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# -*- coding: utf-8 -*-
#
# SelfTest/PublicKey/test_ElGamal.py: Self-test for the ElGamal primitive
#
# ===================================================================
# 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.
# ===================================================================
"""Self-test suite for Crypto.PublicKey.ElGamal"""
__revision__ = "$Id$"
import unittest
from Crypto.SelfTest.st_common import list_test_cases, a2b_hex, b2a_hex
from Crypto import Random
from Crypto.PublicKey import ElGamal
from Crypto.Util.number import *
from Crypto.Util.py3compat import *
class ElGamalTest(unittest.TestCase):
#
# Test vectors
#
# There seem to be no real ElGamal test vectors available in the
# public domain. The following test vectors have been generated
# with libgcrypt 1.5.0.
#
# Encryption
tve=[
{
# 256 bits
'p' :'BA4CAEAAED8CBE952AFD2126C63EB3B345D65C2A0A73D2A3AD4138B6D09BD933',
'g' :'05',
'y' :'60D063600ECED7C7C55146020E7A31C4476E9793BEAED420FEC9E77604CAE4EF',
'x' :'1D391BA2EE3C37FE1BA175A69B2C73A11238AD77675932',
'k' :'F5893C5BAB4131264066F57AB3D8AD89E391A0B68A68A1',
'pt' :'48656C6C6F207468657265',
'ct1':'32BFD5F487966CEA9E9356715788C491EC515E4ED48B58F0F00971E93AAA5EC7',
'ct2':'7BE8FBFF317C93E82FCEF9BD515284BA506603FEA25D01C0CB874A31F315EE68'
},
{
# 512 bits
'p' :'F1B18AE9F7B4E08FDA9A04832F4E919D89462FD31BF12F92791A93519F75076D6CE3942689CDFF2F344CAFF0F82D01864F69F3AECF566C774CBACF728B81A227',
'g' :'07',
'y' :'688628C676E4F05D630E1BE39D0066178CA7AA83836B645DE5ADD359B4825A12B02EF4252E4E6FA9BEC1DB0BE90F6D7C8629CABB6E531F472B2664868156E20C',
'x' :'14E60B1BDFD33436C0DA8A22FDC14A2CCDBBED0627CE68',
'k' :'38DBF14E1F319BDA9BAB33EEEADCAF6B2EA5250577ACE7',
'pt' :'48656C6C6F207468657265',
'ct1':'290F8530C2CC312EC46178724F196F308AD4C523CEABB001FACB0506BFED676083FE0F27AC688B5C749AB3CB8A80CD6F7094DBA421FB19442F5A413E06A9772B',
'ct2':'1D69AAAD1DC50493FB1B8E8721D621D683F3BF1321BE21BC4A43E11B40C9D4D9C80DE3AAC2AB60D31782B16B61112E68220889D53C4C3136EE6F6CE61F8A23A0'
}
]
# Signature
tvs=[
{
# 256 bits
'p' :'D2F3C41EA66530838A704A48FFAC9334F4701ECE3A97CEE4C69DD01AE7129DD7',
'g' :'05',
'y' :'C3F9417DC0DAFEA6A05C1D2333B7A95E63B3F4F28CC962254B3256984D1012E7',
'x' :'165E4A39BE44D5A2D8B1332D416BC559616F536BC735BB',
'k' :'C7F0C794A7EAD726E25A47FF8928013680E73C51DD3D7D99BFDA8F492585928F',
'h' :'48656C6C6F207468657265',
'sig1':'35CA98133779E2073EF31165AFCDEB764DD54E96ADE851715495F9C635E1E7C2',
'sig2':'0135B88B1151279FE5D8078D4FC685EE81177EE9802AB123A73925FC1CB059A7',
},
{
# 512 bits
'p' :'E24CF3A4B8A6AF749DCA6D714282FE4AABEEE44A53BB6ED15FBE32B5D3C3EF9CC4124A2ECA331F3C1C1B667ACA3766825217E7B5F9856648D95F05330C6A19CF',
'g' :'0B',
'y' :'2AD3A1049CA5D4ED207B2431C79A8719BB4073D4A94E450EA6CEE8A760EB07ADB67C0D52C275EE85D7B52789061EE45F2F37D9B2AE522A51C28329766BFE68AC',
'x' :'16CBB4F46D9ECCF24FF9F7E63CAA3BD8936341555062AB',
'k' :'8A3D89A4E429FD2476D7D717251FB79BF900FFE77444E6BB8299DC3F84D0DD57ABAB50732AE158EA52F5B9E7D8813E81FD9F79470AE22F8F1CF9AEC820A78C69',
'h' :'48656C6C6F207468657265',
'sig1':'BE001AABAFFF976EC9016198FBFEA14CBEF96B000CCC0063D3324016F9E91FE80D8F9325812ED24DDB2B4D4CF4430B169880B3CE88313B53255BD4EC0378586F',
'sig2':'5E266F3F837BA204E3BBB6DBECC0611429D96F8C7CE8F4EFDF9D4CB681C2A954468A357BF4242CEC7418B51DFC081BCD21299EF5B5A0DDEF3A139A1817503DDE',
}
]
def test_generate_128(self):
self._test_random_key(128)
def test_generate_512(self):
self._test_random_key(512)
def test_encryption(self):
for tv in self.tve:
for as_longs in (0,1):
d = self.convert_tv(tv, as_longs)
key = ElGamal.construct(d['key'])
ct = key.encrypt(d['pt'], d['k'])
self.assertEquals(ct[0], d['ct1'])
self.assertEquals(ct[1], d['ct2'])
def test_decryption(self):
for tv in self.tve:
for as_longs in (0,1):
d = self.convert_tv(tv, as_longs)
key = ElGamal.construct(d['key'])
pt = key.decrypt((d['ct1'], d['ct2']))
self.assertEquals(pt, d['pt'])
def test_signing(self):
for tv in self.tvs:
for as_longs in (0,1):
d = self.convert_tv(tv, as_longs)
key = ElGamal.construct(d['key'])
sig1, sig2 = key.sign(d['h'], d['k'])
self.assertEquals(sig1, d['sig1'])
self.assertEquals(sig2, d['sig2'])
def test_verification(self):
for tv in self.tvs:
for as_longs in (0,1):
d = self.convert_tv(tv, as_longs)
key = ElGamal.construct(d['key'])
# Positive test
res = key.verify( d['h'], (d['sig1'],d['sig2']) )
self.assertTrue(res)
# Negative test
res = key.verify( d['h'], (d['sig1']+1,d['sig2']) )
self.assertFalse(res)
def convert_tv(self, tv, as_longs=0):
"""Convert a test vector from textual form (hexadecimal ascii
to either integers or byte strings."""
key_comps = 'p','g','y','x'
tv2 = {}
for c in tv.keys():
tv2[c] = a2b_hex(tv[c])
if as_longs or c in key_comps or c in ('sig1','sig2'):
tv2[c] = bytes_to_long(tv2[c])
tv2['key']=[]
for c in key_comps:
tv2['key'] += [tv2[c]]
del tv2[c]
return tv2
def _test_random_key(self, bits):
elgObj = ElGamal.generate(bits, Random.new().read)
self._check_private_key(elgObj)
self._exercise_primitive(elgObj)
pub = elgObj.publickey()
self._check_public_key(pub)
self._exercise_public_primitive(elgObj)
def _check_private_key(self, elgObj):
# Check capabilities
self.failUnless(elgObj.has_private())
self.failUnless(elgObj.can_sign())
self.failUnless(elgObj.can_encrypt())
# Sanity check key data
self.failUnless(1<elgObj.g<(elgObj.p-1))
self.assertEquals(pow(elgObj.g, elgObj.p-1, elgObj.p), 1)
self.failUnless(1<elgObj.x<(elgObj.p-1))
self.assertEquals(pow(elgObj.g, elgObj.x, elgObj.p), elgObj.y)
def _check_public_key(self, elgObj):
# Check capabilities
self.failIf(elgObj.has_private())
self.failUnless(elgObj.can_sign())
self.failUnless(elgObj.can_encrypt())
# Sanity check key data
self.failUnless(1<elgObj.g<(elgObj.p-1))
self.assertEquals(pow(elgObj.g, elgObj.p-1, elgObj.p), 1)
def _exercise_primitive(self, elgObj):
# Test encryption/decryption
plaintext = b("Test")
ciphertext = elgObj.encrypt(plaintext, 123456789L)
plaintextP = elgObj.decrypt(ciphertext)
self.assertEquals(plaintext, plaintextP)
# Test signature/verification
signature = elgObj.sign(plaintext, 987654321L)
elgObj.verify(plaintext, signature)
def _exercise_public_primitive(self, elgObj):
plaintext = b("Test")
ciphertext = elgObj.encrypt(plaintext, 123456789L)
def get_tests(config={}):
tests = []
tests += list_test_cases(ElGamalTest)
return tests
if __name__ == '__main__':
suite = lambda: unittest.TestSuite(get_tests())
unittest.main(defaultTest='suite')
|
