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|
/*
* (C) 2009,2015,2016 Jack Lloyd
*
* Botan is released under the Simplified BSD License (see license.txt)
*/
#include "tests.h"
#if defined(BOTAN_HAS_NUMBERTHEORY)
#include <botan/bigint.h>
#include <botan/numthry.h>
#include <botan/pow_mod.h>
#include <botan/parsing.h>
#endif
namespace Botan_Tests {
namespace {
#if defined(BOTAN_HAS_NUMBERTHEORY)
using Botan::BigInt;
class BigInt_Unit_Tests final : public Test
{
public:
std::vector<Test::Result> run() override
{
std::vector<Test::Result> results;
results.push_back(test_bigint_sizes());
results.push_back(test_random_integer());
results.push_back(test_random_prime());
results.push_back(test_encode());
results.push_back(test_bigint_io());
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<uint32_t>(1));
}
else if(bit <= 31 || (bit == 32 && i == 1))
{
result.test_is_eq("BigInt::to_u32bit", a.to_u32bit(), static_cast<uint32_t>((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_prime()
{
Test::Result result("BigInt prime generation");
result.test_throws("Invalid arg", []() { Botan::random_prime(Test::rng(), 0); });
result.test_throws("Invalid arg", []() { Botan::random_prime(Test::rng(), 1); });
result.test_throws("Invalid arg", []() { Botan::random_prime(Test::rng(), 2, 0); });
result.test_throws("Invalid arg", []() { Botan::random_prime(Test::rng(), 2, 1, 1, 3); });
result.test_throws("Invalid arg", []() { Botan::random_prime(Test::rng(), 2, 1, 0, 2); });
BigInt p = Botan::random_prime(Test::rng(), 2);
result.confirm("Only two 2-bit primes", p == 2 || p == 3);
p = Botan::random_prime(Test::rng(), 3);
result.confirm("Only two 3-bit primes", p == 5 || p == 7);
p = Botan::random_prime(Test::rng(), 4);
result.confirm("Only two 4-bit primes", p == 11 || p == 13);
for(size_t bits = 5; bits <= 32; ++bits)
{
p = Botan::random_prime(Test::rng(), bits);
result.test_eq("Expected bit size", p.bits(), bits);
result.test_eq("P is prime", Botan::is_prime(p, Test::rng()), true);
}
for(size_t bits = 5; bits <= 32; ++bits)
{
const BigInt last_p = p;
p = Botan::random_prime(Test::rng(), bits, last_p);
result.test_eq("Relatively prime", Botan::gcd(last_p, p), 1);
result.test_eq("Expected bit size", p.bits(), bits);
result.test_eq("P is prime", Botan::is_prime(p, Test::rng()), true);
}
const size_t safe_prime_bits = 65;
const BigInt safe_prime = Botan::random_safe_prime(Test::rng(), safe_prime_bits);
result.test_eq("Safe prime size", safe_prime.bits(), safe_prime_bits);
result.confirm("P is prime", Botan::is_prime(safe_prime, Test::rng()));
result.confirm("(P-1)/2 is prime", Botan::is_prime((safe_prime - 1) / 2, Test::rng()));
return result;
}
Test::Result test_random_integer()
{
Test::Result result("BigInt::random_integer");
result.start_timer();
// A value of 500 caused a non-negligible amount of test failures
const size_t ITERATIONS_PER_POSSIBLE_VALUE = 750;
std::vector<size_t> min_ranges{ 0 };
std::vector<size_t> max_ranges{ 10 };
if(Test::run_long_tests())
{
// This gets slow quickly:
min_ranges.push_back(7);
max_ranges.push_back(113);
}
for(size_t range_min : min_ranges)
{
for(size_t range_max : max_ranges)
{
if(range_min >= range_max)
{
continue;
}
std::vector<size_t> counts(range_max - range_min);
for(size_t i = 0; i != counts.size() * ITERATIONS_PER_POSSIBLE_VALUE; ++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(const auto count : counts)
{
double ratio = static_cast<double>(count) / ITERATIONS_PER_POSSIBLE_VALUE;
if(ratio >= 0.85 && ratio <= 1.15) // +/-15 %
{
result.test_success("distribution within expected range");
}
else
{
result.test_failure("distribution ratio outside expected range (+/-15 %): " +
std::to_string(ratio));
}
}
}
}
result.end_timer();
return result;
}
Test::Result test_encode()
{
Test::Result result("BigInt encoding functions");
const BigInt n1(0xffff);
const BigInt n2(1023);
Botan::secure_vector<uint8_t> encoded_n1 = BigInt::encode_1363(n1, 256);
Botan::secure_vector<uint8_t> encoded_n2 = BigInt::encode_1363(n2, 256);
Botan::secure_vector<uint8_t> expected = encoded_n1;
expected += encoded_n2;
Botan::secure_vector<uint8_t> encoded_n1_n2 = BigInt::encode_fixed_length_int_pair(n1, n2, 256);
result.test_eq("encode_fixed_length_int_pair", encoded_n1_n2, expected);
for(size_t i = 0; i < 256 - n1.bytes(); ++i)
{
if(encoded_n1[i] != 0)
{
result.test_failure("encode_1363", "no zero byte");
}
}
return result;
}
Test::Result test_bigint_io()
{
Test::Result result("BigInt IO operators");
const std::map<std::string, Botan::BigInt> str_to_val =
{
{ "-13", -Botan::BigInt(13) },
{ "0", Botan::BigInt(0) },
{ "0x13", Botan::BigInt(0x13) },
{ "1", Botan::BigInt(1) },
{ "4294967297", Botan::BigInt(2147483648) * 2 + 1 }
};
for(auto vec : str_to_val)
{
Botan::BigInt n;
std::istringstream iss;
iss.str(vec.first);
iss >> n;
result.test_eq("input '" + vec.first + "'", n, vec.second);
}
BigInt n = 33;
std::ostringstream oss;
oss << n;
result.test_eq("output 33 dec", oss.str(), "33");
oss.str("");
oss << std::hex << n;
result.test_eq("output 33 hex", oss.str(), "21");
result.test_throws("octal output not supported", [&]() { oss << std::oct << n; });
return result;
}
};
BOTAN_REGISTER_TEST("bigint_unit", BigInt_Unit_Tests);
class BigInt_Add_Test final : 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 final : 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 final : 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 final : 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 final : 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 final : 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);
// if b fits into a Botan::word test %= operator for words
if(b.bytes() <= sizeof(Botan::word))
{
Botan::word b_word = b.word_at(0);
e = a;
e %= b_word;
result.test_eq("a %= b (as word)", e, c);
}
return result;
}
};
BOTAN_REGISTER_TEST("bn_mod", BigInt_Mod_Test);
class BigInt_GCD_Test final : public Text_Based_Test
{
public:
BigInt_GCD_Test() : Text_Based_Test("bn/gcd.vec", "X,Y,GCD") {}
Test::Result run_one_test(const std::string&, const VarMap& vars) override
{
Test::Result result("BigInt Mod");
const BigInt x = get_req_bn(vars, "X");
const BigInt y = get_req_bn(vars, "Y");
const BigInt expected = get_req_bn(vars, "GCD");
const BigInt g = Botan::gcd(x, y);
result.test_eq("gcd", expected, g);
return result;
}
};
BOTAN_REGISTER_TEST("bn_gcd", BigInt_GCD_Test);
class BigInt_Lshift_Test final : 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 final : 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 final : 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 base = get_req_bn(vars, "Base");
const BigInt exponent = get_req_bn(vars, "Exponent");
const BigInt modulus = get_req_bn(vars, "Modulus");
const BigInt expected = get_req_bn(vars, "Output");
result.test_eq("power_mod", Botan::power_mod(base, exponent, modulus), expected);
/*
* Only the basic power_mod interface supports negative base
*/
if(base.is_negative())
return result;
Botan::Power_Mod pow_mod1(modulus);
pow_mod1.set_base(base);
pow_mod1.set_exponent(exponent);
result.test_eq("pow_mod1", pow_mod1.execute(), expected);
Botan::Power_Mod pow_mod2(modulus);
// Reverses ordering which affects window size
pow_mod2.set_exponent(exponent);
pow_mod2.set_base(base);
result.test_eq("pow_mod2", pow_mod2.execute(), expected);
result.test_eq("pow_mod2 #2", pow_mod2.execute(), expected);
if(modulus.is_odd())
{
// TODO: test different hints
// also TODO: remove bogus hinting arguments :)
Botan::Power_Mod pow_mod3(modulus, Botan::Power_Mod::NO_HINTS, /*disable_montgomery=*/true);
pow_mod3.set_exponent(exponent);
pow_mod3.set_base(base);
result.test_eq("pow_mod_fixed_window", pow_mod3.execute(), expected);
}
return result;
}
};
BOTAN_REGISTER_TEST("bn_powmod", BigInt_Powmod_Test);
class BigInt_IsPrime_Test final : public Text_Based_Test
{
public:
BigInt_IsPrime_Test() : Text_Based_Test("bn/isprime.vec", "X") {}
Test::Result run_one_test(const std::string& header, const VarMap& vars) override
{
if(header != "Prime" && header != "NonPrime")
{
throw Test_Error("Bad header for prime test " + header);
}
const BigInt value = get_req_bn(vars, "X");
const bool is_prime = (header == "Prime");
Test::Result result("BigInt Test " + header);
result.test_eq("is_prime", Botan::is_prime(value, Test::rng()), is_prime);
return result;
}
};
BOTAN_REGISTER_TEST("bn_isprime", BigInt_IsPrime_Test);
class BigInt_Ressol_Test final : 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 final : 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);
class DSA_ParamGen_Test final : public Text_Based_Test
{
public:
DSA_ParamGen_Test() : Text_Based_Test("bn/dsa_gen.vec", "P,Q,Counter,Seed") {}
Test::Result run_one_test(const std::string& header, const VarMap& vars) override
{
const std::vector<uint8_t> seed = get_req_bin(vars, "Seed");
const size_t offset = get_req_sz(vars, "Counter");
const Botan::BigInt exp_P = get_req_bn(vars, "P");
const Botan::BigInt exp_Q = get_req_bn(vars, "Q");
const std::vector<std::string> header_parts = Botan::split_on(header, ',');
if(header_parts.size() != 2)
{
throw Test_Error("Unexpected header '" + header + "' in DSA param gen test");
}
const size_t p_bits = Botan::to_u32bit(header_parts[1]);
const size_t q_bits = Botan::to_u32bit(header_parts[0]);
Test::Result result("DSA Parameter Generation");
// These tests are very slow so skip in normal runs
if(p_bits > 1024 && Test::run_long_tests() == false)
{
return result;
}
try
{
Botan::BigInt gen_P, gen_Q;
if(Botan::generate_dsa_primes(Test::rng(), gen_P, gen_Q, p_bits, q_bits, seed, offset))
{
result.test_eq("P", gen_P, exp_P);
result.test_eq("Q", gen_Q, exp_Q);
}
else
{
result.test_failure("Seed did not generate a DSA parameter");
}
}
catch(Botan::Lookup_Error&)
{
}
return result;
}
};
BOTAN_REGISTER_TEST("dsa_param", DSA_ParamGen_Test);
#endif
}
}
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