#include #define CYBOZU_TEST_DISABLE_AUTO_RUN #include #include #include const size_t hashSize = 1 << 10; const size_t tryNum = 1024; CYBOZU_TEST_AUTO(init) { #if MCLBN_FP_UNIT_SIZE == 4 int curve = MCL_BN254; #elif MCLBN_FP_UNIT_SIZE == 6 && MCLBN_FR_UNIT_SIZE == 4 int curve = MCL_BLS12_381; #elif MCLBN_FP_UNIT_SIZE == 6 && MCLBN_FR_UNIT_SIZE == 6 int curve = MCL_BN381_1; #elif MCLBN_FP_UNIT_SIZE == 8 int curve = MCL_BN462; #endif int ret; printf("curve=%d\n", curve); ret = sheInit(curve, MCLBN_COMPILED_TIME_VAR); CYBOZU_TEST_EQUAL(ret, 0); ret = sheSetRangeForDLP(hashSize); CYBOZU_TEST_EQUAL(ret, 0); } CYBOZU_TEST_AUTO(encDec) { sheSecretKey sec; sheSecretKeySetByCSPRNG(&sec); shePublicKey pub; sheGetPublicKey(&pub, &sec); int64_t m = 123; sheCipherTextG1 c1; sheCipherTextG2 c2; sheCipherTextGT ct; sheEncG1(&c1, &pub, m); sheEncG2(&c2, &pub, m); sheEncGT(&ct, &pub, m); int64_t dec; CYBOZU_TEST_EQUAL(sheDecG1(&dec, &sec, &c1), 0); CYBOZU_TEST_EQUAL(dec, m); dec = 0; CYBOZU_TEST_EQUAL(sheDecG1ViaGT(&dec, &sec, &c1), 0); CYBOZU_TEST_EQUAL(dec, m); dec = 0; CYBOZU_TEST_EQUAL(sheDecG2(&dec, &sec, &c2), 0); CYBOZU_TEST_EQUAL(dec, m); dec = 0; CYBOZU_TEST_EQUAL(sheDecG2ViaGT(&dec, &sec, &c2), 0); CYBOZU_TEST_EQUAL(dec, m); dec = 0; CYBOZU_TEST_EQUAL(sheDecGT(&dec, &sec, &ct), 0); CYBOZU_TEST_EQUAL(dec, m); for (int m = -30; m < 30; m++) { dec = 0; sheEncG1(&c1, &pub, m); CYBOZU_TEST_EQUAL(sheDecG1(&dec, &sec, &c1), 0); CYBOZU_TEST_EQUAL(dec, m); CYBOZU_TEST_EQUAL(sheIsZeroG1(&sec, &c1), m == 0); dec = 0; sheEncG2(&c2, &pub, m); CYBOZU_TEST_EQUAL(sheDecG2(&dec, &sec, &c2), 0); CYBOZU_TEST_EQUAL(dec, m); CYBOZU_TEST_EQUAL(sheIsZeroG2(&sec, &c2), m == 0); dec = 0; sheEncGT(&ct, &pub, m); CYBOZU_TEST_EQUAL(sheDecGT(&dec, &sec, &ct), 0); CYBOZU_TEST_EQUAL(dec, m); CYBOZU_TEST_EQUAL(sheIsZeroGT(&sec, &ct), m == 0); } for (int m = -30; m < 30; m++) { dec = 0; sheEncG1(&c1, &pub, 1); sheMulG1(&c1, &c1, m); CYBOZU_TEST_EQUAL(sheDecG1(&dec, &sec, &c1), 0); CYBOZU_TEST_EQUAL(dec, m); dec = 0; sheEncG2(&c2, &pub, 1); sheMulG2(&c2, &c2, m); CYBOZU_TEST_EQUAL(sheDecG2(&dec, &sec, &c2), 0); CYBOZU_TEST_EQUAL(dec, m); dec = 0; sheEncGT(&ct, &pub, 1); sheMulGT(&ct, &ct, m); CYBOZU_TEST_EQUAL(sheDecGT(&dec, &sec, &ct), 0); CYBOZU_TEST_EQUAL(dec, m); } } CYBOZU_TEST_AUTO(addMul) { sheSecretKey sec; sheSecretKeySetByCSPRNG(&sec); shePublicKey pub; sheGetPublicKey(&pub, &sec); int64_t m1 = 12; int64_t m2 = -9; sheCipherTextG1 c1; sheCipherTextG2 c2; sheCipherTextGT ct; sheEncG1(&c1, &pub, m1); sheEncG2(&c2, &pub, m2); sheMul(&ct, &c1, &c2); int64_t dec; CYBOZU_TEST_EQUAL(sheDecGT(&dec, &sec, &ct), 0); CYBOZU_TEST_EQUAL(dec, m1 * m2); } CYBOZU_TEST_AUTO(allOp) { sheSecretKey sec; sheSecretKeySetByCSPRNG(&sec); shePublicKey pub; sheGetPublicKey(&pub, &sec); int64_t m1 = 12; int64_t m2 = -9; int64_t m3 = 12; int64_t m4 = -9; int64_t dec; sheCipherTextG1 c11, c12; sheCipherTextG2 c21, c22; sheCipherTextGT ct; sheEncG1(&c11, &pub, m1); sheNegG1(&c12, &c11); CYBOZU_TEST_EQUAL(sheDecG1(&dec, &sec, &c12), 0); CYBOZU_TEST_EQUAL(dec, -m1); sheEncG1(&c12, &pub, m2); sheSubG1(&c11, &c11, &c12); // m1 - m2 sheMulG1(&c11, &c11, 4); // 4 * (m1 - m2) sheEncG2(&c21, &pub, m3); sheNegG2(&c22, &c21); CYBOZU_TEST_EQUAL(sheDecG2(&dec, &sec, &c22), 0); CYBOZU_TEST_EQUAL(dec, -m3); sheEncG2(&c22, &pub, m4); sheSubG2(&c21, &c21, &c22); // m3 - m4 sheMulG2(&c21, &c21, -5); // -5 * (m3 - m4) sheMul(&ct, &c11, &c21); // -20 * (m1 - m2) * (m3 - m4) sheAddGT(&ct, &ct, &ct); // -40 * (m1 - m2) * (m3 - m4) sheMulGT(&ct, &ct, -4); // 160 * (m1 - m2) * (m3 - m4) int64_t t = 160 * (m1 - m2) * (m3 - m4); CYBOZU_TEST_EQUAL(sheDecGT(&dec, &sec, &ct), 0); CYBOZU_TEST_EQUAL(dec, t); sheCipherTextGT ct2; sheNegGT(&ct2, &ct); CYBOZU_TEST_EQUAL(sheDecGT(&dec, &sec, &ct2), 0); CYBOZU_TEST_EQUAL(dec, -t); } CYBOZU_TEST_AUTO(rerand) { sheSecretKey sec; sheSecretKeySetByCSPRNG(&sec); shePublicKey pub; sheGetPublicKey(&pub, &sec); int64_t m1 = 12; int64_t m2 = -9; int64_t m3 = 12; sheCipherTextG1 c1; sheCipherTextG2 c2; sheCipherTextGT ct1, ct2; sheEncG1(&c1, &pub, m1); sheReRandG1(&c1, &pub); sheEncG2(&c2, &pub, m2); sheReRandG2(&c2, &pub); sheEncGT(&ct1, &pub, m3); sheReRandGT(&ct1, &pub); sheMul(&ct2, &c1, &c2); sheReRandGT(&ct2, &pub); sheAddGT(&ct1, &ct1, &ct2); int64_t dec; CYBOZU_TEST_EQUAL(sheDecGT(&dec, &sec, &ct1), 0); CYBOZU_TEST_EQUAL(dec, m1 * m2 + m3); } CYBOZU_TEST_AUTO(serialize) { sheSecretKey sec1, sec2; sheSecretKeySetByCSPRNG(&sec1); shePublicKey pub1, pub2; sheGetPublicKey(&pub1, &sec1); char buf1[4096], buf2[4096]; size_t n1, n2; size_t r, size; const size_t sizeofFr = mclBn_getFrByteSize(); const size_t sizeofFp = mclBn_getG1ByteSize(); size = sizeofFr * 2; n1 = sheSecretKeySerialize(buf1, sizeof(buf1), &sec1); CYBOZU_TEST_EQUAL(n1, size); r = sheSecretKeyDeserialize(&sec2, buf1, n1); CYBOZU_TEST_EQUAL(r, n1); n2 = sheSecretKeySerialize(buf2, sizeof(buf2), &sec2); CYBOZU_TEST_EQUAL(n2, size); CYBOZU_TEST_EQUAL_ARRAY(buf1, buf2, n2); size = sizeofFp * 3; n1 = shePublicKeySerialize(buf1, sizeof(buf1), &pub1); CYBOZU_TEST_EQUAL(n1, size); r = shePublicKeyDeserialize(&pub2, buf1, n1); CYBOZU_TEST_EQUAL(r, n1); n2 = shePublicKeySerialize(buf2, sizeof(buf2), &pub2); CYBOZU_TEST_EQUAL(n2, size); CYBOZU_TEST_EQUAL_ARRAY(buf1, buf2, n2); int m = 123; sheCipherTextG1 c11, c12; sheCipherTextG2 c21, c22; sheCipherTextGT ct1, ct2; sheEncG1(&c11, &pub2, m); sheEncG2(&c21, &pub2, m); sheEncGT(&ct1, &pub2, m); size = sizeofFp * 2; n1 = sheCipherTextG1Serialize(buf1, sizeof(buf1), &c11); CYBOZU_TEST_EQUAL(n1, size); r = sheCipherTextG1Deserialize(&c12, buf1, n1); CYBOZU_TEST_EQUAL(r, n1); n2 = sheCipherTextG1Serialize(buf2, sizeof(buf2), &c12); CYBOZU_TEST_EQUAL(n2, size); CYBOZU_TEST_EQUAL_ARRAY(buf1, buf2, n2); size = sizeofFp * 4; n1 = sheCipherTextG2Serialize(buf1, sizeof(buf1), &c21); CYBOZU_TEST_EQUAL(n1, size); r = sheCipherTextG2Deserialize(&c22, buf1, n1); CYBOZU_TEST_EQUAL(r, n1); n2 = sheCipherTextG2Serialize(buf2, sizeof(buf2), &c22); CYBOZU_TEST_EQUAL(n2, size); CYBOZU_TEST_EQUAL_ARRAY(buf1, buf2, n2); size = sizeofFp * 12 * 4; n1 = sheCipherTextGTSerialize(buf1, sizeof(buf1), &ct1); CYBOZU_TEST_EQUAL(n1, size); r = sheCipherTextGTDeserialize(&ct2, buf1, n1); CYBOZU_TEST_EQUAL(r, n1); n2 = sheCipherTextGTSerialize(buf2, sizeof(buf2), &ct2); CYBOZU_TEST_EQUAL(n2, size); CYBOZU_TEST_EQUAL_ARRAY(buf1, buf2, n2); } CYBOZU_TEST_AUTO(convert) { sheSecretKey sec; sheSecretKeySetByCSPRNG(&sec); shePublicKey pub; sheGetPublicKey(&pub, &sec); sheCipherTextGT ct; const int64_t m = 123; int64_t dec; sheCipherTextG1 c1; sheEncG1(&c1, &pub, m); CYBOZU_TEST_EQUAL(sheDecG1(&dec, &sec, &c1), 0); CYBOZU_TEST_EQUAL(dec, 123); sheConvertG1(&ct, &pub, &c1); dec = 0; CYBOZU_TEST_EQUAL(sheDecGT(&dec, &sec, &ct), 0); CYBOZU_TEST_EQUAL(dec, 123); sheCipherTextG2 c2; sheEncG2(&c2, &pub, m); CYBOZU_TEST_EQUAL(sheDecG2(&dec, &sec, &c2), 0); CYBOZU_TEST_EQUAL(dec, 123); sheConvertG2(&ct, &pub, &c2); dec = 0; CYBOZU_TEST_EQUAL(sheDecGT(&dec, &sec, &ct), 0); CYBOZU_TEST_EQUAL(dec, 123); } CYBOZU_TEST_AUTO(precomputed) { sheSecretKey sec; sheSecretKeySetByCSPRNG(&sec); shePublicKey pub; sheGetPublicKey(&pub, &sec); shePrecomputedPublicKey *ppub = shePrecomputedPublicKeyCreate(); CYBOZU_TEST_EQUAL(shePrecomputedPublicKeyInit(ppub, &pub), 0); const int64_t m = 152; sheCipherTextG1 c1; sheCipherTextG2 c2; sheCipherTextGT ct; int64_t dec = 0; CYBOZU_TEST_EQUAL(shePrecomputedPublicKeyEncG1(&c1, ppub, m), 0); CYBOZU_TEST_EQUAL(sheDecG1(&dec, &sec, &c1), 0); CYBOZU_TEST_EQUAL(dec, m); dec = 0; CYBOZU_TEST_EQUAL(shePrecomputedPublicKeyEncG2(&c2, ppub, m), 0); CYBOZU_TEST_EQUAL(sheDecG2(&dec, &sec, &c2), 0); CYBOZU_TEST_EQUAL(dec, m); dec = 0; CYBOZU_TEST_EQUAL(shePrecomputedPublicKeyEncGT(&ct, ppub, m), 0); CYBOZU_TEST_EQUAL(sheDecGT(&dec, &sec, &ct), 0); CYBOZU_TEST_EQUAL(dec, m); shePrecomputedPublicKeyDestroy(ppub); } template void ZkpBinTest(const sheSecretKey *sec, const PK *pub, encWithZkpFunc encWithZkp, decFunc dec, verifyFunc verify) { CT c; sheZkpBin zkp; for (int m = 0; m < 2; m++) { CYBOZU_TEST_EQUAL(encWithZkp(&c, &zkp, pub, m), 0); mclInt mDec; CYBOZU_TEST_EQUAL(dec(&mDec, sec, &c), 0); CYBOZU_TEST_EQUAL(mDec, m); CYBOZU_TEST_EQUAL(verify(pub, &c, &zkp), 1); { char buf[4096]; size_t n = sheZkpBinSerialize(buf, sizeof(buf), &zkp); CYBOZU_TEST_EQUAL(n, mclBn_getFrByteSize() * CYBOZU_NUM_OF_ARRAY(zkp.d)); sheZkpBin zkp2; size_t r = sheZkpBinDeserialize(&zkp2, buf, n); CYBOZU_TEST_EQUAL(r, n); CYBOZU_TEST_EQUAL(r, n); for (size_t i = 0; i < CYBOZU_NUM_OF_ARRAY(zkp.d); i++) { CYBOZU_TEST_ASSERT(mclBnFr_isEqual(&zkp.d[i], &zkp2.d[i])); } } zkp.d[0].d[0]++; CYBOZU_TEST_EQUAL(verify(pub, &c, &zkp), 0); } CYBOZU_TEST_ASSERT(encWithZkp(&c, &zkp, pub, 2) != 0); } CYBOZU_TEST_AUTO(ZkpBin) { sheSecretKey sec; sheSecretKeySetByCSPRNG(&sec); shePublicKey pub; sheGetPublicKey(&pub, &sec); ZkpBinTest(&sec, &pub, sheEncWithZkpBinG1, sheDecG1, sheVerifyZkpBinG1); ZkpBinTest(&sec, &pub, sheEncWithZkpBinG2, sheDecG2, sheVerifyZkpBinG2); shePrecomputedPublicKey *ppub = shePrecomputedPublicKeyCreate(); CYBOZU_TEST_EQUAL(shePrecomputedPublicKeyInit(ppub, &pub), 0); ZkpBinTest(&sec, ppub, shePrecomputedPublicKeyEncWithZkpBinG1, sheDecG1, shePrecomputedPublicKeyVerifyZkpBinG1); ZkpBinTest(&sec, ppub, shePrecomputedPublicKeyEncWithZkpBinG2, sheDecG2, shePrecomputedPublicKeyVerifyZkpBinG2); shePrecomputedPublicKeyDestroy(ppub); } template void ZkpBinEqTest(const sheSecretKey *sec, const PK *pub, encWithZkpFunc encWithZkp, verifyFunc verify) { sheCipherTextG1 c1; sheCipherTextG2 c2; sheZkpBinEq zkp; for (int m = 0; m < 2; m++) { CYBOZU_TEST_EQUAL(encWithZkp(&c1, &c2, &zkp, pub, m), 0); mclInt mDec = -1; CYBOZU_TEST_EQUAL(sheDecG1(&mDec, sec, &c1), 0); CYBOZU_TEST_EQUAL(mDec, m); mDec = -1; CYBOZU_TEST_EQUAL(sheDecG2(&mDec, sec, &c2), 0); CYBOZU_TEST_EQUAL(mDec, m); CYBOZU_TEST_EQUAL(verify(pub, &c1, &c2, &zkp), 1); { char buf[2048]; size_t n = sheZkpBinEqSerialize(buf, sizeof(buf), &zkp); CYBOZU_TEST_EQUAL(n, mclBn_getFrByteSize() * CYBOZU_NUM_OF_ARRAY(zkp.d)); sheZkpBinEq zkp2; size_t r = sheZkpBinEqDeserialize(&zkp2, buf, n); CYBOZU_TEST_EQUAL(r, n); for (size_t i = 0; i < CYBOZU_NUM_OF_ARRAY(zkp.d); i++) { CYBOZU_TEST_ASSERT(mclBnFr_isEqual(&zkp.d[i], &zkp2.d[i])); } } zkp.d[0].d[0]++; CYBOZU_TEST_EQUAL(verify(pub, &c1, &c2, &zkp), 0); } CYBOZU_TEST_ASSERT(encWithZkp(&c1, &c2, &zkp, pub, 2) != 0); } CYBOZU_TEST_AUTO(ZkpBinEq) { sheSecretKey sec; sheSecretKeySetByCSPRNG(&sec); shePublicKey pub; sheGetPublicKey(&pub, &sec); ZkpBinEqTest(&sec, &pub, sheEncWithZkpBinEq, sheVerifyZkpBinEq); shePrecomputedPublicKey *ppub = shePrecomputedPublicKeyCreate(); CYBOZU_TEST_EQUAL(shePrecomputedPublicKeyInit(ppub, &pub), 0); ZkpBinEqTest(&sec, ppub, shePrecomputedPublicKeyEncWithZkpBinEq, shePrecomputedPublicKeyVerifyZkpBinEq); shePrecomputedPublicKeyDestroy(ppub); } template void ZkpEqTest(const sheSecretKey *sec, const PK *pub, encWithZkpFunc encWithZkp, verifyFunc verify) { sheCipherTextG1 c1; sheCipherTextG2 c2; sheZkpEq zkp; for (int m = -5; m < 5; m++) { CYBOZU_TEST_EQUAL(encWithZkp(&c1, &c2, &zkp, pub, m), 0); mclInt mDec = -1; CYBOZU_TEST_EQUAL(sheDecG1(&mDec, sec, &c1), 0); CYBOZU_TEST_EQUAL(mDec, m); mDec = -1; CYBOZU_TEST_EQUAL(sheDecG2(&mDec, sec, &c2), 0); CYBOZU_TEST_EQUAL(mDec, m); CYBOZU_TEST_EQUAL(verify(pub, &c1, &c2, &zkp), 1); { char buf[2048]; size_t n = sheZkpEqSerialize(buf, sizeof(buf), &zkp); CYBOZU_TEST_EQUAL(n, mclBn_getFrByteSize() * CYBOZU_NUM_OF_ARRAY(zkp.d)); sheZkpEq zkp2; size_t r = sheZkpEqDeserialize(&zkp2, buf, n); CYBOZU_TEST_EQUAL(r, n); for (size_t i = 0; i < CYBOZU_NUM_OF_ARRAY(zkp.d); i++) { CYBOZU_TEST_ASSERT(mclBnFr_isEqual(&zkp.d[i], &zkp2.d[i])); } } zkp.d[0].d[0]++; CYBOZU_TEST_EQUAL(verify(pub, &c1, &c2, &zkp), 0); } } CYBOZU_TEST_AUTO(ZkpEq) { sheSecretKey sec; sheSecretKeySetByCSPRNG(&sec); shePublicKey pub; sheGetPublicKey(&pub, &sec); int m = 123; sheCipherTextG1 c1; sheEncG1(&c1, &pub, m); sheZkpDec zkp; int64_t dec; CYBOZU_TEST_EQUAL(sheDecWithZkpDecG1(&dec, &zkp, &sec, &c1, &pub), 0); CYBOZU_TEST_EQUAL(m, dec); CYBOZU_TEST_EQUAL(sheVerifyZkpDecG1(&pub, &c1, m, &zkp), 1); CYBOZU_TEST_EQUAL(sheVerifyZkpDecG1(&pub, &c1, m + 1, &zkp), 0); sheCipherTextG1 c2; sheEncG1(&c2, &pub, m); CYBOZU_TEST_EQUAL(sheVerifyZkpDecG1(&pub, &c2, m, &zkp), 0); zkp.d[0].d[0]++; CYBOZU_TEST_EQUAL(sheVerifyZkpDecG1(&pub, &c1, m, &zkp), 0); } CYBOZU_TEST_AUTO(ZkpDec) { sheSecretKey sec; sheSecretKeySetByCSPRNG(&sec); shePublicKey pub; sheGetPublicKey(&pub, &sec); ZkpEqTest(&sec, &pub, sheEncWithZkpEq, sheVerifyZkpEq); shePrecomputedPublicKey *ppub = shePrecomputedPublicKeyCreate(); CYBOZU_TEST_EQUAL(shePrecomputedPublicKeyInit(ppub, &pub), 0); ZkpEqTest(&sec, ppub, shePrecomputedPublicKeyEncWithZkpEq, shePrecomputedPublicKeyVerifyZkpEq); shePrecomputedPublicKeyDestroy(ppub); } template void IntVecTest(const sheSecretKey& sec, const shePublicKey& pub, const ENC& enc, const ENCV& encv, const DEC& dec, const SUB& sub, const MUL& mul, uint8_t *buf, size_t bufSize) { CT c1, c2; int ret; ret = encv(&c1, &pub, buf, bufSize); CYBOZU_TEST_EQUAL(ret, 0); buf[0] += 5; enc(&c2, &pub, 1); ret = mul(&c2, &c2, buf, bufSize); CYBOZU_TEST_EQUAL(ret, 0); sub(&c2, &c2, &c1); int64_t d; ret = dec(&d, &sec, &c2); CYBOZU_TEST_EQUAL(ret, 0); CYBOZU_TEST_EQUAL(d, 5); } CYBOZU_TEST_AUTO(IntVec) { sheSecretKey sec; sheSecretKeySetByCSPRNG(&sec); shePublicKey pub; sheGetPublicKey(&pub, &sec); uint8_t buf[48]; size_t n = 32; for (size_t i = 0; i < sizeof(buf); i++) { buf[i] = uint8_t(i + 5); } IntVecTest(sec, pub, sheEncG1, sheEncIntVecG1, sheDecG1, sheSubG1, sheMulIntVecG1, buf, n); IntVecTest(sec, pub, sheEncG2, sheEncIntVecG2, sheDecG2, sheSubG2, sheMulIntVecG2, buf, n); IntVecTest(sec, pub, sheEncGT, sheEncIntVecGT, sheDecGT, sheSubGT, sheMulIntVecGT, buf, n); } CYBOZU_TEST_AUTO(finalExp) { sheSecretKey sec; sheSecretKeySetByCSPRNG(&sec); shePublicKey pub; sheGetPublicKey(&pub, &sec); const int64_t m11 = 5; const int64_t m12 = 7; const int64_t m21 = -3; const int64_t m22 = 9; sheCipherTextG1 c11, c12; sheCipherTextG2 c21, c22; sheCipherTextGT ct1, ct2; sheCipherTextGT ct; sheEncG1(&c11, &pub, m11); sheEncG1(&c12, &pub, m12); sheEncG2(&c21, &pub, m21); sheEncG2(&c22, &pub, m22); int64_t dec; // sheMul = sheMulML + sheFinalExpGT sheMul(&ct1, &c11, &c21); CYBOZU_TEST_EQUAL(sheDecGT(&dec, &sec, &ct1), 0); CYBOZU_TEST_EQUAL(dec, m11 * m21); sheMulML(&ct1, &c11, &c21); sheFinalExpGT(&ct, &ct1); CYBOZU_TEST_EQUAL(sheDecGT(&dec, &sec, &ct), 0); CYBOZU_TEST_EQUAL(dec, m11 * m21); sheMulML(&ct2, &c12, &c22); sheFinalExpGT(&ct, &ct2); CYBOZU_TEST_EQUAL(sheDecGT(&dec, &sec, &ct), 0); CYBOZU_TEST_EQUAL(dec, m12 * m22); /* Mul(c11, c21) + Mul(c21, c22) = finalExp(ML(c11, c21) + ML(c21, c22)) */ sheAddGT(&ct, &ct1, &ct2); sheFinalExpGT(&ct, &ct); CYBOZU_TEST_EQUAL(sheDecGT(&dec, &sec, &ct), 0); CYBOZU_TEST_EQUAL(dec, (m11 * m21) + (m12 * m22)); } int g_hashBitSize = 8; std::string g_tableName; CYBOZU_TEST_AUTO(saveLoad) { sheSecretKey sec; sheSecretKeySetByCSPRNG(&sec); shePublicKey pub; sheGetPublicKey(&pub, &sec); const size_t hashSize = 1 << g_hashBitSize; const size_t byteSizePerEntry = 8; sheSetRangeForGTDLP(hashSize); std::string buf; buf.resize(hashSize * byteSizePerEntry + 1024); const size_t n1 = sheSaveTableForGTDLP(&buf[0], buf.size()); CYBOZU_TEST_ASSERT(n1 > 0); if (!g_tableName.empty()) { printf("use table=%s\n", g_tableName.c_str()); std::ofstream ofs(g_tableName.c_str(), std::ios::binary); ofs.write(buf.c_str(), n1); } const int64_t m = hashSize - 1; sheCipherTextGT ct; CYBOZU_TEST_ASSERT(sheEncGT(&ct, &pub, m) == 0); sheSetRangeForGTDLP(1); sheSetTryNum(1); int64_t dec = 0; CYBOZU_TEST_ASSERT(sheDecGT(&dec, &sec, &ct) != 0); if (!g_tableName.empty()) { std::ifstream ifs(g_tableName.c_str(), std::ios::binary); buf.clear(); buf.resize(n1); ifs.read(&buf[0], n1); } const size_t n2 = sheLoadTableForGTDLP(&buf[0], n1); CYBOZU_TEST_ASSERT(n2 > 0); CYBOZU_TEST_ASSERT(sheDecGT(&dec, &sec, &ct) == 0); CYBOZU_TEST_EQUAL(dec, m); } int main(int argc, char *argv[]) try { cybozu::Option opt; opt.appendOpt(&g_hashBitSize, 8, "bit", ": hashBitSize"); opt.appendOpt(&g_tableName, "", "f", ": table name"); opt.appendHelp("h", ": show this message"); if (!opt.parse(argc, argv)) { opt.usage(); return 1; } return cybozu::test::autoRun.run(argc, argv); } catch (std::exception& e) { printf("ERR %s\n", e.what()); return 1; }