/* sample of somewhat homomorphic encryption(SHE) */ #define PUT(x) std::cout << #x << "=" << (x) << std::endl; #include #include using namespace mcl::she; void miniSample() { // init library SHE::init(); SecretKey sec; // init secret key by random_device sec.setByCSPRNG(); // set range to decode GT DLP SHE::setRangeForGTDLP(1000); PublicKey pub; // get public key sec.getPublicKey(pub); const int N = 5; int a[] = { 1, 5, -3, 4, 6 }; int b[] = { 4, 2, 1, 9, -2 }; // compute correct value int sum = 0; for (size_t i = 0; i < N; i++) { sum += a[i] * b[i]; } std::vector ca(N), cb(N); // encrypt each a[] and b[] for (size_t i = 0; i < N; i++) { pub.enc(ca[i], a[i]); pub.enc(cb[i], b[i]); } CipherText c; c.clearAsMultiplied(); // clear as multiplied before using c.add() // inner product of encrypted vector for (size_t i = 0; i < N; i++) { CipherText t; CipherText::mul(t, ca[i], cb[i]); // t = ca[i] * cb[i] c.add(t); // c += t } // decode it int m = sec.dec(c); // verify the value if (m == sum) { puts("ok"); } else { printf("err correct %d err %d\n", sum, m); } } void usePrimitiveCipherText() { // init library SHE::init(); SecretKey sec; // init secret key by random_device sec.setByCSPRNG(); // set range to decode GT DLP SHE::setRangeForGTDLP(100); PublicKey pub; // get public key sec.getPublicKey(pub); int a1 = 1, a2 = 2; int b1 = 5, b2 = -4; CipherTextG1 c1, c2; // size of CipherTextG1 = N * 2 ; N = 256-bit for CurveFp254BNb CipherTextG2 d1, d2; // size of CipherTextG2 = N * 4 pub.enc(c1, a1); pub.enc(c2, a2); pub.enc(d1, b1); pub.enc(d2, b2); c1.add(c2); // CipherTextG1 is additive HE d1.add(d2); // CipherTextG2 is additive HE CipherTextGT cm; // size of CipherTextGT = N * 12 * 4 CipherTextGT::mul(cm, c1, d1); // cm = c1 * d1 cm.add(cm); // 2cm int m = sec.dec(cm); int ok = (a1 + a2) * (b1 + b2) * 2; if (m == ok) { puts("ok"); } else { printf("err m=%d ok=%d\n", m, ok); } std::string s; s = c1.getStr(mcl::IoFixedSizeByteSeq); // serialize printf("c1 data size %d byte\n", (int)s.size()); c2.setStr(s, mcl::IoFixedSizeByteSeq); printf("deserialize %s\n", c1 == c2 ? "ok" : "ng"); s = d1.getStr(mcl::IoFixedSizeByteSeq); // serialize printf("d1 data size %d byte\n", (int)s.size()); d2.setStr(s, mcl::IoFixedSizeByteSeq); printf("deserialize %s\n", d1 == d2 ? "ok" : "ng"); s = cm.getStr(mcl::IoFixedSizeByteSeq); // serialize printf("cm data size %d byte\n", (int)s.size()); CipherTextGT cm2; cm2.setStr(s, mcl::IoFixedSizeByteSeq); printf("deserialize %s\n", cm == cm2 ? "ok" : "ng"); } int main() try { miniSample(); usePrimitiveCipherText(); } catch (std::exception& e) { printf("err %s\n", e.what()); return 1; }