a portable and fast pairing-based cryptography library
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mcl/test/she_test.cpp

277 lines
5.8 KiB

#define PUT(x) std::cout << #x << "=" << (x) << std::endl;
#include <cybozu/test.hpp>
#include <cybozu/benchmark.hpp>
#include <cybozu/xorshift.hpp>
#include <mcl/she.hpp>
using namespace mcl::she;
using namespace mcl::bn256;
SecretKey g_sec;
CYBOZU_TEST_AUTO(log)
{
SHE::init();
G1 P;
BN::hashAndMapToG1(P, "abc");
for (int i = -5; i < 5; i++) {
G1 iP;
G1::mul(iP, P, i);
CYBOZU_TEST_EQUAL(mcl::she::local::log(P, iP), i);
}
}
CYBOZU_TEST_AUTO(HashTable)
{
mcl::she::local::HashTable<G1> hashTbl;
G1 P;
BN::hashAndMapToG1(P, "abc");
const int maxSize = 100;
const int tryNum = 3;
hashTbl.init(P, maxSize, tryNum);
for (int i = -maxSize; i <= maxSize; i++) {
G1 xP;
G1::mul(xP, P, i);
CYBOZU_TEST_EQUAL(hashTbl.basicLog(xP), i);
}
for (int i = -maxSize * tryNum; i <= maxSize * tryNum; i++) {
G1 xP;
G1::mul(xP, P, i);
CYBOZU_TEST_EQUAL(hashTbl.log(xP), i);
}
}
CYBOZU_TEST_AUTO(GTHashTable)
{
mcl::she::local::HashTable<GT, false> hashTbl;
GT g;
{
G1 P;
BN::hashAndMapToG1(P, "abc");
G2 Q;
BN::hashAndMapToG2(Q, "abc");
BN::pairing(g, P, Q);
}
const int maxSize = 100;
const int tryNum = 3;
hashTbl.init(g, maxSize, tryNum);
for (int i = -maxSize; i <= maxSize; i++) {
GT gx;
GT::pow(gx, g, i);
CYBOZU_TEST_EQUAL(hashTbl.basicLog(gx), i);
}
for (int i = -maxSize * tryNum; i <= maxSize * tryNum; i++) {
GT gx;
GT::pow(gx, g, i);
CYBOZU_TEST_EQUAL(hashTbl.log(gx), i);
}
}
CYBOZU_TEST_AUTO(enc_dec)
{
SecretKey& sec = g_sec;
sec.setByCSPRNG();
SHE::setRangeForDLP(1024);
PublicKey pub;
sec.getPublicKey(pub);
CipherText c;
for (int i = -5; i < 5; i++) {
pub.enc(c, i);
CYBOZU_TEST_EQUAL(sec.dec(c), i);
pub.rerandomize(c);
CYBOZU_TEST_EQUAL(sec.dec(c), i);
}
}
CYBOZU_TEST_AUTO(add_sub_mul)
{
const SecretKey& sec = g_sec;
PublicKey pub;
sec.getPublicKey(pub);
for (int m1 = -5; m1 < 5; m1++) {
for (int m2 = -5; m2 < 5; m2++) {
CipherText c1, c2, c3;
pub.enc(c1, m1);
pub.enc(c2, m2);
CipherText::add(c3, c1, c2);
CYBOZU_TEST_EQUAL(m1 + m2, sec.dec(c3));
pub.rerandomize(c3);
CYBOZU_TEST_EQUAL(m1 + m2, sec.dec(c3));
CipherText::sub(c3, c1, c2);
CYBOZU_TEST_EQUAL(m1 - m2, sec.dec(c3));
CipherText::mul(c3, c1, 5);
CYBOZU_TEST_EQUAL(m1 * 5, sec.dec(c3));
CipherText::mul(c3, c1, -123);
CYBOZU_TEST_EQUAL(m1 * -123, sec.dec(c3));
CipherText::mul(c3, c1, c2);
CYBOZU_TEST_EQUAL(m1 * m2, sec.dec(c3));
pub.rerandomize(c3);
CYBOZU_TEST_EQUAL(m1 * m2, sec.dec(c3));
CipherText::mul(c3, c3, -25);
CYBOZU_TEST_EQUAL(m1 * m2 * -25, sec.dec(c3));
}
}
}
CYBOZU_TEST_AUTO(add_mul_add_sub)
{
const SecretKey& sec = g_sec;
PublicKey pub;
sec.getPublicKey(pub);
int m[8] = { 1, -2, 3, 4, -5, 6, -7, 8 };
CipherText c[8];
for (int i = 0; i < 8; i++) {
pub.enc(c[i], m[i]);
CYBOZU_TEST_EQUAL(sec.dec(c[i]), m[i]);
CYBOZU_TEST_ASSERT(!c[i].isMultiplied());
CipherText mc;
pub.convertToCipherTextM(mc, c[i]);
CYBOZU_TEST_ASSERT(mc.isMultiplied());
CYBOZU_TEST_EQUAL(sec.dec(mc), m[i]);
}
int ok1 = (m[0] + m[1]) * (m[2] + m[3]);
int ok2 = (m[4] + m[5]) * (m[6] + m[7]);
int ok = ok1 + ok2;
for (int i = 0; i < 4; i++) {
c[i * 2].add(c[i * 2 + 1]);
CYBOZU_TEST_EQUAL(sec.dec(c[i * 2]), m[i * 2] + m[i * 2 + 1]);
}
c[0].mul(c[2]);
CYBOZU_TEST_EQUAL(sec.dec(c[0]), ok1);
c[4].mul(c[6]);
CYBOZU_TEST_EQUAL(sec.dec(c[4]), ok2);
c[0].add(c[4]);
CYBOZU_TEST_EQUAL(sec.dec(c[0]), ok);
c[0].sub(c[4]);
CYBOZU_TEST_EQUAL(sec.dec(c[0]), ok1);
}
CYBOZU_TEST_AUTO(innerProduct)
{
const SecretKey& sec = g_sec;
PublicKey pub;
sec.getPublicKey(pub);
cybozu::XorShift rg;
const size_t n = 1000;
std::vector<int> v1, v2;
std::vector<CipherText> c1, c2;
v1.resize(n);
v2.resize(n);
c1.resize(n);
c2.resize(n);
int innerProduct = 0;
for (size_t i = 0; i < n; i++) {
v1[i] = rg() % 2;
v2[i] = rg() % 2;
innerProduct += v1[i] * v2[i];
pub.enc(c1[i], v1[i]);
pub.enc(c2[i], v2[i]);
}
CipherText c, t;
CipherText::mul(c, c1[0], c2[0]);
for (size_t i = 1; i < n; i++) {
CipherText::mul(t, c1[i], c2[i]);
c.add(t);
}
CYBOZU_TEST_EQUAL(innerProduct, sec.dec(c));
}
template<class T>
T testIo(const T& x)
{
std::stringstream ss;
ss << x;
T y;
ss >> y;
CYBOZU_TEST_EQUAL(x, y);
return y;
}
CYBOZU_TEST_AUTO(io)
{
SHE::setRangeForDLP(100, 2);
int m;
for (int i = 0; i < 2; i++) {
if (i == 1) {
Fp::setIoMode(mcl::IoFixedSizeByteSeq);
G1::setIoMode(mcl::IoFixedSizeByteSeq);
}
SecretKey sec;
sec.setByCSPRNG();
testIo(sec);
PublicKey pub;
sec.getPublicKey(pub);
testIo(pub);
CipherTextG1 g1;
pub.enc(g1, 3);
m = sec.dec(testIo(g1));
CYBOZU_TEST_EQUAL(m, 3);
CipherTextG2 g2;
pub.enc(g2, 5);
testIo(g2);
CipherTextA ca;
pub.enc(ca, -4);
m = sec.dec(testIo(ca));
CYBOZU_TEST_EQUAL(m, -4);
CipherTextM cm;
CipherTextM::mul(cm, g1, g2);
m = sec.dec(testIo(cm));
CYBOZU_TEST_EQUAL(m, 15);
}
}
CYBOZU_TEST_AUTO(bench)
{
const SecretKey& sec = g_sec;
PublicKey pub;
sec.getPublicKey(pub);
CipherText c1, c2, c3;
CYBOZU_BENCH("enc", pub.enc, c1, 5);
pub.enc(c2, 4);
CYBOZU_BENCH("add", c1.add, c2);
CYBOZU_BENCH("mul", CipherText::mul, c3, c1, c2);
pub.enc(c1, 5);
pub.enc(c2, 4);
c1.mul(c2);
CYBOZU_BENCH("dec", sec.dec, c1);
c2 = c1;
CYBOZU_BENCH("add after mul", c1.add, c2);
}
CYBOZU_TEST_AUTO(saveHash)
{
mcl::she::local::HashTable<SHE::G1> hashTbl1, hashTbl2;
hashTbl1.init(SHE::P, 1234, 123);
std::stringstream ss;
hashTbl1.save(ss);
hashTbl2.load(ss);
CYBOZU_TEST_ASSERT(hashTbl1 == hashTbl2);
}
CYBOZU_TEST_AUTO(hashBench)
{
SecretKey& sec = g_sec;
sec.setByCSPRNG();
SHE::setRangeForDLP(100, 1000);
PublicKey pub;
sec.getPublicKey(pub);
int x = 100;
CipherText c1;
pub.enc(c1, x);
for (int i = 0; i < 20; i++) {
int y = i * 10;
CipherText c2;
pub.enc(c2, y);
c2.mul(c1);
CYBOZU_TEST_EQUAL(sec.dec(c2), x * y);
printf("i=%2d x * y =%5d ", i, x * y);
CYBOZU_BENCH("dec", sec.dec, c2);
}
}