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test_dss.py
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# # SelfTest/Signature/test_dss.py: Self-test for DSS signatures # # =================================================================== # # Copyright (c) 2014, Legrandin <helderijs@gmail.com> # All rights reserved. # # Redistribution and use in source and binary forms, with or without # modification, are permitted provided that the following conditions # are met: # # 1. Redistributions of source code must retain the above copyright # notice, this list of conditions and the following disclaimer. # 2. Redistributions in binary form must reproduce the above copyright # notice, this list of conditions and the following disclaimer in # the documentation and/or other materials provided with the # distribution. # # THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS # "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT # LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS # FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE # COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, # INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, # BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; # LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER # CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT # LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN # ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE # POSSIBILITY OF SUCH DAMAGE. # =================================================================== import re import json import unittest from binascii import hexlify, unhexlify from Cryptodome.Util.py3compat import tobytes, bord, bchr from Cryptodome.Hash import (SHA1, SHA224, SHA256, SHA384, SHA512, SHA3_256, SHA3_384, SHA3_512) from Cryptodome.Signature import DSS from Cryptodome.PublicKey import DSA, ECC from Cryptodome.SelfTest.st_common import list_test_cases from Cryptodome.SelfTest.loader import load_tests from Cryptodome.Util.number import bytes_to_long, long_to_bytes from Cryptodome.Util._file_system import pycryptodome_filename from Cryptodome.Util.strxor import strxor def t2b(hexstring): ws = hexstring.replace(" ", "").replace("\n", "") return unhexlify(tobytes(ws)) def t2l(hexstring): ws = hexstring.replace(" ", "").replace("\n", "") return int(ws, 16) def load_hash_by_name(hash_name): return __import__("Cryptodome.Hash." + hash_name, globals(), locals(), ["new"]) class StrRNG: def __init__(self, randomness): length = len(randomness) self._idx = 0 # Fix required to get the right K (see how randint() works!) self._randomness = long_to_bytes(bytes_to_long(randomness) - 1, length) def __call__(self, n): out = self._randomness[self._idx:self._idx + n] self._idx += n return out class FIPS_DSA_Tests(unittest.TestCase): # 1st 1024 bit key from SigGen.txt P = 0xa8f9cd201e5e35d892f85f80e4db2599a5676a3b1d4f190330ed3256b26d0e80a0e49a8fffaaad2a24f472d2573241d4d6d6c7480c80b4c67bb4479c15ada7ea8424d2502fa01472e760241713dab025ae1b02e1703a1435f62ddf4ee4c1b664066eb22f2e3bf28bb70a2a76e4fd5ebe2d1229681b5b06439ac9c7e9d8bde283 Q = 0xf85f0f83ac4df7ea0cdf8f469bfeeaea14156495 G = 0x2b3152ff6c62f14622b8f48e59f8af46883b38e79b8c74deeae9df131f8b856e3ad6c8455dab87cc0da8ac973417ce4f7878557d6cdf40b35b4a0ca3eb310c6a95d68ce284ad4e25ea28591611ee08b8444bd64b25f3f7c572410ddfb39cc728b9c936f85f419129869929cdb909a6a3a99bbe089216368171bd0ba81de4fe33 X = 0xc53eae6d45323164c7d07af5715703744a63fc3a Y = 0x313fd9ebca91574e1c2eebe1517c57e0c21b0209872140c5328761bbb2450b33f1b18b409ce9ab7c4cd8fda3391e8e34868357c199e16a6b2eba06d6749def791d79e95d3a4d09b24c392ad89dbf100995ae19c01062056bb14bce005e8731efde175f95b975089bdcdaea562b32786d96f5a31aedf75364008ad4fffebb970b key_pub = DSA.construct((Y, G, P, Q)) key_priv = DSA.construct((Y, G, P, Q, X)) def shortDescription(self): return "FIPS DSA Tests" def test_loopback(self): hashed_msg = SHA512.new(b"test") signer = DSS.new(self.key_priv, 'fips-186-3') signature = signer.sign(hashed_msg) verifier = DSS.new(self.key_pub, 'fips-186-3') verifier.verify(hashed_msg, signature) def test_negative_unapproved_hashes(self): """Verify that unapproved hashes are rejected""" from Cryptodome.Hash import RIPEMD160 self.description = "Unapproved hash (RIPEMD160) test" hash_obj = RIPEMD160.new() signer = DSS.new(self.key_priv, 'fips-186-3') self.assertRaises(ValueError, signer.sign, hash_obj) self.assertRaises(ValueError, signer.verify, hash_obj, b"\x00" * 40) def test_negative_unknown_modes_encodings(self): """Verify that unknown modes/encodings are rejected""" self.description = "Unknown mode test" self.assertRaises(ValueError, DSS.new, self.key_priv, 'fips-186-0') self.description = "Unknown encoding test" self.assertRaises(ValueError, DSS.new, self.key_priv, 'fips-186-3', 'xml') def test_asn1_encoding(self): """Verify ASN.1 encoding""" self.description = "ASN.1 encoding test" hash_obj = SHA1.new() signer = DSS.new(self.key_priv, 'fips-186-3', 'der') signature = signer.sign(hash_obj) # Verify that output looks like a DER SEQUENCE self.assertEqual(bord(signature[0]), 48) signer.verify(hash_obj, signature) # Verify that ASN.1 parsing fails as expected signature = bchr(7) + signature[1:] self.assertRaises(ValueError, signer.verify, hash_obj, signature) def test_sign_verify(self): """Verify public/private method""" self.description = "can_sign() test" signer = DSS.new(self.key_priv, 'fips-186-3') self.failUnless(signer.can_sign()) signer = DSS.new(self.key_pub, 'fips-186-3') self.failIf(signer.can_sign()) class FIPS_DSA_Tests_KAT(unittest.TestCase): pass test_vectors_verify = load_tests(("Cryptodome", "SelfTest", "Signature", "test_vectors", "DSA"), "FIPS_186_3_SigVer.rsp", "Signature Verification 186-3", {'result' : lambda x: x}) for idx, tv in enumerate(test_vectors_verify): if isinstance(tv, str): res = re.match(r"\[mod = L=([0-9]+), N=([0-9]+), ([a-zA-Z0-9-]+)\]", tv) assert(res) hash_name = res.group(3).replace("-", "") hash_module = load_hash_by_name(hash_name) continue if hasattr(tv, "p"): modulus = tv.p generator = tv.g suborder = tv.q continue hash_obj = hash_module.new(tv.msg) comps = [bytes_to_long(x) for x in (tv.y, generator, modulus, suborder)] key = DSA.construct(comps, False) # type: ignore verifier = DSS.new(key, 'fips-186-3') def positive_test(self, verifier=verifier, hash_obj=hash_obj, signature=tv.r+tv.s): verifier.verify(hash_obj, signature) def negative_test(self, verifier=verifier, hash_obj=hash_obj, signature=tv.r+tv.s): self.assertRaises(ValueError, verifier.verify, hash_obj, signature) if tv.result == 'p': setattr(FIPS_DSA_Tests_KAT, "test_verify_positive_%d" % idx, positive_test) else: setattr(FIPS_DSA_Tests_KAT, "test_verify_negative_%d" % idx, negative_test) test_vectors_sign = load_tests(("Cryptodome", "SelfTest", "Signature", "test_vectors", "DSA"), "FIPS_186_3_SigGen.txt", "Signature Creation 186-3", {}) for idx, tv in enumerate(test_vectors_sign): if isinstance(tv, str): res = re.match(r"\[mod = L=([0-9]+), N=([0-9]+), ([a-zA-Z0-9-]+)\]", tv) assert(res) hash_name = res.group(3).replace("-", "") hash_module = load_hash_by_name(hash_name) continue if hasattr(tv, "p"): modulus = tv.p generator = tv.g suborder = tv.q continue hash_obj = hash_module.new(tv.msg) comps_dsa = [bytes_to_long(x) for x in (tv.y, generator, modulus, suborder, tv.x)] key = DSA.construct(comps_dsa, False) # type: ignore signer = DSS.new(key, 'fips-186-3', randfunc=StrRNG(tv.k)) def new_test(self, signer=signer, hash_obj=hash_obj, signature=tv.r+tv.s): self.assertEqual(signer.sign(hash_obj), signature) setattr(FIPS_DSA_Tests_KAT, "test_sign_%d" % idx, new_test) class FIPS_ECDSA_Tests(unittest.TestCase): key_priv = ECC.generate(curve="P-256") key_pub = key_priv.public_key() def shortDescription(self): return "FIPS ECDSA Tests" def test_loopback(self): hashed_msg = SHA512.new(b"test") signer = DSS.new(self.key_priv, 'fips-186-3') signature = signer.sign(hashed_msg) verifier = DSS.new(self.key_pub, 'fips-186-3') verifier.verify(hashed_msg, signature) def test_negative_unapproved_hashes(self): """Verify that unapproved hashes are rejected""" from Cryptodome.Hash import SHA1 self.description = "Unapproved hash (SHA-1) test" hash_obj = SHA1.new() signer = DSS.new(self.key_priv, 'fips-186-3') self.assertRaises(ValueError, signer.sign, hash_obj) self.assertRaises(ValueError, signer.verify, hash_obj, b"\x00" * 40) def test_sign_verify(self): """Verify public/private method""" self.description = "can_sign() test" signer = DSS.new(self.key_priv, 'fips-186-3') self.failUnless(signer.can_sign()) signer = DSS.new(self.key_pub, 'fips-186-3') self.failIf(signer.can_sign()) def test_negative_unknown_modes_encodings(self): """Verify that unknown modes/encodings are rejected""" self.description = "Unknown mode test" self.assertRaises(ValueError, DSS.new, self.key_priv, 'fips-186-0') self.description = "Unknown encoding test" self.assertRaises(ValueError, DSS.new, self.key_priv, 'fips-186-3', 'xml') def test_asn1_encoding(self): """Verify ASN.1 encoding""" self.description = "ASN.1 encoding test" hash_obj = SHA256.new() signer = DSS.new(self.key_priv, 'fips-186-3', 'der') signature = signer.sign(hash_obj) # Verify that output looks like a DER SEQUENCE self.assertEqual(bord(signature[0]), 48) signer.verify(hash_obj, signature) # Verify that ASN.1 parsing fails as expected signature = bchr(7) + signature[1:] self.assertRaises(ValueError, signer.verify, hash_obj, signature) class FIPS_ECDSA_Tests_KAT(unittest.TestCase): pass test_vectors_verify = load_tests(("Cryptodome", "SelfTest", "Signature", "test_vectors", "ECDSA"), "SigVer.rsp", "ECDSA Signature Verification 186-3", {'result': lambda x: x, 'qx': lambda x: int(x, 16), 'qy': lambda x: int(x, 16), }) for idx, tv in enumerate(test_vectors_verify): if isinstance(tv, str): res = re.match(r"\[(P-[0-9]+),(SHA-[0-9]+)\]", tv) assert res curve_name = res.group(1) hash_name = res.group(2).replace("-", "") hash_module = load_hash_by_name(hash_name) continue hash_obj = hash_module.new(tv.msg) ecc_key = ECC.construct(curve=curve_name, point_x=tv.qx, point_y=tv.qy) verifier = DSS.new(ecc_key, 'fips-186-3') def positive_test(self, verifier=verifier, hash_obj=hash_obj, signature=tv.r+tv.s): verifier.verify(hash_obj, signature) def negative_test(self, verifier=verifier, hash_obj=hash_obj, signature=tv.r+tv.s): self.assertRaises(ValueError, verifier.verify, hash_obj, signature) if tv.result.startswith('p'): setattr(FIPS_ECDSA_Tests_KAT, "test_verify_positive_%d" % idx, positive_test) else: setattr(FIPS_ECDSA_Tests_KAT, "test_verify_negative_%d" % idx, negative_test) test_vectors_sign = load_tests(("Cryptodome", "SelfTest", "Signature", "test_vectors", "ECDSA"), "SigGen.txt", "ECDSA Signature Verification 186-3", {'d': lambda x: int(x, 16)}) for idx, tv in enumerate(test_vectors_sign): if isinstance(tv, str): res = re.match(r"\[(P-[0-9]+),(SHA-[0-9]+)\]", tv) assert res curve_name = res.group(1) hash_name = res.group(2).replace("-", "") hash_module = load_hash_by_name(hash_name) continue hash_obj = hash_module.new(tv.msg) ecc_key = ECC.construct(curve=curve_name, d=tv.d) signer = DSS.new(ecc_key, 'fips-186-3', randfunc=StrRNG(tv.k)) def sign_test(self, signer=signer, hash_obj=hash_obj, signature=tv.r+tv.s): self.assertEqual(signer.sign(hash_obj), signature) setattr(FIPS_ECDSA_Tests_KAT, "test_sign_%d" % idx, sign_test) class Det_DSA_Tests(unittest.TestCase): """Tests from rfc6979""" # Each key is (p, q, g, x, y, desc) keys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his is a sequence of items: # message, k, r, s, hash module signatures = [ ( "sample", "7BDB6B0FF756E1BB5D53583EF979082F9AD5BD5B", "2E1A0C2562B2912CAAF89186FB0F42001585DA55", "29EFB6B0AFF2D7A68EB70CA313022253B9A88DF5", SHA1, 'DSA1024' ), ( "sample", "562097C06782D60C3037BA7BE104774344687649", "4BC3B686AEA70145856814A6F1BB53346F02101E", "410697B92295D994D21EDD2F4ADA85566F6F94C1", SHA224, 'DSA1024' ), ( "sample", "519BA0546D0C39202A7D34D7DFA5E760B318BCFB", "81F2F5850BE5BC123C43F71A3033E9384611C545", "4CDD914B65EB6C66A8AAAD27299BEE6B035F5E89", SHA256, 'DSA1024' ), ( "sample", "95897CD7BBB944AA932DBC579C1C09EB6FCFC595", "07F2108557EE0E3921BC1774F1CA9B410B4CE65A", "54DF70456C86FAC10FAB47C1949AB83F2C6F7595", SHA384, 'DSA1024' ), ( "sample", "09ECE7CA27D0F5A4DD4E556C9DF1D21D28104F8B", "16C3491F9B8C3FBBDD5E7A7B667057F0D8EE8E1B", "02C36A127A7B89EDBB72E4FFBC71DABC7D4FC69C", SHA512, 'DSA1024' ), ( "test", "5C842DF4F9E344EE09F056838B42C7A17F4A6433", "42AB2052FD43E123F0607F115052A67DCD9C5C77", "183916B0230D45B9931491D4C6B0BD2FB4AAF088", SHA1, 'DSA1024' ), ( "test", "4598B8EFC1A53BC8AECD58D1ABBB0C0C71E67297", "6868E9964E36C1689F6037F91F28D5F2C30610F2", "49CEC3ACDC83018C5BD2674ECAAD35B8CD22940F", SHA224, 'DSA1024' ), ( "test", "5A67592E8128E03A417B0484410FB72C0B630E1A", "22518C127299B0F6FDC9872B282B9E70D0790812", "6837EC18F150D55DE95B5E29BE7AF5D01E4FE160", SHA256, 'DSA1024' ), ( "test", "220156B761F6CA5E6C9F1B9CF9C24BE25F98CD89", "854CF929B58D73C3CBFDC421E8D5430CD6DB5E66", "91D0E0F53E22F898D158380676A871A157CDA622", SHA384, 'DSA1024' ), ( "test", "65D2C2EEB175E370F28C75BFCDC028D22C7DBE9C", "8EA47E475BA8AC6F2D821DA3BD212D11A3DEB9A0", "7C670C7AD72B6C050C109E1790008097125433E8", SHA512, 'DSA1024' ), ( "sample", "888FA6F7738A41BDC9846466ABDB8174C0338250AE50CE955CA16230F9CBD53E", "3A1B2DBD7489D6ED7E608FD036C83AF396E290DBD602408E8677DAABD6E7445A", "D26FCBA19FA3E3058FFC02CA1596CDBB6E0D20CB37B06054F7E36DED0CDBBCCF", SHA1, 'DSA2048' ), ( "sample", "BC372967702082E1AA4FCE892209F71AE4AD25A6DFD869334E6F153BD0C4D806", "DC9F4DEADA8D8FF588E98FED0AB690FFCE858DC8C79376450EB6B76C24537E2C", "A65A9C3BC7BABE286B195D5DA68616DA8D47FA0097F36DD19F517327DC848CEC", SHA224, 'DSA2048' ), ( "sample", "8926A27C40484216F052F4427CFD5647338B7B3939BC6573AF4333569D597C52", "EACE8BDBBE353C432A795D9EC556C6D021F7A03F42C36E9BC87E4AC7932CC809", "7081E175455F9247B812B74583E9E94F9EA79BD640DC962533B0680793A38D53", SHA256, 'DSA2048' ), ( "sample", "C345D5AB3DA0A5BCB7EC8F8FB7A7E96069E03B206371EF7D83E39068EC564920", "B2DA945E91858834FD9BF616EBAC151EDBC4B45D27D0DD4A7F6A22739F45C00B", "19048B63D9FD6BCA1D9BAE3664E1BCB97F7276C306130969F63F38FA8319021B", SHA384, 'DSA2048' ), ( "sample", "5A12994431785485B3F5F067221517791B85A597B7A9436995C89ED0374668FC", "2016ED092DC5FB669B8EFB3D1F31A91EECB199879BE0CF78F02BA062CB4C942E", "D0C76F84B5F091E141572A639A4FB8C230807EEA7D55C8A154A224400AFF2351", SHA512, 'DSA2048' ), ( "test", "6EEA486F9D41A037B2C640BC5645694FF8FF4B98D066A25F76BE641CCB24BA4F", "C18270A93CFC6063F57A4DFA86024F700D980E4CF4E2CB65A504397273D98EA0", "414F22E5F31A8B6D33295C7539C1C1BA3A6160D7D68D50AC0D3A5BEAC2884FAA", SHA1, 'DSA2048' ), ( "test", "06BD4C05ED74719106223BE33F2D95DA6B3B541DAD7BFBD7AC508213B6DA6670", "272ABA31572F6CC55E30BF616B7A265312018DD325BE031BE0CC82AA17870EA3", "E9CC286A52CCE201586722D36D1E917EB96A4EBDB47932F9576AC645B3A60806", SHA224, 'DSA2048' ), ( "test", "1D6CE6DDA1C5D37307839CD03AB0A5CBB18E60D800937D67DFB4479AAC8DEAD7", "8190012A1969F9957D56FCCAAD223186F423398D58EF5B3CEFD5A4146A4476F0", "7452A53F7075D417B4B013B278D1BB8BBD21863F5E7B1CEE679CF2188E1AB19E", SHA256, 'DSA2048' ), ( "test", "206E61F73DBE1B2DC8BE736B22B079E9DACD974DB00EEBBC5B64CAD39CF9F91C", "239E66DDBE8F8C230A3D071D601B6FFBDFB5901F94D444C6AF56F732BEB954BE", "6BD737513D5E72FE85D1C750E0F73921FE299B945AAD1C802F15C26A43D34961", SHA384, 'DSA2048' ), ( "test", "AFF1651E4CD6036D57AA8B2A05CCF1A9D5A40166340ECBBDC55BE10B568AA0AA", "89EC4BB1400ECCFF8E7D9AA515CD1DE7803F2DAFF09693EE7FD1353E90A68307", "C9F0BDABCC0D880BB137A994CC7F3980CE91CC10FAF529FC46565B15CEA854E1", SHA512, 'DSA2048' ) ] def setUp(self): # Convert DSA key components from hex strings to integers # Each key is (p, q, g, x, y, desc) from collections import namedtuple TestKey = namedtuple('TestKey', 'p q g x y') new_keys = {} for k in self.keys: tk = TestKey(*[ t2l(y) for y in k[:-1] ]) new_keys[k[-1]] = tk self.keys = new_keys # Convert signature encoding TestSig = namedtuple('TestSig', 'message nonce result module test_key') new_signatures = [] for message, nonce, r, s, module, test_key in self.signatures: tsig = TestSig( tobytes(message), t2l(nonce), t2b(r) + t2b(s), module, self.keys[test_key] ) new_signatures.append(tsig) self.signatures = new_signatures def test1(self): q = 0x4000000000000000000020108A2E0CC0D99F8A5EF x = 0x09A4D6792295A7F730FC3F2B49CBC0F62E862272F p = 2 * q + 1 y = pow(2, x, p) key = DSA.construct([pow(y, 2, p), 2, p, q, x], False) signer = DSS.new(key, 'deterministic-rfc6979') # Test _int2octets self.assertEqual(hexlify(signer._int2octets(x)), b'009a4d6792295a7f730fc3f2b49cbc0f62e862272f') # Test _bits2octets h1 = SHA256.new(b"sample").digest() self.assertEqual(hexlify(signer._bits2octets(h1)), b'01795edf0d54db760f156d0dac04c0322b3a204224') def test2(self): for sig in self.signatures: tk = sig.test_key key = DSA.construct([tk.y, tk.g, tk.p, tk.q, tk.x], False) signer = DSS.new(key, 'deterministic-rfc6979') hash_obj = sig.module.new(sig.message) result = signer.sign(hash_obj) self.assertEqual(sig.result, result) class Det_ECDSA_Tests(unittest.TestCase): key_priv_p256 = ECC.construct(curve="P-256", d=0xC9AFA9D845BA75166B5C215767B1D6934E50C3DB36E89B127B8A622B120F6721) key_pub_p256 = key_priv_p256.public_key() key_priv_p384 = ECC.construct(curve="P-384", d=0x6B9D3DAD2E1B8C1C05B19875B6659F4DE23C3B667BF297BA9AA47740787137D896D5724E4C70A825F872C9EA60D2EDF5) key_pub_p384 = key_priv_p384.public_key() key_priv_p521 = ECC.construct(curve="P-521", d=0x0FAD06DAA62BA3B25D2FB40133DA757205DE67F5BB0018FEE8C86E1B68C7E75CAA896EB32F1F47C70855836A6D16FCC1466F6D8FBEC67DB89EC0C08B0E996B83538) key_pub_p521 = key_priv_p521.public_key() # This is a sequence of items: # message, k, r, s, hash module # taken from RFC6979 signatures_p256_ = ( ( "sample", "882905F1227FD620FBF2ABF21244F0BA83D0DC3A9103DBBEE43A1FB858109DB4", "61340C88C3AAEBEB4F6D667F672CA9759A6CCAA9FA8811313039EE4A35471D32", "6D7F147DAC089441BB2E2FE8F7A3FA264B9C475098FDCF6E00D7C996E1B8B7EB", SHA1 ), ( "sample", "103F90EE9DC52E5E7FB5132B7033C63066D194321491862059967C715985D473", "53B2FFF5D1752B2C689DF257C04C40A587FABABB3F6FC2702F1343AF7CA9AA3F", "B9AFB64FDC03DC1A131C7D2386D11E349F070AA432A4ACC918BEA988BF75C74C", SHA224 ), ( "sample", "A6E3C57DD01ABE90086538398355DD4C3B17AA873382B0F24D6129493D8AAD60", "EFD48B2AACB6A8FD1140DD9CD45E81D69D2C877B56AAF991C34D0EA84EAF3716", "F7CB1C942D657C41D436C7A1B6E29F65F3E900DBB9AFF4064DC4AB2F843ACDA8", SHA256 ), ( "sample", "09F634B188CEFD98E7EC88B1AA9852D734D0BC272F7D2A47DECC6EBEB375AAD4", "0EAFEA039B20E9B42309FB1D89E213057CBF973DC0CFC8F129EDDDC800EF7719", "4861F0491E6998B9455193E34E7B0D284DDD7149A74B95B9261F13ABDE940954", SHA384 ), ( "sample", "5FA81C63109BADB88C1F367B47DA606DA28CAD69AA22C4FE6AD7DF73A7173AA5", "8496A60B5E9B47C825488827E0495B0E3FA109EC4568FD3F8D1097678EB97F00", "2362AB1ADBE2B8ADF9CB9EDAB740EA6049C028114F2460F96554F61FAE3302FE", SHA512 ), ( "test", "8C9520267C55D6B980DF741E56B4ADEE114D84FBFA2E62137954164028632A2E", "0CBCC86FD6ABD1D99E703E1EC50069EE5C0B4BA4B9AC60E409E8EC5910D81A89", "01B9D7B73DFAA60D5651EC4591A0136F87653E0FD780C3B1BC872FFDEAE479B1", SHA1 ), ( "test", "669F4426F2688B8BE0DB3A6BD1989BDAEFFF84B649EEB84F3DD26080F667FAA7", "C37EDB6F0AE79D47C3C27E962FA269BB4F441770357E114EE511F662EC34A692", "C820053A05791E521FCAAD6042D40AEA1D6B1A540138558F47D0719800E18F2D", SHA224 ), ( "test", "D16B6AE827F17175E040871A1C7EC3500192C4C92677336EC2537ACAEE0008E0", "F1ABB023518351CD71D881567B1EA663ED3EFCF6C5132B354F28D3B0B7D38367", "019F4113742A2B14BD25926B49C649155F267E60D3814B4C0CC84250E46F0083", SHA256 ), ( "test", "16AEFFA357260B04B1DD199693960740066C1A8F3E8EDD79070AA914D361B3B8", "83910E8B48BB0C74244EBDF7F07A1C5413D61472BD941EF3920E623FBCCEBEB6", "8DDBEC54CF8CD5874883841D712142A56A8D0F218F5003CB0296B6B509619F2C", SHA384 ), ( "test", "6915D11632ACA3C40D5D51C08DAF9C555933819548784480E93499000D9F0B7F", "461D93F31B6540894788FD206C07CFA0CC35F46FA3C91816FFF1040AD1581A04", "39AF9F15DE0DB8D97E72719C74820D304CE5226E32DEDAE67519E840D1194E55", SHA512 ) ) signatures_p384_ = ( ( "sample", "4471EF7518BB2C7C20F62EAE1C387AD0C5E8E470995DB4ACF694466E6AB096630F29E5938D25106C3C340045A2DB01A7", "EC748D839243D6FBEF4FC5C4859A7DFFD7F3ABDDF72014540C16D73309834FA37B9BA002899F6FDA3A4A9386790D4EB2", "A3BCFA947BEEF4732BF247AC17F71676CB31A847B9FF0CBC9C9ED4C1A5B3FACF26F49CA031D4857570CCB5CA4424A443", SHA1 ), ( "sample", "A4E4D2F0E729EB786B31FC20AD5D849E304450E0AE8E3E341134A5C1AFA03CAB8083EE4E3C45B06A5899EA56C51B5879", "42356E76B55A6D9B4631C865445DBE54E056D3B3431766D0509244793C3F9366450F76EE3DE43F5A125333A6BE060122", "9DA0C81787064021E78DF658F2FBB0B042BF304665DB721F077A4298B095E4834C082C03D83028EFBF93A3C23940CA8D", SHA224 ), ( "sample", "180AE9F9AEC5438A44BC159A1FCB277C7BE54FA20E7CF404B490650A8ACC414E375572342863C899F9F2EDF9747A9B60", "21B13D1E013C7FA1392D03C5F99AF8B30C570C6F98D4EA8E354B63A21D3DAA33BDE1E888E63355D92FA2B3C36D8FB2CD", "F3AA443FB107745BF4BD77CB3891674632068A10CA67E3D45DB2266FA7D1FEEBEFDC63ECCD1AC42EC0CB8668A4FA0AB0", SHA256 ), ( "sample", "94ED910D1A099DAD3254E9242AE85ABDE4BA15168EAF0CA87A555FD56D10FBCA2907E3E83BA95368623B8C4686915CF9", "94EDBB92A5ECB8AAD4736E56C691916B3F88140666CE9FA73D64C4EA95AD133C81A648152E44ACF96E36DD1E80FABE46", "99EF4AEB15F178CEA1FE40DB2603138F130E740A19624526203B6351D0A3A94FA329C145786E679E7B82C71A38628AC8", SHA384 ), ( "sample", "92FC3C7183A883E24216D1141F1A8976C5B0DD797DFA597E3D7B32198BD35331A4E966532593A52980D0E3AAA5E10EC3", "ED0959D5880AB2D869AE7F6C2915C6D60F96507F9CB3E047C0046861DA4A799CFE30F35CC900056D7C99CD7882433709", "512C8CCEEE3890A84058CE1E22DBC2198F42323CE8ACA9135329F03C068E5112DC7CC3EF3446DEFCEB01A45C2667FDD5", SHA512 ), ( "test", "66CC2C8F4D303FC962E5FF6A27BD79F84EC812DDAE58CF5243B64A4AD8094D47EC3727F3A3C186C15054492E30698497", "4BC35D3A50EF4E30576F58CD96CE6BF638025EE624004A1F7789A8B8E43D0678ACD9D29876DAF46638645F7F404B11C7", "D5A6326C494ED3FF614703878961C0FDE7B2C278F9A65FD8C4B7186201A2991695BA1C84541327E966FA7B50F7382282", SHA1 ), ( "test", "18FA39DB95AA5F561F30FA3591DC59C0FA3653A80DAFFA0B48D1A4C6DFCBFF6E3D33BE4DC5EB8886A8ECD093F2935726", "E8C9D0B6EA72A0E7837FEA1D14A1A9557F29FAA45D3E7EE888FC5BF954B5E62464A9A817C47FF78B8C11066B24080E72", "07041D4A7A0379AC7232FF72E6F77B6DDB8F09B16CCE0EC3286B2BD43FA8C6141C53EA5ABEF0D8231077A04540A96B66", SHA224 ), ( "test", "0CFAC37587532347DC3389FDC98286BBA8C73807285B184C83E62E26C401C0FAA48DD070BA79921A3457ABFF2D630AD7", "6D6DEFAC9AB64DABAFE36C6BF510352A4CC27001263638E5B16D9BB51D451559F918EEDAF2293BE5B475CC8F0188636B", "2D46F3BECBCC523D5F1A1256BF0C9B024D879BA9E838144C8BA6BAEB4B53B47D51AB373F9845C0514EEFB14024787265", SHA256 ), ( "test", "015EE46A5BF88773ED9123A5AB0807962D193719503C527B031B4C2D225092ADA71F4A459BC0DA98ADB95837DB8312EA", "8203B63D3C853E8D77227FB377BCF7B7B772E97892A80F36AB775D509D7A5FEB0542A7F0812998DA8F1DD3CA3CF023DB", "DDD0760448D42D8A43AF45AF836FCE4DE8BE06B485E9B61B827C2F13173923E06A739F040649A667BF3B828246BAA5A5", SHA384 ), ( "test", "3780C4F67CB15518B6ACAE34C9F83568D2E12E47DEAB6C50A4E4EE5319D1E8CE0E2CC8A136036DC4B9C00E6888F66B6C", "A0D5D090C9980FAF3C2CE57B7AE951D31977DD11C775D314AF55F76C676447D06FB6495CD21B4B6E340FC236584FB277", "976984E59B4C77B0E8E4460DCA3D9F20E07B9BB1F63BEEFAF576F6B2E8B224634A2092CD3792E0159AD9CEE37659C736", SHA512 ), ) signatures_p521_ = ( ( "sample", "0089C071B419E1C2820962321787258469511958E80582E95D8378E0C2CCDB3CB42BEDE42F50E3FA3C71F5A76724281D31D9C89F0F91FC1BE4918DB1C03A5838D0F9", "00343B6EC45728975EA5CBA6659BBB6062A5FF89EEA58BE3C80B619F322C87910FE092F7D45BB0F8EEE01ED3F20BABEC079D202AE677B243AB40B5431D497C55D75D", "00E7B0E675A9B24413D448B8CC119D2BF7B2D2DF032741C096634D6D65D0DBE3D5694625FB9E8104D3B842C1B0E2D0B98BEA19341E8676AEF66AE4EBA3D5475D5D16", SHA1 ), ( "sample", "0121415EC2CD7726330A61F7F3FA5DE14BE9436019C4DB8CB4041F3B54CF31BE0493EE3F427FB906393D895A19C9523F3A1D54BB8702BD4AA9C99DAB2597B92113F3", "01776331CFCDF927D666E032E00CF776187BC9FDD8E69D0DABB4109FFE1B5E2A30715F4CC923A4A5E94D2503E9ACFED92857B7F31D7152E0F8C00C15FF3D87E2ED2E", "0050CB5265417FE2320BBB5A122B8E1A32BD699089851128E360E620A30C7E17BA41A666AF126CE100E5799B153B60528D5300D08489CA9178FB610A2006C254B41F", SHA224 ), ( "sample", "00EDF38AFCAAECAB4383358B34D67C9F2216C8382AAEA44A3DAD5FDC9C32575761793FEF24EB0FC276DFC4F6E3EC476752F043CF01415387470BCBD8678ED2C7E1A0", "01511BB4D675114FE266FC4372B87682BAECC01D3CC62CF2303C92B3526012659D16876E25C7C1E57648F23B73564D67F61C6F14D527D54972810421E7D87589E1A7", "004A171143A83163D6DF460AAF61522695F207A58B95C0644D87E52AA1A347916E4F7A72930B1BC06DBE22CE3F58264AFD23704CBB63B29B931F7DE6C9D949A7ECFC", SHA256 ), ( "sample", "01546A108BC23A15D6F21872F7DED661FA8431DDBD922D0DCDB77CC878C8553FFAD064C95A920A750AC9137E527390D2D92F153E66196966EA554D9ADFCB109C4211", "01EA842A0E17D2DE4F92C15315C63DDF72685C18195C2BB95E572B9C5136CA4B4B576AD712A52BE9730627D16054BA40CC0B8D3FF035B12AE75168397F5D50C67451", "01F21A3CEE066E1961025FB048BD5FE2B7924D0CD797BABE0A83B66F1E35EEAF5FDE143FA85DC394A7DEE766523393784484BDF3E00114A1C857CDE1AA203DB65D61", SHA384 ), ( "sample", "01DAE2EA071F8110DC26882D4D5EAE0621A3256FC8847FB9022E2B7D28E6F10198B1574FDD03A9053C08A1854A168AA5A57470EC97DD5CE090124EF52A2F7ECBFFD3", "00C328FAFCBD79DD77850370C46325D987CB525569FB63C5D3BC53950E6D4C5F174E25A1EE9017B5D450606ADD152B534931D7D4E8455CC91F9B15BF05EC36E377FA", "00617CCE7CF5064806C467F678D3B4080D6F1CC50AF26CA209417308281B68AF282623EAA63E5B5C0723D8B8C37FF0777B1A20F8CCB1DCCC43997F1EE0E44DA4A67A", SHA512 ), ( "test", "00BB9F2BF4FE1038CCF4DABD7139A56F6FD8BB1386561BD3C6A4FC818B20DF5DDBA80795A947107A1AB9D12DAA615B1ADE4F7A9DC05E8E6311150F47F5C57CE8B222", "013BAD9F29ABE20DE37EBEB823C252CA0F63361284015A3BF430A46AAA80B87B0693F0694BD88AFE4E661FC33B094CD3B7963BED5A727ED8BD6A3A202ABE009D0367", "01E9BB81FF7944CA409AD138DBBEE228E1AFCC0C890FC78EC8604639CB0DBDC90F717A99EAD9D272855D00162EE9527567DD6A92CBD629805C0445282BBC916797FF", SHA1 ), ( "test", "0040D09FCF3C8A5F62CF4FB223CBBB2B9937F6B0577C27020A99602C25A01136987E452988781484EDBBCF1C47E554E7FC901BC3085E5206D9F619CFF07E73D6F706", "01C7ED902E123E6815546065A2C4AF977B22AA8EADDB68B2C1110E7EA44D42086BFE4A34B67DDC0E17E96536E358219B23A706C6A6E16BA77B65E1C595D43CAE17FB", "0177336676304FCB343CE028B38E7B4FBA76C1C1B277DA18CAD2A8478B2A9A9F5BEC0F3BA04F35DB3E4263569EC6AADE8C92746E4C82F8299AE1B8F1739F8FD519A4", SHA224 ), ( "test", "001DE74955EFAABC4C4F17F8E84D881D1310B5392D7700275F82F145C61E843841AF09035BF7A6210F5A431A6A9E81C9323354A9E69135D44EBD2FCAA7731B909258", "000E871C4A14F993C6C7369501900C4BC1E9C7B0B4BA44E04868B30B41D8071042EB28C4C250411D0CE08CD197E4188EA4876F279F90B3D8D74A3C76E6F1E4656AA8", "00CD52DBAA33B063C3A6CD8058A1FB0A46A4754B034FCC644766CA14DA8CA5CA9FDE00E88C1AD60CCBA759025299079D7A427EC3CC5B619BFBC828E7769BCD694E86", SHA256 ), ( "test", "01F1FC4A349A7DA9A9E116BFDD055DC08E78252FF8E23AC276AC88B1770AE0B5DCEB1ED14A4916B769A523CE1E90BA22846AF11DF8B300C38818F713DADD85DE0C88", "014BEE21A18B6D8B3C93FAB08D43E739707953244FDBE924FA926D76669E7AC8C89DF62ED8975C2D8397A65A49DCC09F6B0AC62272741924D479354D74FF6075578C", "0133330865C067A0EAF72362A65E2D7BC4E461E8C8995C3B6226A21BD1AA78F0ED94FE536A0DCA35534F0CD1510C41525D163FE9D74D134881E35141ED5E8E95B979", SHA384 ), ( "test", "016200813020EC986863BEDFC1B121F605C1215645018AEA1A7B215A564DE9EB1B38A67AA1128B80CE391C4FB71187654AAA3431027BFC7F395766CA988C964DC56D", "013E99020ABF5CEE7525D16B69B229652AB6BDF2AFFCAEF38773B4B7D08725F10CDB93482FDCC54EDCEE91ECA4166B2A7C6265EF0CE2BD7051B7CEF945BABD47EE6D", "01FBD0013C674AA79CB39849527916CE301C66EA7CE8B80682786AD60F98F7E78A19CA69EFF5C57400E3B3A0AD66CE0978214D13BAF4E9AC60752F7B155E2DE4DCE3", SHA512 ), ) signatures_p256 = [] for a, b, c, d, e in signatures_p256_: new_tv = (tobytes(a), unhexlify(b), unhexlify(c), unhexlify(d), e) signatures_p256.append(new_tv) signatures_p384 = [] for a, b, c, d, e in signatures_p384_: new_tv = (tobytes(a), unhexlify(b), unhexlify(c), unhexlify(d), e) signatures_p384.append(new_tv) signatures_p521 = [] for a, b, c, d, e in signatures_p521_: new_tv = (tobytes(a), unhexlify(b), unhexlify(c), unhexlify(d), e) signatures_p521.append(new_tv) def shortDescription(self): return "Deterministic ECDSA Tests" def test_loopback_p256(self): hashed_msg = SHA512.new(b"test") signer = DSS.new(self.key_priv_p256, 'deterministic-rfc6979') signature = signer.sign(hashed_msg) verifier = DSS.new(self.key_pub_p256, 'deterministic-rfc6979') verifier.verify(hashed_msg, signature) def test_loopback_p384(self): hashed_msg = SHA512.new(b"test") signer = DSS.new(self.key_priv_p384, 'deterministic-rfc6979') signature = signer.sign(hashed_msg) verifier = DSS.new(self.key_pub_p384, 'deterministic-rfc6979') verifier.verify(hashed_msg, signature) def test_loopback_p521(self): hashed_msg = SHA512.new(b"test") signer = DSS.new(self.key_priv_p521, 'deterministic-rfc6979') signature = signer.sign(hashed_msg) verifier = DSS.new(self.key_pub_p521, 'deterministic-rfc6979') verifier.verify(hashed_msg, signature) def test_data_rfc6979_p256(self): signer = DSS.new(self.key_priv_p256, 'deterministic-rfc6979') for message, k, r, s, module in self.signatures_p256: hash_obj = module.new(message) result = signer.sign(hash_obj) self.assertEqual(r + s, result) def test_data_rfc6979_p384(self): signer = DSS.new(self.key_priv_p384, 'deterministic-rfc6979') for message, k, r, s, module in self.signatures_p384: hash_obj = module.new(message) result = signer.sign(hash_obj) self.assertEqual(r + s, result) def test_data_rfc6979_p521(self): signer = DSS.new(self.key_priv_p521, 'deterministic-rfc6979') for message, k, r, s, module in self.signatures_p521: hash_obj = module.new(message) result = signer.sign(hash_obj) self.assertEqual(r + s, result) class TestVectorsDSAWycheproof(unittest.TestCase): def __init__(self, wycheproof_warnings, slow_tests): unittest.TestCase.__init__(self) self._wycheproof_warnings = wycheproof_warnings self._slow_tests = slow_tests self._id = "None" def setUp(self): comps = "Cryptodome.SelfTest.Signature.test_vectors.wycheproof".split(".") with open(pycryptodome_filename(comps, "dsa_test.json"), "rt") as file_in: tv_tree = json.load(file_in) self.tv = [] for group in tv_tree['testGroups']: key = DSA.import_key(group['keyPem']) hash_name = group['sha'] if hash_name == "SHA-256": hash_module = SHA256 elif hash_name == "SHA-224": hash_module = SHA224 elif hash_name == "SHA-1": hash_module = SHA1 else: assert False assert group['type'] == "DsaVerify" from collections import namedtuple TestVector = namedtuple('TestVector', 'id comment msg sig key hash_module valid warning') for test in group['tests']: tv = TestVector( test['tcId'], test['comment'], unhexlify(test['msg']), unhexlify(test['sig']), key, hash_module, test['result'] != "invalid", test['result'] == "acceptable" ) self.tv.append(tv) 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_verify(self, tv): self._id = "Wycheproof DSA Test #" + str(tv.id) hashed_msg = tv.hash_module.new(tv.msg) signer = DSS.new(tv.key, 'fips-186-3', encoding='der') try: signature = signer.verify(hashed_msg, tv.sig) except ValueError as e: if tv.warning: return assert not tv.valid else: assert tv.valid self.warn(tv) def runTest(self): for tv in self.tv: self.test_verify(tv) class TestVectorsECDSAWycheproof(unittest.TestCase): def __init__(self, wycheproof_warnings, slow_tests): unittest.TestCase.__init__(self) self._wycheproof_warnings = wycheproof_warnings self._slow_tests = slow_tests self._id = "None" def add_tests(self, filename): comps = "Cryptodome.SelfTest.Signature.test_vectors.wycheproof".split(".") with open(pycryptodome_filename(comps, filename), "rt") as file_in: tv_tree = json.load(file_in) for group in tv_tree['testGroups']: try: key = ECC.import_key(group['keyPem']) except ValueError: continue hash_name = group['sha'] if hash_name == "SHA-512": hash_module = SHA512 elif hash_name == "SHA3-512": hash_module = SHA3_512 elif hash_name == "SHA-384": hash_module = SHA384 elif hash_name == "SHA3-384": hash_module = SHA3_384 elif hash_name == "SHA-256": hash_module = SHA256 elif hash_name == "SHA3-256": hash_module = SHA3_256 elif hash_name == "SHA-224": hash_module = SHA224 elif hash_name == "SHA-1": hash_module = SHA1 else: raise ValueError("Unknown hash type " + hash_name) encoding_name = group['type'] if encoding_name == "EcdsaVerify": encoding = "der" elif encoding_name == "EcdsaP1363Verify": encoding = "binary" else: raise ValueError("Unknown signature type " + encoding_name) from collections import namedtuple TestVector = namedtuple('TestVector', 'id comment msg encoding sig key hash_module valid warning filename') for test in group['tests']: tv = TestVector( test['tcId'], test['comment'], unhexlify(test['msg']), encoding, unhexlify(test['sig']), key, hash_module, test['result'] != "invalid", test['result'] == "acceptable", filename ) self.tv.append(tv) def setUp(self): self.tv = [] self.add_tests("ecdsa_secp224r1_sha224_p1363_test.json") self.add_tests("ecdsa_secp224r1_sha224_test.json") if self._slow_tests: self.add_tests("ecdsa_secp224r1_sha256_p1363_test.json") self.add_tests("ecdsa_secp224r1_sha256_test.json") self.add_tests("ecdsa_secp224r1_sha3_224_test.json") self.add_tests("ecdsa_secp224r1_sha3_256_test.json") self.add_tests("ecdsa_secp224r1_sha3_512_test.json") self.add_tests("ecdsa_secp224r1_sha512_p1363_test.json") self.add_tests("ecdsa_secp224r1_sha512_test.json") self.add_tests("ecdsa_secp256r1_sha256_p1363_test.json") self.add_tests("ecdsa_secp256r1_sha256_test.json") self.add_tests("ecdsa_secp256r1_sha3_256_test.json") self.add_tests("ecdsa_secp256r1_sha3_512_test.json") self.add_tests("ecdsa_secp256r1_sha512_p1363_test.json") self.add_tests("ecdsa_secp256r1_sha512_test.json") if self._slow_tests: self.add_tests("ecdsa_secp384r1_sha3_384_test.json") self.add_tests("ecdsa_secp384r1_sha3_512_test.json") self.add_tests("ecdsa_secp384r1_sha384_p1363_test.json") self.add_tests("ecdsa_secp384r1_sha384_test.json") self.add_tests("ecdsa_secp384r1_sha512_p1363_test.json") self.add_tests("ecdsa_secp384r1_sha512_test.json") if self._slow_tests: self.add_tests("ecdsa_secp521r1_sha3_512_test.json") self.add_tests("ecdsa_secp521r1_sha512_p1363_test.json") self.add_tests("ecdsa_secp521r1_sha512_test.json") self.add_tests("ecdsa_test.json") self.add_tests("ecdsa_webcrypto_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_verify(self, tv): self._id = "Wycheproof ECDSA Test #%d (%s, %s)" % (tv.id, tv.comment, tv.filename) hashed_msg = tv.hash_module.new(tv.msg) signer = DSS.new(tv.key, 'fips-186-3', encoding=tv.encoding) try: signature = signer.verify(hashed_msg, tv.sig) except ValueError as e: if tv.warning: return if tv.comment == "k*G has a large x-coordinate": return assert not tv.valid else: assert tv.valid self.warn(tv) def runTest(self): for tv in self.tv: self.test_verify(tv) def get_tests(config={}): wycheproof_warnings = config.get('wycheproof_warnings') tests = [] tests += list_test_cases(FIPS_DSA_Tests) tests += list_test_cases(FIPS_ECDSA_Tests) tests += list_test_cases(Det_DSA_Tests) tests += list_test_cases(Det_ECDSA_Tests) slow_tests = not config.get('slow_tests') if slow_tests: tests += list_test_cases(FIPS_DSA_Tests_KAT) tests += list_test_cases(FIPS_ECDSA_Tests_KAT) tests += [ TestVectorsDSAWycheproof(wycheproof_warnings, slow_tests) ] tests += [ TestVectorsECDSAWycheproof(wycheproof_warnings, slow_tests) ] return tests if __name__ == '__main__': suite = lambda: unittest.TestSuite(get_tests()) unittest.main(defaultTest='suite')