6 8c 0b 81 41 19 0d 2a e8 da ba
	7d 12 50 ec 6d b6 36 e9 44 ec 37 22 87 7c 7c 1d
	0a 67 f1 4b 16 94 c5 f0 37 94 51 a4 3e 49 a3 2d
	de 83 67 0b 73 da 91 a1 c9 9b c2 3b 43 6a 60 05
	5c 61 0f 0b af 99 c1 a0 79 56 5b 95 a3 f1 52 66
	32 d1 d4 da 60 f2 0e da 25 e6 53 c4 f0 02 76 6f
	45''',
	'e':'''01 00 01''',
	'd':'''08 23 f2 0f ad b5 da 89 08 8a 9d 00 89 3e 21 fa
	4a 1b 11 fb c9 3c 64 a3 be 0b aa ea 97 fb 3b 93
	c3 ff 71 37 04 c1 9c 96 3c 1d 10 7a ae 99 05 47
	39 f7 9e 02 e1 86 de 86 f8 7a 6d de fe a6 d8 cc
	d1 d3 c8 1a 47 bf a7 25 5b e2 06 01 a4 a4 b2 f0
	8a 16 7b 5e 27 9d 71 5b 1b 45 5b dd 7e ab 24 59
	41 d9 76 8b 9a ce fb 3c cd a5 95 2d a3 ce e7 25
	25 b4 50 16 63 a8 ee 15 c9 e9 92 d9 24 62 fe 39'''
	},
	# Plaintext
	'''8f f0 0c aa 60 5c 70 28 30 63 4d 9a 6c 3d 42 c6
	52 b5 8c f1 d9 2f ec 57 0b ee e7''',
	# Ciphertext
	'''01 81 af 89 22 b9 fc b4 d7 9d 92 eb e1 98 15 99
	2f c0 c1 43 9d 8b cd 49 13 98 a0 f4 ad 3a 32 9a
	5b d9 38 55 60 db 53 26 83 c8 b7 da 04 e4 b1 2a
	ed 6a ac df 47 1c 34 c9 cd a8 91 ad dc c2 df 34
	56 65 3a a6 38 2e 9a e5 9b 54 45 52 57 eb 09 9d
	56 2b be 10 45 3f 2b 6d 13 c5 9c 02 e1 0f 1f 8a
	bb 5d a0 d0 57 09 32 da cf 2d 09 01 db 72 9d 0f
	ef cc 05 4e 70 96 8e a5 40 c8 1b 04 bc ae fe 72
	0e''',
	# Random
	'''8c 40 7b 5e c2 89 9e 50 99 c5 3e 8c e7 93 bf 94
	e7 1b 17 82''',
	SHA1
	),

	#
	# From in oaep-vect.txt to be found in Example 10.1
	# ftp://ftp.rsasecurity.com/pub/pkcs/pkcs-1/pkcs-1v2-1-vec.zip
	#
	(
	# Private key
	{
	'n':'''ae 45 ed 56 01 ce c6 b8 cc 05 f8 03 93 5c 67 4d
	db e0 d7 5c 4c 09 fd 79 51 fc 6b 0c ae c3 13 a8
	df 39 97 0c 51 8b ff ba 5e d6 8f 3f 0d 7f 22 a4
	02 9d 41 3f 1a e0 7e 4e be 9e 41 77 ce 23 e7 f5
	40 4b 56 9e 4e e1 bd cf 3c 1f b0 3e f1 13 80 2d
	4f 85 5e b9 b5 13 4b 5a 7c 80 85 ad ca e6 fa 2f
	a1 41 7e c3 76 3b e1 71 b0 c6 2b 76 0e de 23 c1
	2a d9 2b 98 08 84 c6 41 f5 a8 fa c2 6b da d4 a0
	33 81 a2 2f e1 b7 54 88 50 94 c8 25 06 d4 01 9a
	53 5a 28 6a fe b2 71 bb 9b a5 92 de 18 dc f6 00
	c2 ae ea e5 6e 02 f7 cf 79 fc 14 cf 3b dc 7c d8
	4f eb bb f9 50 ca 90 30 4b 22 19 a7 aa 06 3a ef
	a2 c3 c1 98 0e 56 0c d6 4a fe 77 95 85 b6 10 76
	57 b9 57 85 7e fd e6 01 09 88 ab 7d e4 17 fc 88
	d8 f3 84 c4 e6 e7 2c 3f 94 3e 0c 31 c0 c4 a5 cc
	36 f8 79 d8 a3 ac 9d 7d 59 86 0e aa da 6b 83 bb''',
	'e':'''01 00 01''',
	'd':'''05 6b 04 21 6f e5 f3 54 ac 77 25 0a 4b 6b 0c 85
	25 a8 5c 59 b0 bd 80 c5 64 50 a2 2d 5f 43 8e 59
	6a 33 3a a8 75 e2 91 dd 43 f4 8c b8 8b 9d 5f c0
	d4 99 f9 fc d1 c3 97 f9 af c0 70 cd 9e 39 8c 8d
	19 e6 1d b7 c7 41 0a 6b 26 75 df bf 5d 34 5b 80
	4d 20 1a dd 50 2d 5c e2 df cb 09 1c e9 99 7b be
	be 57 30 6f 38 3e 4d 58 81 03 f0 36 f7 e8 5d 19
	34 d1 52 a3 23 e4 a8 db 45 1d 6f 4a 5b 1b 0f 10
	2c c1 50 e0 2f ee e2 b8 8d ea 4a d4 c1 ba cc b2
	4d 84 07 2d 14 e1 d2 4a 67 71 f7 40 8e e3 05 64
	fb 86 d4 39 3a 34 bc f0 b7 88 50 1d 19 33 03 f1
	3a 22 84 b0 01 f0 f6 49 ea f7 93 28 d4 ac 5c 43
	0a b4 41 49 20 a9 46 0e d1 b7 bc 40 ec 65 3e 87
	6d 09 ab c5 09 ae 45 b5 25 19 01 16 a0 c2 61 01
	84 82 98 50 9c 1c 3b f3 a4 83 e7 27 40 54 e1 5e
	97 07 50 36 e9 89 f6 09 32 80 7b 52 57 75 1e 79'''
	},
	# Plaintext
	'''8b ba 6b f8 2a 6c 0f 86 d5 f1 75 6e 97 95 68 70
	b0 89 53 b0 6b 4e b2 05 bc 16 94 ee''',
	# Ciphertext
	'''53 ea 5d c0 8c d2 60 fb 3b 85 85 67 28 7f a9 15
	52 c3 0b 2f eb fb a2 13 f0 ae 87 70 2d 06 8d 19
	ba b0 7f e5 74 52 3d fb 42 13 9d 68 c3 c5 af ee
	e0 bf e4 cb 79 69 cb f3 82 b8 04 d6 e6 13 96 14
	4e 2d 0e 60 74 1f 89 93 c3 01 4b 58 b9 b1 95 7a
	8b ab cd 23 af 85 4f 4c 35 6f b1 66 2a a7 2b fc
	c7 e5 86 55 9d c4 28 0d 16 0c 12 67 85 a7 23 eb
	ee be ff 71 f1 15 94 44 0a ae f8 7d 10 79 3a 87
	74 a2 39 d4 a0 4c 87 fe 14 67 b9 da f8 52 08 ec
	6c 72 55 79 4a 96 cc 29 14 2f 9a 8b d4 18 e3 c1
	fd 67 34 4b 0c d0 82 9d f3 b2 be c6 02 53 19 62
	93 c6 b3 4d 3f 75 d3 2f 21 3d d4 5c 62 73 d5 05
	ad f4 cc ed 10 57 cb 75 8f c2 6a ee fa 44 12 55
	ed 4e 64 c1 99 ee 07 5e 7f 16 64 61 82 fd b4 64
	73 9b 68 ab 5d af f0 e6 3e 95 52 01 68 24 f0 54
	bf 4d 3c 8c 90 a9 7b b6 b6 55 32 84 eb 42 9f cc''',
	# Random
	'''47 e1 ab 71 19 fe e5 6c 95 ee 5e aa d8 6f 40 d0
	aa 63 bd 33''',
	SHA1
	),
	)

	def testEncrypt1(self):
	# Verify encryption using all test vectors
	for test in self._testData:
	# Build the key
	comps = [int(rws(test[0][x]), 16) for x in ('n', 'e')]
	key = RSA.construct(comps)

	# RNG that takes its random numbers from a pool given
	# at initialization
	class randGen:

	def __init__(self, data):
	self.data = data
	self.idx = 0

	def __call__(self, N):
	r = self.data[self.idx:N]
	self.idx += N
	return r

	# The real test
	cipher = PKCS.new(key, test[4], randfunc=randGen(t2b(test[3])))
	ct = cipher.encrypt(t2b(test[1]))
	self.assertEqual(ct, t2b(test[2]))

	def testEncrypt2(self):
	# Verify that encryption fails if plaintext is too long
	pt = '\x00'(128-220-2+1)
	cipher = PKCS.new(self.key1024)
	self.assertRaises(ValueError, cipher.encrypt, pt)

	def testDecrypt1(self):
	# Verify decryption using all test vectors
	for test in self._testData:
	# Build the key
	comps = [int(rws(test[0][x]),16) for x in ('n', 'e', 'd')]
	key = RSA.construct(comps)
	# The real test
	cipher = PKCS.new(key, test[4])
	pt = cipher.decrypt(t2b(test[2]))
	self.assertEqual(pt, t2b(test[1]))

	def testDecrypt2(self):
	# Simplest possible negative tests
	for ct_size in (127, 128, 129):
	cipher = PKCS.new(self.key1024)
	self.assertRaises(ValueError, cipher.decrypt, bchr(0x00)*ct_size)

	def testEncryptDecrypt1(self):
	# Encrypt/Decrypt messages of length [0..128-2*20-2]
	for pt_len in range(0, 128-2*20-2):
	pt = self.rng(pt_len)
	cipher = PKCS.new(self.key1024)
	ct = cipher.encrypt(pt)
	pt2 = cipher.decrypt(ct)
	self.assertEqual(pt, pt2)

	def testEncryptDecrypt2(self):
	# Helper function to monitor what's requested from RNG
	global asked

	def localRng(N):
	global asked
	asked += N
	return self.rng(N)

	# Verify that OAEP is friendly to all hashes
	for hashmod in (MD2, MD5, SHA1, SHA256, RIPEMD160):
	# Verify that encrypt() asks for as many random bytes
	# as the hash output size
	asked = 0
	pt = self.rng(40)
	cipher = PKCS.new(self.key1024, hashmod, randfunc=localRng)
	ct = cipher.encrypt(pt)
	self.assertEqual(cipher.decrypt(ct), pt)
	self.assertEqual(asked, hashmod.digest_size)

	def testEncryptDecrypt3(self):
	# Verify that OAEP supports labels
	pt = self.rng(35)
	xlabel = self.rng(22)
	cipher = PKCS.new(self.key1024, label=xlabel)
	ct = cipher.encrypt(pt)
	self.assertEqual(cipher.decrypt(ct), pt)

	def testEncryptDecrypt4(self):
	# Verify that encrypt() uses the custom MGF
	global mgfcalls
	# Helper function to monitor what's requested from MGF

	def newMGF(seed, maskLen):
	global mgfcalls
	mgfcalls += 1
	return b'\x00' * maskLen

	mgfcalls = 0
	pt = self.rng(32)
	cipher = PKCS.new(self.key1024, mgfunc=newMGF)
	ct = cipher.encrypt(pt)
	self.assertEqual(mgfcalls, 2)
	self.assertEqual(cipher.decrypt(ct), pt)

	def testByteArray(self):
	pt = b("XER")
	cipher = PKCS.new(self.key1024)
	ct = cipher.encrypt(bytearray(pt))
	pt2 = cipher.decrypt(bytearray(ct))
	self.assertEqual(pt, pt2)

	def testMemoryview(self):
	pt = b("XER")
	cipher = PKCS.new(self.key1024)
	ct = cipher.encrypt(memoryview(bytearray(pt)))
	pt2 = cipher.decrypt(memoryview(bytearray(ct)))
	self.assertEqual(pt, pt2)


	class TestVectorsWycheproof(unittest.TestCase):

	def __init__(self, wycheproof_warnings, skip_slow_tests):
	unittest.TestCase.__init__(self)
	self._wycheproof_warnings = wycheproof_warnings
	self._skip_slow_tests = skip_slow_tests
	self._id = "None"

	def load_tests(self, filename):

	def filter_rsa(group):
	return RSA.import_key(group['privateKeyPem'])

	def filter_sha(group):
	if group['sha'] == "SHA-1":
	return SHA1
	elif group['sha'] == "SHA-224":
	return SHA224
	elif group['sha'] == "SHA-256":
	return SHA256
	elif group['sha'] == "SHA-384":
	return SHA384
	elif group['sha'] == "SHA-512":
	return SHA512
	else:
	raise ValueError("Unknown sha " + group['sha'])

	def filter_mgf(group):
	if group['mgfSha'] == "SHA-1":
	return lambda x, y: MGF1(x, y, SHA1)
	elif group['mgfSha'] == "SHA-224":
	return lambda x, y: MGF1(x, y, SHA224)
	elif group['mgfSha'] == "SHA-256":
	return lambda x, y: MGF1(x, y, SHA256)
	elif group['mgfSha'] == "SHA-384":
	return lambda x, y: MGF1(x, y, SHA384)
	elif group['mgfSha'] == "SHA-512":
	return lambda x, y: MGF1(x, y, SHA512)
	else:
	raise ValueError("Unknown mgf/sha " + group['mgfSha'])

	def filter_algo(group):
	return "%s with MGF1/%s" % (group['sha'], group['mgfSha'])

	result = load_test_vectors_wycheproof(("Cipher", "wycheproof"),
	filename,
	"Wycheproof PKCS#1 OAEP (%s)" % filename,
	group_tag={'rsa_key': filter_rsa,
	'hash_mod': filter_sha,
	'mgf': filter_mgf,
	'algo': filter_algo}
	)
	return result

	def setUp(self):
	self.tv = []
	self.tv.extend(self.load_tests("rsa_oaep_2048_sha1_mgf1sha1_test.json"))
	self.tv.extend(self.load_tests("rsa_oaep_2048_sha224_mgf1sha1_test.json"))
	self.tv.extend(self.load_tests("rsa_oaep_2048_sha224_mgf1sha224_test.json"))
	self.tv.extend(self.load_tests("rsa_oaep_2048_sha256_mgf1sha1_test.json"))
	self.tv.extend(self.load_tests("rsa_oaep_2048_sha256_mgf1sha256_test.json"))
	self.tv.extend(self.load_tests("rsa_oaep_2048_sha384_mgf1sha1_test.json"))
	self.tv.extend(self.load_tests("rsa_oaep_2048_sha384_mgf1sha384_test.json"))
	self.tv.extend(self.load_tests("rsa_oaep_2048_sha512_mgf1sha1_test.json"))
	self.tv.extend(self.load_tests("rsa_oaep_2048_sha512_mgf1sha512_test.json"))
	if not self._skip_slow_tests:
	self.tv.extend(self.load_tests("rsa_oaep_3072_sha256_mgf1sha1_test.json"))
	self.tv.extend(self.load_tests("rsa_oaep_3072_sha256_mgf1sha256_test.json"))
	self.tv.extend(self.load_tests("rsa_oaep_3072_sha512_mgf1sha1_test.json"))
	self.tv.extend(self.load_tests("rsa_oaep_3072_sha512_mgf1sha512_test.json"))
	self.tv.extend(self.load_tests("rsa_oaep_4096_sha256_mgf1sha1_test.json"))
	self.tv.extend(self.load_tests("rsa_oaep_4096_sha256_mgf1sha256_test.json"))
	self.tv.extend(self.load_tests("rsa_oaep_4096_sha512_mgf1sha1_test.json"))
	self.tv.extend(self.load_tests("rsa_oaep_4096_sha512_mgf1sha512_test.json"))
	self.tv.extend(self.load_tests("rsa_oaep_4096_sha512_mgf1sha512_test.json"))
	self.tv.extend(self.load_tests("rsa_oaep_misc_test.json"))

	def shortDescription(self):
	return self._id

	def warn(self, tv):
	if tv.warning and self._wycheproof_warnings:
	import warnings
	warnings.warn("Wycheproof warning: %s (%s)" % (self._id, tv.comment))

	def test_decrypt(self, tv):
	self._id = "Wycheproof Decrypt %s Test #%s" % (tv.algo, tv.id)

	cipher = PKCS.new(tv.rsa_key, hashAlgo=tv.hash_mod, mgfunc=tv.mgf, label=tv.label)
	try:
	pt = cipher.decrypt(tv.ct)
	except ValueError:
	assert not tv.valid
	else:
	assert tv.valid
	self.assertEqual(pt, tv.msg)
	self.warn(tv)

	def runTest(self):

	for tv in self.tv:
	self.test_decrypt(tv)


	def get_tests(config={}):
	skip_slow_tests = not config.get('slow_tests')
	wycheproof_warnings = config.get('wycheproof_warnings')

	tests = []
	tests += list_test_cases(PKCS1_OAEP_Tests)
	tests += [TestVectorsWycheproof(wycheproof_warnings, skip_slow_tests)]
	return tests


	if __name__ == '__main__':
	def suite():
	unittest.TestSuite(get_tests())
	unittest.main(defaultTest='suite')

	# vim:set ts=4 sw=4 sts=4 expandtab: