mirror of
https://gitlab.torproject.org/tpo/core/tor.git
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263 lines
8.6 KiB
Python
263 lines
8.6 KiB
Python
#!/usr/bin/python
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# Copyright 2014-2019, The Tor Project, Inc
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# See LICENSE for licensing information
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"""
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Reference implementations for the ed25519 tweaks that Tor uses.
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Includes self-tester and test vector generator.
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"""
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import slow_ed25519
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from slow_ed25519 import *
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import os
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import random
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import slownacl_curve25519
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import unittest
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import binascii
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import textwrap
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#define a synonym that doesn't look like 1
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ell = l
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# This replaces expmod above and makes it go a lot faster.
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slow_ed25519.expmod = pow
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def curve25519ToEd25519(c, sign):
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u = decodeint(c)
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y = ((u - 1) * inv(u + 1)) % q
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x = xrecover(y)
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if x & 1 != sign: x = q-x
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return encodepoint([x,y])
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def blindESK(esk, param):
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mult = 2**(b-2) + sum(2**i * bit(param,i) for i in range(3,b-2))
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s = decodeint(esk[:32])
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s_prime = (s * mult) % ell
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k = esk[32:]
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assert(len(k) == 32)
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k_prime = H("Derive temporary signing key hash input" + k)[:32]
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return encodeint(s_prime) + k_prime
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def blindPK(pk, param):
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mult = 2**(b-2) + sum(2**i * bit(param,i) for i in range(3,b-2))
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P = decodepoint(pk)
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return encodepoint(scalarmult(P, mult))
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def expandSK(sk):
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h = H(sk)
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a = 2**(b-2) + sum(2**i * bit(h,i) for i in range(3,b-2))
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k = ''.join([h[i] for i in range(b/8,b/4)])
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assert len(k) == 32
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return encodeint(a)+k
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def publickeyFromESK(h):
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a = decodeint(h[:32])
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A = scalarmult(B,a)
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return encodepoint(A)
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def signatureWithESK(m,h,pk):
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a = decodeint(h[:32])
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r = Hint(''.join([h[i] for i in range(b/8,b/4)]) + m)
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R = scalarmult(B,r)
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S = (r + Hint(encodepoint(R) + pk + m) * a) % l
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return encodepoint(R) + encodeint(S)
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def newSK():
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return os.urandom(32)
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def random_scalar(entropy_f): # 0..L-1 inclusive
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# reduce the bias to a safe level by generating 256 extra bits
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oversized = int(binascii.hexlify(entropy_f(32+32)), 16)
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return oversized % ell
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# ------------------------------------------------------------
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MSG = "This is extremely silly. But it is also incredibly serious business!"
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class SelfTest(unittest.TestCase):
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def _testSignatures(self, esk, pk):
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sig = signatureWithESK(MSG, esk, pk)
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checkvalid(sig, MSG, pk)
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bad = False
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try:
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checkvalid(sig, MSG*2, pk)
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bad = True
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except Exception:
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pass
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self.failIf(bad)
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def testExpand(self):
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sk = newSK()
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pk = publickey(sk)
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esk = expandSK(sk)
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sig1 = signature(MSG, sk, pk)
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sig2 = signatureWithESK(MSG, esk, pk)
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self.assertEquals(sig1, sig2)
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def testSignatures(self):
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sk = newSK()
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esk = expandSK(sk)
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pk = publickeyFromESK(esk)
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pk2 = publickey(sk)
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self.assertEquals(pk, pk2)
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self._testSignatures(esk, pk)
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def testDerivation(self):
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priv = slownacl_curve25519.Private()
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pub = priv.get_public()
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ed_pub0 = publickeyFromESK(priv.private)
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sign = (ord(ed_pub0[31]) & 255) >> 7
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ed_pub1 = curve25519ToEd25519(pub.public, sign)
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self.assertEquals(ed_pub0, ed_pub1)
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def testBlinding(self):
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sk = newSK()
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esk = expandSK(sk)
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pk = publickeyFromESK(esk)
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param = os.urandom(32)
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besk = blindESK(esk, param)
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bpk = blindPK(pk, param)
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bpk2 = publickeyFromESK(besk)
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self.assertEquals(bpk, bpk2)
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self._testSignatures(besk, bpk)
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def testIdentity(self):
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# Base point:
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# B is the unique point (x, 4/5) \in E for which x is positive
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By = 4 * inv(5)
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Bx = xrecover(By)
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B = [Bx % q,By % q]
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# Get identity E by doing: E = l*B, where l is the group order
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identity = scalarmult(B, ell)
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# Get identity E by doing: E = l*A, where A is a random point
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sk = newSK()
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pk = decodepoint(publickey(sk))
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identity2 = scalarmult(pk, ell)
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# Check that identities match
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assert(identity == identity2)
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# Check that identity is the point (0,1)
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assert(identity == [0L,1L])
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# Check identity element: a*E = E, where a is a random scalar
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scalar = random_scalar(os.urandom)
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result = scalarmult(identity, scalar)
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assert(result == identity == identity2)
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# ------------------------------------------------------------
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# From pprint.pprint([ binascii.b2a_hex(os.urandom(32)) for _ in xrange(8) ])
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RAND_INPUTS = [
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'26c76712d89d906e6672dafa614c42e5cb1caac8c6568e4d2493087db51f0d36',
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'fba7a5366b5cb98c2667a18783f5cf8f4f8d1a2ce939ad22a6e685edde85128d',
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'67e3aa7a14fac8445d15e45e38a523481a69ae35513c9e4143eb1c2196729a0e',
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'd51385942033a76dc17f089a59e6a5a7fe80d9c526ae8ddd8c3a506b99d3d0a6',
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'5c8eac469bb3f1b85bc7cd893f52dc42a9ab66f1b02b5ce6a68e9b175d3bb433',
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'eda433d483059b6d1ff8b7cfbd0fe406bfb23722c8f3c8252629284573b61b86',
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'4377c40431c30883c5fbd9bc92ae48d1ed8a47b81d13806beac5351739b5533d',
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'c6bbcce615839756aed2cc78b1de13884dd3618f48367a17597a16c1cd7a290b']
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# From pprint.pprint([ binascii.b2a_hex(os.urandom(32)) for _ in xrange(8) ])
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BLINDING_PARAMS = [
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'54a513898b471d1d448a2f3c55c1de2c0ef718c447b04497eeb999ed32027823',
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'831e9b5325b5d31b7ae6197e9c7a7baf2ec361e08248bce055908971047a2347',
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'ac78a1d46faf3bfbbdc5af5f053dc6dc9023ed78236bec1760dadfd0b2603760',
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'f9c84dc0ac31571507993df94da1b3d28684a12ad14e67d0a068aba5c53019fc',
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'b1fe79d1dec9bc108df69f6612c72812755751f21ecc5af99663b30be8b9081f',
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'81f1512b63ab5fb5c1711a4ec83d379c420574aedffa8c3368e1c3989a3a0084',
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'97f45142597c473a4b0e9a12d64561133ad9e1155fe5a9807fe6af8a93557818',
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'3f44f6a5a92cde816635dfc12ade70539871078d2ff097278be2a555c9859cd0']
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PREFIX = "ED25519_"
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def writeArray(name, array):
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print "static const char *{prefix}{name}[] = {{".format(
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prefix=PREFIX,name=name)
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for a in array:
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h = binascii.b2a_hex(a)
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if len(h) > 70:
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h1 = h[:70]
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h2 = h[70:]
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print ' "{0}"\n "{1}",'.format(h1,h2)
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else:
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print ' "{0}",'.format(h)
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print "};\n"
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def comment(text, initial="/**"):
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print initial
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print textwrap.fill(text,initial_indent=" * ",subsequent_indent=" * ")
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print " */"
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def makeTestVectors():
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comment("""Test vectors for our ed25519 implementation and related
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functions. These were automatically generated by the
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ed25519_exts_ref.py script.""", initial="/*")
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comment("""Secret key seeds used as inputs for the ed25519 test vectors.
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Randomly generated. """)
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secretKeys = [ binascii.a2b_hex(r) for r in RAND_INPUTS ]
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writeArray("SECRET_KEYS", secretKeys)
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comment("""Secret ed25519 keys after expansion from seeds. This is how Tor
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represents them internally.""")
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expandedSecretKeys = [ expandSK(sk) for sk in secretKeys ]
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writeArray("EXPANDED_SECRET_KEYS", expandedSecretKeys)
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comment("""Public keys derived from the above secret keys""")
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publicKeys = [ publickey(sk) for sk in secretKeys ]
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writeArray("PUBLIC_KEYS", publicKeys)
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comment("""The curve25519 public keys from which the ed25519 keys can be
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derived. Used to test our 'derive ed25519 from curve25519'
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code.""")
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writeArray("CURVE25519_PUBLIC_KEYS",
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(slownacl_curve25519.smult_curve25519_base(sk[:32])
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for sk in expandedSecretKeys))
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comment("""Parameters used for key blinding tests. Randomly generated.""")
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blindingParams = [ binascii.a2b_hex(r) for r in BLINDING_PARAMS ]
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writeArray("BLINDING_PARAMS", blindingParams)
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comment("""Blinded secret keys for testing key blinding. The nth blinded
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key corresponds to the nth secret key blidned with the nth
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blinding parameter.""")
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writeArray("BLINDED_SECRET_KEYS",
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(blindESK(expandSK(sk), bp)
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for sk,bp in zip(secretKeys,blindingParams)))
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comment("""Blinded public keys for testing key blinding. The nth blinded
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key corresponds to the nth public key blidned with the nth
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blinding parameter.""")
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writeArray("BLINDED_PUBLIC_KEYS",
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(blindPK(pk, bp) for pk,bp in zip(publicKeys,blindingParams)))
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comment("""Signatures of the public keys, made with their corresponding
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secret keys.""")
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writeArray("SELF_SIGNATURES",
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(signature(pk, sk, pk) for pk,sk in zip(publicKeys,secretKeys)))
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if __name__ == '__main__':
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import sys
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if len(sys.argv) == 1 or sys.argv[1] not in ("SelfTest", "MakeVectors"):
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print "You should specify one of 'SelfTest' or 'MakeVectors'"
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sys.exit(1)
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if sys.argv[1] == 'SelfTest':
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unittest.main()
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else:
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makeTestVectors()
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