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/*
* (C) 2007 Falko Strenzke
* 2007 Manuel Hartl
* 2009,2015 Jack Lloyd
*
* Botan is released under the Simplified BSD License (see license.txt)
*/
#include "tests.h"
#if defined(BOTAN_HAS_ECC_GROUP)
#include <botan/bigint.h>
#include <botan/numthry.h>
#include <botan/curve_gfp.h>
#include <botan/curve_nistp.h>
#include <botan/pk_keys.h>
#include <botan/point_gfp.h>
#include <botan/ec_group.h>
#include <botan/reducer.h>
#include <botan/oids.h>
#include <botan/hex.h>
#include <botan/data_src.h>
#include <botan/x509_key.h>
#endif
namespace Botan_Tests {
namespace {
#if defined(BOTAN_HAS_ECC_GROUP)
const std::vector<std::string> ec_groups =
{
"brainpool160r1",
"brainpool192r1",
"brainpool224r1",
"brainpool256r1",
"brainpool320r1",
"brainpool384r1",
"brainpool512r1",
"gost_256A",
"secp160k1",
"secp160r1",
"secp160r2",
"secp192k1",
"secp192r1",
"secp224k1",
"secp224r1",
"secp256k1",
"secp256r1",
"secp384r1",
"secp521r1",
"x962_p192v2",
"x962_p192v3",
"x962_p239v1",
"x962_p239v2",
"x962_p239v3",
"sm2p256v1",
"frp256v1"
};
Botan::BigInt test_integer(Botan::RandomNumberGenerator& rng, size_t bits, BigInt max)
{
/*
Produces integers with long runs of ones and zeros, for testing for
carry handling problems.
*/
Botan::BigInt x = 0;
auto flip_prob = [](size_t i) -> double
{
if(i % 64 == 0)
{
return .5;
}
if(i % 32 == 0)
{
return .4;
}
if(i % 8 == 0)
{
return .05;
}
return .01;
};
bool active = rng.next_byte() % 2;
for(size_t i = 0; i != bits; ++i)
{
x <<= 1;
x += static_cast<int>(active);
const double prob = flip_prob(i);
const double sample = double(rng.next_byte() % 100) / 100.0; // biased
if(sample < prob)
{
active = !active;
}
}
if(max > 0)
{
while(x >= max)
{
const size_t b = x.bits() - 1;
BOTAN_ASSERT(x.get_bit(b) == true, "Set");
x.clear_bit(b);
}
}
return x;
}
Botan::PointGFp create_random_point(Botan::RandomNumberGenerator& rng,
const Botan::CurveGFp& curve)
{
const Botan::BigInt& p = curve.get_p();
Botan::Modular_Reducer mod_p(p);
while(true)
{
const Botan::BigInt x = Botan::BigInt::random_integer(rng, 1, p);
const Botan::BigInt x3 = mod_p.multiply(x, mod_p.square(x));
const Botan::BigInt ax = mod_p.multiply(curve.get_a(), x);
const Botan::BigInt y = mod_p.reduce(x3 + ax + curve.get_b());
const Botan::BigInt sqrt_y = ressol(y, p);
if(sqrt_y > 1)
{
BOTAN_ASSERT_EQUAL(mod_p.square(sqrt_y), y, "Square root is correct");
Botan::PointGFp point(curve, x, sqrt_y);
return point;
}
}
}
class ECC_Randomized_Tests final : public Test
{
public:
std::vector<Test::Result> run() override;
};
std::vector<Test::Result> ECC_Randomized_Tests::run()
{
std::vector<Test::Result> results;
for(auto const& group_name : ec_groups)
{
Test::Result result("ECC randomized " + group_name);
result.start_timer();
Botan::EC_Group group(group_name);
const Botan::PointGFp& base_point = group.get_base_point();
const Botan::BigInt& group_order = group.get_order();
const Botan::PointGFp inf = base_point * group_order;
result.test_eq("infinite order correct", inf.is_zero(), true);
result.test_eq("infinity on the curve", inf.on_the_curve(), true);
try
{
const size_t trials = (Test::run_long_tests() ? 10 : 3);
for(size_t i = 0; i < trials; ++i)
{
const size_t h = 1 + (Test::rng().next_byte() % 8);
Botan::Blinded_Point_Multiply blind(base_point, group_order, h);
const Botan::BigInt a = Botan::BigInt::random_integer(Test::rng(), 2, group_order);
const Botan::BigInt b = Botan::BigInt::random_integer(Test::rng(), 2, group_order);
const Botan::BigInt c = a + b;
const Botan::PointGFp P = base_point * a;
const Botan::PointGFp Q = base_point * b;
const Botan::PointGFp R = base_point * c;
const Botan::PointGFp P1 = blind.blinded_multiply(a, Test::rng());
const Botan::PointGFp Q1 = blind.blinded_multiply(b, Test::rng());
const Botan::PointGFp R1 = blind.blinded_multiply(c, Test::rng());
const Botan::PointGFp A1 = P + Q;
const Botan::PointGFp A2 = Q + P;
result.test_eq("p + q", A1, R);
result.test_eq("q + p", A2, R);
result.test_eq("p on the curve", P.on_the_curve(), true);
result.test_eq("q on the curve", Q.on_the_curve(), true);
result.test_eq("r on the curve", R.on_the_curve(), true);
result.test_eq("P1", P1, P);
result.test_eq("Q1", Q1, Q);
result.test_eq("R1", R1, R);
}
}
catch(std::exception& e)
{
result.test_failure(group_name, e.what());
}
result.end_timer();
results.push_back(result);
}
return results;
}
BOTAN_REGISTER_TEST("ecc_randomized", ECC_Randomized_Tests);
class NIST_Curve_Reduction_Tests final : public Test
{
public:
typedef std::function<void (Botan::BigInt&, Botan::secure_vector<Botan::word>&)> reducer_fn;
std::vector<Test::Result> run() override
{
std::vector<Test::Result> results;
#if defined(BOTAN_HAS_NIST_PRIME_REDUCERS_W32)
results.push_back(random_redc_test("P-384", Botan::prime_p384(), Botan::redc_p384));
results.push_back(random_redc_test("P-256", Botan::prime_p256(), Botan::redc_p256));
results.push_back(random_redc_test("P-224", Botan::prime_p224(), Botan::redc_p224));
results.push_back(random_redc_test("P-192", Botan::prime_p192(), Botan::redc_p192));
#endif
results.push_back(random_redc_test("P-521", Botan::prime_p521(), Botan::redc_p521));
return results;
}
Test::Result random_redc_test(const std::string& prime_name,
const Botan::BigInt& p,
reducer_fn redc_fn)
{
const Botan::BigInt p2 = p * p;
const size_t p_bits = p.bits();
Botan::Modular_Reducer p_redc(p);
Botan::secure_vector<Botan::word> ws;
Test::Result result("NIST " + prime_name + " reduction");
result.start_timer();
const size_t trials = (Test::run_long_tests() ? 128 : 16);
for(size_t i = 0; i <= trials; ++i)
{
const Botan::BigInt x = test_integer(Test::rng(), 2 * p_bits, p2);
// TODO: time and report all three approaches
const Botan::BigInt v1 = x % p;
const Botan::BigInt v2 = p_redc.reduce(x);
Botan::BigInt v3 = x;
redc_fn(v3, ws);
if(!result.test_eq("reference redc", v1, v2) ||
!result.test_eq("specialized redc", v2, v3))
{
result.test_note("failing input" + Botan::hex_encode(Botan::BigInt::encode(x)));
}
}
result.end_timer();
return result;
}
};
BOTAN_REGISTER_TEST("nist_redc", NIST_Curve_Reduction_Tests);
Test::Result test_coordinates()
{
Test::Result result("ECC Unit");
const Botan::BigInt exp_affine_x("16984103820118642236896513183038186009872590470");
const Botan::BigInt exp_affine_y("1373093393927139016463695321221277758035357890939");
// precalculation
const Botan::EC_Group secp160r1(Botan::OIDS::lookup("secp160r1"));
const Botan::CurveGFp& curve = secp160r1.get_curve();
const Botan::PointGFp& p_G = secp160r1.get_base_point();
const Botan::PointGFp point_exp(curve, exp_affine_x, exp_affine_y);
result.confirm("Point is on the curve", point_exp.on_the_curve());
const Botan::PointGFp p1 = p_G * 2;
result.test_eq("Point affine x", p1.get_affine_x(), exp_affine_x);
result.test_eq("Point affine y", p1.get_affine_y(), exp_affine_y);
return result;
}
/**
Test point multiplication according to
--------
SEC 2: Test Vectors for SEC 1
Certicom Research
Working Draft
September, 1999
Version 0.3;
Section 2.1.2
--------
*/
Test::Result test_point_transformation()
{
Test::Result result("ECC Unit");
// get a valid point
Botan::EC_Group dom_pars(Botan::OID("1.3.132.0.8"));
Botan::PointGFp p = dom_pars.get_base_point() * Test::rng().next_nonzero_byte();
// get a copy
Botan::PointGFp q = p;
p.randomize_repr(Test::rng());
q.randomize_repr(Test::rng());
result.test_eq("affine x after copy", p.get_affine_x(), q.get_affine_x());
result.test_eq("affine y after copy", p.get_affine_y(), q.get_affine_y());
return result;
}
Test::Result test_point_mult()
{
Test::Result result("ECC Unit");
Botan::EC_Group secp160r1(Botan::OIDS::lookup("secp160r1"));
const Botan::PointGFp& p_G = secp160r1.get_base_point();
Botan::BigInt d_U("0xaa374ffc3ce144e6b073307972cb6d57b2a4e982");
Botan::PointGFp Q_U = d_U * p_G;
result.test_eq("affine x", Q_U.get_affine_x(), Botan::BigInt("466448783855397898016055842232266600516272889280"));
result.test_eq("affine y", Q_U.get_affine_y(), Botan::BigInt("1110706324081757720403272427311003102474457754220"));
return result;
}
Test::Result test_point_negative()
{
Test::Result result("ECC Unit");
Botan::EC_Group secp160r1(Botan::OIDS::lookup("secp160r1"));
const Botan::PointGFp& p_G = secp160r1.get_base_point();
const Botan::PointGFp p1 = p_G * 2;
result.test_eq("affine x", p1.get_affine_x(), Botan::BigInt("16984103820118642236896513183038186009872590470"));
result.test_eq("affine y", p1.get_affine_y(), Botan::BigInt("1373093393927139016463695321221277758035357890939"));
const Botan::PointGFp p1_neg = -p1;
result.test_eq("affine x", p1_neg.get_affine_x(), p1.get_affine_x());
result.test_eq("affine y", p1_neg.get_affine_y(), Botan::BigInt("88408243403763901739989511495005261618427168388"));
return result;
}
Test::Result test_zeropoint()
{
Test::Result result("ECC Unit");
Botan::EC_Group secp160r1(Botan::OIDS::lookup("secp160r1"));
const Botan::CurveGFp& curve = secp160r1.get_curve();
Botan::PointGFp p1(curve,
Botan::BigInt("16984103820118642236896513183038186009872590470"),
Botan::BigInt("1373093393927139016463695321221277758035357890939"));
result.confirm("point is on the curve", p1.on_the_curve());
p1 -= p1;
result.confirm("p - q with q = p results in zero", p1.is_zero());
return result;
}
Test::Result test_zeropoint_enc_dec()
{
Test::Result result("ECC Unit");
Botan::EC_Group secp160r1(Botan::OIDS::lookup("secp160r1"));
const Botan::CurveGFp& curve = secp160r1.get_curve();
Botan::PointGFp p(curve);
result.confirm("zero point is zero", p.is_zero());
std::vector<uint8_t> sv_p = unlock(EC2OSP(p, Botan::PointGFp::UNCOMPRESSED));
result.test_eq("encoded/decode rt works", OS2ECP(sv_p, curve), p);
sv_p = unlock(EC2OSP(p, Botan::PointGFp::COMPRESSED));
result.test_eq("encoded/decode compressed rt works", OS2ECP(sv_p, curve), p);
sv_p = unlock(EC2OSP(p, Botan::PointGFp::HYBRID));
result.test_eq("encoded/decode hybrid rt works", OS2ECP(sv_p, curve), p);
return result;
}
Test::Result test_calc_with_zeropoint()
{
Test::Result result("ECC Unit");
Botan::EC_Group secp160r1(Botan::OIDS::lookup("secp160r1"));
const Botan::CurveGFp& curve = secp160r1.get_curve();
Botan::PointGFp p(curve,
Botan::BigInt("16984103820118642236896513183038186009872590470"),
Botan::BigInt("1373093393927139016463695321221277758035357890939"));
result.confirm("point is on the curve", p.on_the_curve());
result.confirm("point is not zero", !p.is_zero());
Botan::PointGFp zero(curve);
result.confirm("zero point is zero", zero.is_zero());
Botan::PointGFp res = p + zero;
result.test_eq("point + 0 equals the point", p, res);
res = p - zero;
result.test_eq("point - 0 equals the point", p, res);
res = zero * 32432243;
result.confirm("point * 0 is the zero point", res.is_zero());
return result;
}
Test::Result test_add_point()
{
Test::Result result("ECC Unit");
// precalculation
Botan::EC_Group secp160r1(Botan::OIDS::lookup("secp160r1"));
const Botan::CurveGFp& curve = secp160r1.get_curve();
const Botan::PointGFp& p_G = secp160r1.get_base_point();
Botan::PointGFp p0 = p_G;
Botan::PointGFp p1 = p_G * 2;
p1 += p0;
Botan::PointGFp expected(curve,
Botan::BigInt("704859595002530890444080436569091156047721708633"),
Botan::BigInt("1147993098458695153857594941635310323215433166682"));
result.test_eq("point addition", p1, expected);
return result;
}
Test::Result test_sub_point()
{
Test::Result result("ECC Unit");
Botan::EC_Group secp160r1(Botan::OIDS::lookup("secp160r1"));
const Botan::CurveGFp& curve = secp160r1.get_curve();
const Botan::PointGFp& p_G = secp160r1.get_base_point();
Botan::PointGFp p0 = p_G;
Botan::PointGFp p1 = p_G * 2;
p1 -= p0;
Botan::PointGFp expected(curve,
Botan::BigInt("425826231723888350446541592701409065913635568770"),
Botan::BigInt("203520114162904107873991457957346892027982641970"));
result.test_eq("point subtraction", p1, expected);
return result;
}
Test::Result test_mult_point()
{
Test::Result result("ECC Unit");
Botan::EC_Group secp160r1(Botan::OIDS::lookup("secp160r1"));
const Botan::CurveGFp& curve = secp160r1.get_curve();
const Botan::PointGFp& p_G = secp160r1.get_base_point();
Botan::PointGFp p0 = p_G;
Botan::PointGFp p1 = p_G * 2;
p1 *= p0.get_affine_x();
const Botan::BigInt exp_mult_x(std::string("967697346845926834906555988570157345422864716250"));
const Botan::BigInt exp_mult_y(std::string("512319768365374654866290830075237814703869061656"));
Botan::PointGFp expected(curve, exp_mult_x, exp_mult_y);
result.test_eq("point mult", p1, expected);
return result;
}
Test::Result test_basic_operations()
{
Test::Result result("ECC Unit");
// precalculation
Botan::EC_Group secp160r1(Botan::OIDS::lookup("secp160r1"));
const Botan::CurveGFp& curve = secp160r1.get_curve();
const Botan::PointGFp& p_G = secp160r1.get_base_point();
const Botan::PointGFp p0 = p_G;
const Botan::PointGFp p1 = p_G * 2;
result.test_eq("p1 affine x", p1.get_affine_x(), Botan::BigInt("16984103820118642236896513183038186009872590470"));
result.test_eq("p1 affine y", p1.get_affine_y(), Botan::BigInt("1373093393927139016463695321221277758035357890939"));
const Botan::PointGFp simplePlus = p1 + p0;
const Botan::PointGFp exp_simplePlus(curve,
Botan::BigInt("704859595002530890444080436569091156047721708633"),
Botan::BigInt("1147993098458695153857594941635310323215433166682"));
result.test_eq("point addition", simplePlus, exp_simplePlus);
const Botan::PointGFp simpleMinus = p1 - p0;
const Botan::PointGFp exp_simpleMinus(curve,
Botan::BigInt("425826231723888350446541592701409065913635568770"),
Botan::BigInt("203520114162904107873991457957346892027982641970"));
result.test_eq("point subtraction", simpleMinus, exp_simpleMinus);
const Botan::PointGFp simpleMult = p1 * 123456789;
result.test_eq("point mult affine x", simpleMult.get_affine_x(),
Botan::BigInt("43638877777452195295055270548491599621118743290"));
result.test_eq("point mult affine y", simpleMult.get_affine_y(),
Botan::BigInt("56841378500012376527163928510402662349220202981"));
return result;
}
Test::Result test_enc_dec_compressed_160()
{
Test::Result result("ECC Unit");
// Test for compressed conversion (02/03) 160bit
Botan::EC_Group secp160r1(Botan::OIDS::lookup("secp160r1"));
const Botan::CurveGFp& curve = secp160r1.get_curve();
const std::vector<uint8_t> G_comp = Botan::hex_decode("024A96B5688EF573284664698968C38BB913CBFC82");
const Botan::PointGFp p = Botan::OS2ECP(G_comp, curve);
std::vector<uint8_t> sv_result = unlock(Botan::EC2OSP(p, Botan::PointGFp::COMPRESSED));
result.test_eq("result", sv_result, G_comp);
return result;
}
Test::Result test_enc_dec_compressed_256()
{
Test::Result result("ECC Unit");
// Test for compressed conversion (02/03) 256bit
std::string p_secp = "ffffffff00000001000000000000000000000000ffffffffffffffffffffffff";
std::string a_secp = "ffffffff00000001000000000000000000000000ffffffffffffffffffffffFC";
std::string b_secp = "5AC635D8AA3A93E7B3EBBD55769886BC651D06B0CC53B0F63BCE3C3E27D2604B";
std::string G_secp_comp = "036B17D1F2E12C4247F8BCE6E563A440F277037D812DEB33A0F4A13945D898C296";
std::vector<uint8_t> sv_p_secp = Botan::hex_decode(p_secp);
std::vector<uint8_t> sv_a_secp = Botan::hex_decode(a_secp);
std::vector<uint8_t> sv_b_secp = Botan::hex_decode(b_secp);
std::vector<uint8_t> sv_G_secp_comp = Botan::hex_decode(G_secp_comp);
Botan::BigInt bi_p_secp = Botan::BigInt::decode(sv_p_secp.data(), sv_p_secp.size());
Botan::BigInt bi_a_secp = Botan::BigInt::decode(sv_a_secp.data(), sv_a_secp.size());
Botan::BigInt bi_b_secp = Botan::BigInt::decode(sv_b_secp.data(), sv_b_secp.size());
Botan::CurveGFp curve(bi_p_secp, bi_a_secp, bi_b_secp);
Botan::PointGFp p_G = OS2ECP(sv_G_secp_comp, curve);
std::vector<uint8_t> sv_result = unlock(EC2OSP(p_G, Botan::PointGFp::COMPRESSED));
result.test_eq("compressed_256", sv_result, sv_G_secp_comp);
return result;
}
Test::Result test_enc_dec_uncompressed_112()
{
Test::Result result("ECC Unit");
// Test for uncompressed conversion (04) 112bit
std::string p_secp = "db7c2abf62e35e668076bead208b";
std::string a_secp = "6127C24C05F38A0AAAF65C0EF02C";
std::string b_secp = "51DEF1815DB5ED74FCC34C85D709";
std::string G_secp_uncomp = "044BA30AB5E892B4E1649DD0928643ADCD46F5882E3747DEF36E956E97";
std::vector<uint8_t> sv_p_secp = Botan::hex_decode(p_secp);
std::vector<uint8_t> sv_a_secp = Botan::hex_decode(a_secp);
std::vector<uint8_t> sv_b_secp = Botan::hex_decode(b_secp);
std::vector<uint8_t> sv_G_secp_uncomp = Botan::hex_decode(G_secp_uncomp);
Botan::BigInt bi_p_secp = Botan::BigInt::decode(sv_p_secp.data(), sv_p_secp.size());
Botan::BigInt bi_a_secp = Botan::BigInt::decode(sv_a_secp.data(), sv_a_secp.size());
Botan::BigInt bi_b_secp = Botan::BigInt::decode(sv_b_secp.data(), sv_b_secp.size());
Botan::CurveGFp curve(bi_p_secp, bi_a_secp, bi_b_secp);
Botan::PointGFp p_G = OS2ECP(sv_G_secp_uncomp, curve);
std::vector<uint8_t> sv_result = unlock(EC2OSP(p_G, Botan::PointGFp::UNCOMPRESSED));
result.test_eq("uncompressed_112", sv_result, sv_G_secp_uncomp);
return result;
}
Test::Result test_enc_dec_uncompressed_521()
{
Test::Result result("ECC Unit");
// Test for uncompressed conversion(04) with big values(521 bit)
std::string p_secp =
"01ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff";
std::string a_secp =
"01ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffFC";
std::string b_secp =
"0051953EB9618E1C9A1F929A21A0B68540EEA2DA725B99B315F3B8B489918EF109E156193951EC7E937B1652C0BD3BB1BF073573DF883D2C34F1EF451FD46B503F00";
std::string G_secp_uncomp =
"0400C6858E06B70404E9CD9E3ECB662395B4429C648139053FB521F828AF606B4D3DBAA14B5E77EFE75928FE1DC127A2ffA8DE3348B3C1856A429BF97E7E31C2E5BD66011839296A789A3BC0045C8A5FB42C7D1BD998F54449579B446817AFBD17273E662C97EE72995EF42640C550B9013FAD0761353C7086A272C24088BE94769FD16650";
std::vector<uint8_t> sv_p_secp = Botan::hex_decode(p_secp);
std::vector<uint8_t> sv_a_secp = Botan::hex_decode(a_secp);
std::vector<uint8_t> sv_b_secp = Botan::hex_decode(b_secp);
std::vector<uint8_t> sv_G_secp_uncomp = Botan::hex_decode(G_secp_uncomp);
Botan::BigInt bi_p_secp = Botan::BigInt::decode(sv_p_secp.data(), sv_p_secp.size());
Botan::BigInt bi_a_secp = Botan::BigInt::decode(sv_a_secp.data(), sv_a_secp.size());
Botan::BigInt bi_b_secp = Botan::BigInt::decode(sv_b_secp.data(), sv_b_secp.size());
Botan::CurveGFp curve(bi_p_secp, bi_a_secp, bi_b_secp);
Botan::PointGFp p_G = Botan::OS2ECP(sv_G_secp_uncomp, curve);
std::vector<uint8_t> sv_result = unlock(EC2OSP(p_G, Botan::PointGFp::UNCOMPRESSED));
result.test_eq("expected", sv_result, sv_G_secp_uncomp);
return result;
}
Test::Result test_enc_dec_uncompressed_521_prime_too_large()
{
Test::Result result("ECC Unit");
// Test for uncompressed conversion(04) with big values(521 bit)
std::string p_secp =
"01ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff"; // length increased by "ff"
std::string a_secp =
"01ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffFC";
std::string b_secp =
"0051953EB9618E1C9A1F929A21A0B68540EEA2DA725B99B315F3B8B489918EF109E156193951EC7E937B1652C0BD3BB1BF073573DF883D2C34F1EF451FD46B503F00";
std::string G_secp_uncomp =
"0400C6858E06B70404E9CD9E3ECB662395B4429C648139053FB521F828AF606B4D3DBAA14B5E77EFE75928FE1DC127A2ffA8DE3348B3C1856A429BF97E7E31C2E5BD66011839296A789A3BC0045C8A5FB42C7D1BD998F54449579B446817AFBD17273E662C97EE72995EF42640C550B9013FAD0761353C7086A272C24088BE94769FD16650";
std::vector<uint8_t> sv_p_secp = Botan::hex_decode(p_secp);
std::vector<uint8_t> sv_a_secp = Botan::hex_decode(a_secp);
std::vector<uint8_t> sv_b_secp = Botan::hex_decode(b_secp);
std::vector<uint8_t> sv_G_secp_uncomp = Botan::hex_decode(G_secp_uncomp);
Botan::BigInt bi_p_secp = Botan::BigInt::decode(sv_p_secp.data(), sv_p_secp.size());
Botan::BigInt bi_a_secp = Botan::BigInt::decode(sv_a_secp.data(), sv_a_secp.size());
Botan::BigInt bi_b_secp = Botan::BigInt::decode(sv_b_secp.data(), sv_b_secp.size());
Botan::CurveGFp secp521r1(bi_p_secp, bi_a_secp, bi_b_secp);
std::unique_ptr<Botan::PointGFp> p_G;
try
{
p_G = std::unique_ptr<Botan::PointGFp>(new Botan::PointGFp(Botan::OS2ECP(sv_G_secp_uncomp, secp521r1)));
result.test_failure("point decoding with too large value accepted");
}
catch(std::exception&)
{
result.test_note("rejected invalid point");
}
return result;
}
Test::Result test_gfp_store_restore()
{
Test::Result result("ECC Unit");
// generate point
Botan::EC_Group dom_pars(Botan::OID("1.3.132.0.8"));
Botan::PointGFp p = dom_pars.get_base_point();
std::vector<uint8_t> sv_mes = unlock(EC2OSP(p, Botan::PointGFp::COMPRESSED));
Botan::PointGFp new_p = Botan::OS2ECP(sv_mes, dom_pars.get_curve());
result.test_eq("original and restored points are same", p, new_p);
return result;
}
// maybe move this test
Test::Result test_cdc_curve_33()
{
Test::Result result("ECC Unit");
std::string G_secp_uncomp =
"04081523d03d4f12cd02879dea4bf6a4f3a7df26ed888f10c5b2235a1274c386a2f218300dee6ed217841164533bcdc903f07a096f9fbf4ee95bac098a111f296f5830fe5c35b3e344d5df3a2256985f64fbe6d0edcc4c61d18bef681dd399df3d0194c5a4315e012e0245ecea56365baa9e8be1f7";
std::vector<uint8_t> sv_G_uncomp = Botan::hex_decode(G_secp_uncomp);
Botan::BigInt bi_p_secp =
Botan::BigInt("2117607112719756483104013348936480976596328609518055062007450442679169492999007105354629105748524349829824407773719892437896937279095106809");
Botan::BigInt
bi_a_secp("0xa377dede6b523333d36c78e9b0eaa3bf48ce93041f6d4fc34014d08f6833807498deedd4290101c5866e8dfb589485d13357b9e78c2d7fbe9fe");
Botan::BigInt
bi_b_secp("0xa9acf8c8ba617777e248509bcb4717d4db346202bf9e352cd5633731dd92a51b72a4dc3b3d17c823fcc8fbda4da08f25dea89046087342595a7");
Botan::CurveGFp curve(bi_p_secp, bi_a_secp, bi_b_secp);
Botan::PointGFp p_G = Botan::OS2ECP(sv_G_uncomp, curve);
result.confirm("point is on the curve", p_G.on_the_curve());
return result;
}
Test::Result test_more_zeropoint()
{
Test::Result result("ECC Unit");
// by Falko
Botan::EC_Group secp160r1(Botan::OIDS::lookup("secp160r1"));
const Botan::CurveGFp& curve = secp160r1.get_curve();
Botan::PointGFp p1(curve,
Botan::BigInt("16984103820118642236896513183038186009872590470"),
Botan::BigInt("1373093393927139016463695321221277758035357890939"));
result.confirm("point is on the curve", p1.on_the_curve());
Botan::PointGFp minus_p1 = -p1;
result.confirm("point is on the curve", minus_p1.on_the_curve());
Botan::PointGFp shouldBeZero = p1 + minus_p1;
result.confirm("point is on the curve", shouldBeZero.on_the_curve());
result.confirm("point is zero", shouldBeZero.is_zero());
Botan::BigInt y1 = p1.get_affine_y();
y1 = curve.get_p() - y1;
result.test_eq("minus point x", minus_p1.get_affine_x(), p1.get_affine_x());
result.test_eq("minus point y", minus_p1.get_affine_y(), y1);
Botan::PointGFp zero(curve);
result.confirm("zero point is on the curve", zero.on_the_curve());
result.test_eq("addition of zero does nothing", p1, p1 + zero);
return result;
}
Test::Result test_mult_by_order()
{
Test::Result result("ECC Unit");
// generate point
Botan::EC_Group dom_pars(Botan::OID("1.3.132.0.8"));
Botan::PointGFp p = dom_pars.get_base_point();
Botan::PointGFp shouldBeZero = p * dom_pars.get_order();
result.confirm("G * order = 0", shouldBeZero.is_zero());
return result;
}
Test::Result test_point_swap()
{
Test::Result result("ECC Unit");
Botan::EC_Group dom_pars(Botan::OID("1.3.132.0.8"));
Botan::PointGFp a(create_random_point(Test::rng(), dom_pars.get_curve()));
Botan::PointGFp b(create_random_point(Test::rng(), dom_pars.get_curve()));
b *= Botan::BigInt(Test::rng(), 20);
Botan::PointGFp c(a);
Botan::PointGFp d(b);
d.swap(c);
result.test_eq("swap correct", a, d);
result.test_eq("swap correct", b, c);
return result;
}
/**
* This test verifies that the side channel attack resistant multiplication function
* yields the same result as the normal (insecure) multiplication via operator*=
*/
Test::Result test_mult_sec_mass()
{
Test::Result result("ECC Unit");
Botan::EC_Group dom_pars(Botan::OID("1.3.132.0.8"));
for(int i = 0; i < 50; i++)
{
try
{
Botan::PointGFp a(create_random_point(Test::rng(), dom_pars.get_curve()));
Botan::BigInt scal(Botan::BigInt(Test::rng(), 40));
Botan::PointGFp b = a * scal;
Botan::PointGFp c(a);
c *= scal;
result.test_eq("same result", b, c);
}
catch(std::exception& e)
{
result.test_failure("mult_sec_mass", e.what());
}
}
return result;
}
Test::Result test_curve_cp_ctor()
{
Test::Result result("ECC Unit");
try
{
Botan::EC_Group dom_pars(Botan::OID("1.3.132.0.8"));
Botan::CurveGFp curve(dom_pars.get_curve());
}
catch(std::exception& e)
{
result.test_failure("curve_cp_ctor", e.what());
}
return result;
}
class ECC_Unit_Tests final : public Test
{
public:
std::vector<Test::Result> run() override
{
std::vector<Test::Result> results;
results.push_back(test_coordinates());
results.push_back(test_point_transformation());
results.push_back(test_point_mult());
results.push_back(test_point_negative());
results.push_back(test_zeropoint());
results.push_back(test_zeropoint_enc_dec());
results.push_back(test_calc_with_zeropoint());
results.push_back(test_add_point());
results.push_back(test_sub_point());
results.push_back(test_mult_point());
results.push_back(test_basic_operations());
results.push_back(test_enc_dec_compressed_160());
results.push_back(test_enc_dec_compressed_256());
results.push_back(test_enc_dec_uncompressed_112());
results.push_back(test_enc_dec_uncompressed_521());
results.push_back(test_enc_dec_uncompressed_521_prime_too_large());
results.push_back(test_gfp_store_restore());
results.push_back(test_cdc_curve_33());
results.push_back(test_more_zeropoint());
results.push_back(test_mult_by_order());
results.push_back(test_point_swap());
results.push_back(test_mult_sec_mass());
results.push_back(test_curve_cp_ctor());
return results;
}
};
BOTAN_REGISTER_TEST("ecc_unit", ECC_Unit_Tests);
#if defined(BOTAN_HAS_ECDSA)
class ECC_Invalid_Key_Tests final : public Text_Based_Test
{
public:
ECC_Invalid_Key_Tests() :
Text_Based_Test("pubkey/ecc_invalid.vec", "SubjectPublicKey") {}
bool clear_between_callbacks() const override
{
return false;
}
Test::Result run_one_test(const std::string&, const VarMap& vars) override
{
Test::Result result("ECC invalid keys");
const std::string encoded = get_req_str(vars, "SubjectPublicKey");
Botan::DataSource_Memory key_data(Botan::hex_decode(encoded));
std::unique_ptr<Botan::Public_Key> key(Botan::X509::load_key(key_data));
result.test_eq("public key fails check", key->check_key(Test::rng(), false), false);
return result;
}
};
BOTAN_REGISTER_TEST("ecc_invalid", ECC_Invalid_Key_Tests);
#endif
#endif
}
}
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