/* * (C) 2009,2015,2016 Jack Lloyd * * Botan is released under the Simplified BSD License (see license.txt) */ #include "tests.h" #if defined(BOTAN_HAS_BIGINT) #include #include #include #endif namespace Botan_Tests { namespace { #if defined(BOTAN_HAS_BIGINT) using Botan::BigInt; class BigInt_Unit_Tests : public Test { public: std::vector run() override { std::vector results; results.push_back(test_bigint_sizes()); results.push_back(test_random_integer()); return results; } private: Test::Result test_bigint_sizes() { Test::Result result("BigInt size functions"); for(size_t bit : { 1, 8, 16, 31, 32, 64, 97, 128, 179, 192, 512, 521 }) { BigInt a; a.set_bit(bit); // Test 2^n and 2^n-1 for(size_t i = 0; i != 2; ++i) { const size_t exp_bits = bit + 1 - i; result.test_eq("BigInt::bits", a.bits(), exp_bits); result.test_eq("BigInt::bytes", a.bytes(), (exp_bits % 8 == 0) ? (exp_bits / 8) : (exp_bits + 8 - exp_bits % 8) / 8); if(bit == 1 && i == 1) { result.test_is_eq("BigInt::to_u32bit zero", a.to_u32bit(), static_cast(1)); } else if(bit <= 31 || (bit == 32 && i == 1)) { result.test_is_eq("BigInt::to_u32bit", a.to_u32bit(), static_cast((uint64_t(1) << bit) - i)); } else { try { a.to_u32bit(); result.test_failure("BigInt::to_u32bit roundtripped out of range value"); } catch(std::exception&) { result.test_success("BigInt::to_u32bit rejected out of range"); } } a--; } } return result; } Test::Result test_random_integer() { Test::Result result("BigInt::random_integer"); result.start_timer(); const size_t ITERATIONS = 5000; std::vector min_ranges{ 0 }; std::vector max_ranges{ 10 }; // This gets slow quickly: if(Test::soak_level() > 10) { min_ranges.push_back(10); max_ranges.push_back(100); if(Test::soak_level() > 50) { min_ranges.push_back(79); max_ranges.push_back(293); } } for(size_t range_min : min_ranges) { for(size_t range_max : max_ranges) { if(range_min >= range_max) continue; std::vector counts(range_max - range_min); for(size_t i = 0; i != counts.size() * ITERATIONS; ++i) { uint32_t r = BigInt::random_integer(Test::rng(), range_min, range_max).to_u32bit(); result.test_gte("random_integer", r, range_min); result.test_lt("random_integer", r, range_max); counts[r - range_min] += 1; } for(size_t i = 0; i != counts.size(); ++i) { double ratio = static_cast(counts[i]) / ITERATIONS; double dev = std::min(ratio, std::fabs(1.0 - ratio)); if(dev < .15) { result.test_success("distribution within expected range"); } else { result.test_failure("distribution " + std::to_string(dev) + " outside expected range with count" + std::to_string(counts[i])); } } } } result.end_timer(); return result; } }; BOTAN_REGISTER_TEST("bigint_unit", BigInt_Unit_Tests); class BigInt_Add_Test : public Text_Based_Test { public: BigInt_Add_Test() : Text_Based_Test("bn/add.vec", {"In1","In2","Output"}) {} Test::Result run_one_test(const std::string&, const VarMap& vars) override { Test::Result result("BigInt Addition"); using Botan::BigInt; const BigInt a = get_req_bn(vars, "In1"); const BigInt b = get_req_bn(vars, "In2"); const BigInt c = get_req_bn(vars, "Output"); BigInt d = a + b; result.test_eq("a + b", a + b, c); result.test_eq("b + a", b + a, c); BigInt e = a; e += b; result.test_eq("a += b", e, c); e = b; e += a; result.test_eq("b += a", e, c); return result; } }; BOTAN_REGISTER_TEST("bn_add", BigInt_Add_Test); class BigInt_Sub_Test : public Text_Based_Test { public: BigInt_Sub_Test() : Text_Based_Test("bn/sub.vec", {"In1","In2","Output"}) {} Test::Result run_one_test(const std::string&, const VarMap& vars) override { Test::Result result("BigInt Subtraction"); const BigInt a = get_req_bn(vars, "In1"); const BigInt b = get_req_bn(vars, "In2"); const BigInt c = get_req_bn(vars, "Output"); BigInt d = a - b; result.test_eq("a - b", a - b, c); BigInt e = a; e -= b; result.test_eq("a -= b", e, c); return result; } }; BOTAN_REGISTER_TEST("bn_sub", BigInt_Sub_Test); class BigInt_Mul_Test : public Text_Based_Test { public: BigInt_Mul_Test() : Text_Based_Test("bn/mul.vec", {"In1","In2","Output"}) {} Test::Result run_one_test(const std::string&, const VarMap& vars) override { Test::Result result("BigInt Multiply"); const BigInt a = get_req_bn(vars, "In1"); const BigInt b = get_req_bn(vars, "In2"); const BigInt c = get_req_bn(vars, "Output"); result.test_eq("a * b", a * b, c); result.test_eq("b * a", b * a, c); BigInt e = a; e *= b; result.test_eq("a *= b", e, c); e = b; e *= a; result.test_eq("b *= a", e, c); return result; } }; BOTAN_REGISTER_TEST("bn_mul", BigInt_Mul_Test); class BigInt_Sqr_Test : public Text_Based_Test { public: BigInt_Sqr_Test() : Text_Based_Test("bn/sqr.vec", {"Input","Output"}) {} Test::Result run_one_test(const std::string&, const VarMap& vars) override { Test::Result result("BigInt Square"); const BigInt input = get_req_bn(vars, "Input"); const BigInt output = get_req_bn(vars, "Output"); result.test_eq("a * a", input * input, output); result.test_eq("sqr(a)", square(input), output); return result; } }; BOTAN_REGISTER_TEST("bn_sqr", BigInt_Sqr_Test); class BigInt_Div_Test : public Text_Based_Test { public: BigInt_Div_Test() : Text_Based_Test("bn/divide.vec", {"In1","In2","Output"}) {} Test::Result run_one_test(const std::string&, const VarMap& vars) override { Test::Result result("BigInt Divide"); const BigInt a = get_req_bn(vars, "In1"); const BigInt b = get_req_bn(vars, "In2"); const BigInt c = get_req_bn(vars, "Output"); result.test_eq("a / b", a / b, c); BigInt e = a; e /= b; result.test_eq("a /= b", e, c); return result; } }; BOTAN_REGISTER_TEST("bn_div", BigInt_Div_Test); class BigInt_Mod_Test : public Text_Based_Test { public: BigInt_Mod_Test() : Text_Based_Test("bn/mod.vec", {"In1","In2","Output"}) {} Test::Result run_one_test(const std::string&, const VarMap& vars) override { Test::Result result("BigInt Mod"); const BigInt a = get_req_bn(vars, "In1"); const BigInt b = get_req_bn(vars, "In2"); const BigInt c = get_req_bn(vars, "Output"); result.test_eq("a % b", a % b, c); BigInt e = a; e %= b; result.test_eq("a %= b", e, c); return result; } }; BOTAN_REGISTER_TEST("bn_mod", BigInt_Mod_Test); class BigInt_Lshift_Test : public Text_Based_Test { public: BigInt_Lshift_Test() : Text_Based_Test("bn/lshift.vec", {"Value","Shift","Output"}) {} Test::Result run_one_test(const std::string&, const VarMap& vars) override { Test::Result result("BigInt Lshift"); const BigInt value = get_req_bn(vars, "Value"); const size_t shift = get_req_bn(vars, "Shift").to_u32bit(); const BigInt output = get_req_bn(vars, "Output"); result.test_eq("a << s", value << shift, output); BigInt e = value; e <<= shift; result.test_eq("a <<= s", e, output); return result; } }; BOTAN_REGISTER_TEST("bn_lshift", BigInt_Lshift_Test); class BigInt_Rshift_Test : public Text_Based_Test { public: BigInt_Rshift_Test() : Text_Based_Test("bn/rshift.vec", {"Value","Shift","Output"}) {} Test::Result run_one_test(const std::string&, const VarMap& vars) override { Test::Result result("BigInt Rshift"); const BigInt value = get_req_bn(vars, "Value"); const size_t shift = get_req_bn(vars, "Shift").to_u32bit(); const BigInt output = get_req_bn(vars, "Output"); result.test_eq("a >> s", value >> shift, output); BigInt e = value; e >>= shift; result.test_eq("a >>= s", e, output); return result; } }; BOTAN_REGISTER_TEST("bn_rshift", BigInt_Rshift_Test); class BigInt_Powmod_Test : public Text_Based_Test { public: BigInt_Powmod_Test() : Text_Based_Test("bn/powmod.vec", {"Base","Exponent","Modulus","Output"}) {} Test::Result run_one_test(const std::string&, const VarMap& vars) override { Test::Result result("BigInt Powmod"); const BigInt value = get_req_bn(vars, "Base"); const BigInt exponent = get_req_bn(vars, "Exponent"); const BigInt modulus = get_req_bn(vars, "Modulus"); const BigInt output = get_req_bn(vars, "Output"); result.test_eq("power_mod", Botan::power_mod(value, exponent, modulus), output); return result; } }; BOTAN_REGISTER_TEST("bn_powmod", BigInt_Powmod_Test); class BigInt_IsPrime_Test : public Text_Based_Test { public: BigInt_IsPrime_Test() : Text_Based_Test("bn/isprime.vec", {"Value","IsPrime"}) {} Test::Result run_one_test(const std::string&, const VarMap& vars) override { Test::Result result("BigInt IsPrime"); const BigInt value = get_req_bn(vars, "Value"); const bool v_is_prime = get_req_sz(vars, "IsPrime") > 0; result.test_eq("is_prime", Botan::is_prime(value, Test::rng()), v_is_prime); return result; } }; BOTAN_REGISTER_TEST("bn_isprime", BigInt_IsPrime_Test); class BigInt_Ressol_Test : public Text_Based_Test { public: BigInt_Ressol_Test() : Text_Based_Test("bn/ressol.vec", {"Input","Modulus","Output"}) {} Test::Result run_one_test(const std::string&, const VarMap& vars) override { Test::Result result("BigInt Ressol"); const Botan::BigInt a = get_req_bn(vars, "Input"); const Botan::BigInt p = get_req_bn(vars, "Modulus"); const Botan::BigInt exp = get_req_bn(vars, "Output"); const Botan::BigInt a_sqrt = Botan::ressol(a, p); result.test_eq("ressol", a_sqrt, exp); if(a_sqrt > 1) { const Botan::BigInt a_sqrt2 = (a_sqrt*a_sqrt) % p; result.test_eq("square correct", a_sqrt2, a); } return result; } }; BOTAN_REGISTER_TEST("bn_ressol", BigInt_Ressol_Test); class BigInt_InvMod_Test : public Text_Based_Test { public: BigInt_InvMod_Test() : Text_Based_Test("bn/invmod.vec", {"Input","Modulus","Output"}) {} Test::Result run_one_test(const std::string&, const VarMap& vars) override { Test::Result result("BigInt InvMod"); const Botan::BigInt a = get_req_bn(vars, "Input"); const Botan::BigInt mod = get_req_bn(vars, "Modulus"); const Botan::BigInt expected = get_req_bn(vars, "Output"); const Botan::BigInt a_inv = Botan::inverse_mod(a, mod); result.test_eq("inverse_mod", a_inv, expected); if(a_inv > 1) { result.test_eq("inverse ok", (a * a_inv) % mod, 1); } if(mod.is_odd()) { result.test_eq("ct_inverse_odd_modulus", ct_inverse_mod_odd_modulus(a, mod), expected); } if(mod.is_odd() && a_inv != 0) { result.test_eq("normalized_montgomery_inverse", normalized_montgomery_inverse(a, mod), expected); } return result; } }; BOTAN_REGISTER_TEST("bn_invmod", BigInt_InvMod_Test); #endif } }