arne
/
cryptopp
1
0
Fork 0
Code Issues Pull Requests Releases Wiki Activity

Add additional Integer class tests

pull/605/head
Jeffrey Walton 2018-03-25 18:28:56 -04:00
parent b096401b7c
commit 1efa1a9fc7
No known key found for this signature in database
GPG Key ID: B36AB348921B1838
2 changed files with 151 additions and 22 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

7
integer.cpp
View File

@ -4361,11 +4361,13 @@ Integer Integer::MultiplicativeInverse() const
Integer a_times_b_mod_c(const Integer &x, const Integer& y, const Integer& m)
{
CRYPTOPP_ASSERT(m != 0);
return x*y%m;
}
Integer a_exp_b_mod_c(const Integer &x, const Integer& e, const Integer& m)
{
CRYPTOPP_ASSERT(m != 0);
ModularArithmetic mr(m);
return mr.Exponentiate(x, e);
}
@ -4378,6 +4380,7 @@ Integer Integer::Gcd(const Integer &a, const Integer &b)
Integer Integer::InverseMod(const Integer &m) const
{
CRYPTOPP_ASSERT(m.NotNegative());
CRYPTOPP_ASSERT(m != 0);
if (IsNegative())
return Modulo(m).InverseModNext(m);
@ -4392,7 +4395,7 @@ Integer Integer::InverseMod(const Integer &m) const
Integer Integer::InverseModNext(const Integer &m) const
{
CRYPTOPP_ASSERT(m.NotNegative());
CRYPTOPP_ASSERT(*this < 2*m);
CRYPTOPP_ASSERT(m != 0);
if (m.IsEven())
{
@ -4415,6 +4418,8 @@ Integer Integer::InverseModNext(const Integer &m) const
word Integer::InverseMod(word mod) const
{
CRYPTOPP_ASSERT(mod != 0);
word g0 = mod, g1 = *this % mod;
word v0 = 0, v1 = 1;
word y;

166
validat0.cpp
View File

@ -3140,11 +3140,85 @@ bool TestIntegerOps()
// ****************************** DivideByZero ******************************
try {
Integer x = Integer::Two().Power2(128) / Integer::Zero();
pass=false;
} catch (const Exception&) {
pass=true;
{
try {
Integer x = Integer(prng, 128) / Integer::Zero();
result=false;
} catch (const Exception&) {
result=true;
}
pass = result && pass;
if (!result)
std::cout << "FAILED: Integer DivideByZero\n";
}
// The 0*0 % 0 test.
{
try {
Integer x = 0;
Integer y = 1;
Integer z = a_times_b_mod_c(y, y, x);
result = false;
}
catch(const Integer::DivideByZero&) {
result = true;
}
pass = result && pass;
if (!result)
std::cout << "FAILED: Integer DivideByZero\n";
}
// Another 0*0 % 0 test.
{
try {
Integer x = 0;
Integer y = 1;
Integer z = (y * y) % x;
result = false;
}
catch(const Integer::DivideByZero&) {
result = true;
}
pass = result && pass;
if (!result)
std::cout << "FAILED: Integer DivideByZero\n";
}
// The 0^0 % 0 test.
{
try {
Integer x = 0;
Integer y = 1;
Integer z = a_exp_b_mod_c(y, y, x);
result = false;
}
catch(const Integer::DivideByZero&) {
result = true;
}
pass = result && pass;
if (!result)
std::cout << "FAILED: Integer DivideByZero\n";
}
// Another 0^0 % 0 test.
{
try {
Integer x = 0;
Integer y = 1;
Integer z = EuclideanDomainOf<Integer>().Exponentiate(y, y) % x;
result = false;
}
catch(const Integer::DivideByZero&) {
result = true;
}
pass = result && pass;
if (!result)
std::cout << "FAILED: Integer DivideByZero\n";
}
if (pass)
@ -3191,7 +3265,7 @@ bool TestIntegerOps()
std::cout << "FAILED:";
std::cout << " Carmichael pseudo-primes\n";
// ****************************** Integer::Double ******************************
// ****************************** Integer Double ******************************
try {
Integer x = Integer::One().Doubled();
@ -3203,7 +3277,7 @@ bool TestIntegerOps()
if (!pass)
std::cout << "FAILED: Integer Doubled\n";
// ****************************** Integer::Square ******************************
// ****************************** Integer Square ******************************
try {
Integer x = Integer::Two().Squared();
@ -3231,7 +3305,7 @@ bool TestIntegerOps()
std::cout << "FAILED:";
std::cout << " Squaring operations\n";
// ****************************** Integer::GCD ******************************
// ****************************** Integer GCD ******************************
{
for (unsigned int i=0; i<128; ++i)
@ -3257,7 +3331,7 @@ bool TestIntegerOps()
std::cout << " GCD operations\n";
}
// ******************** Integer::Modulo and Integer::InverseMod ********************
// ******************** Integer Modulo and InverseMod ********************
{
// http://github.com/weidai11/cryptopp/issues/602
@ -3395,7 +3469,7 @@ bool TestIntegerOps()
std::cout << "FAILED:";
std::cout << " InverseMod operations\n";
// ****************************** Integer::Power2 ******************************
// ****************************** Integer Power2 ******************************
{
Integer x, y;
@ -3405,14 +3479,14 @@ bool TestIntegerOps()
pass = result && pass;
if (!result)
std::cout << "FAILED: Power2 (0) operation\n";
std::cout << "FAILED: Power2 operation\n";
x = Integer::Power2(1);
result = (x == 2);
pass = result && pass;
if (!result)
std::cout << "FAILED: Power2 (1) operation\n";
std::cout << "FAILED: Power2 operation\n";
}
for (unsigned int i=0; i<128; i+=2)
@ -3421,10 +3495,11 @@ bool TestIntegerOps()
Integer x = EuclideanDomainOf<Integer>().Exponentiate(b, i) % m;
Integer y = Integer::Power2(i) % m;
result = (x == y);
pass = (x == y) && pass;
pass = result && pass;
if (!result)
std::cout << "FAILED: Exponentiation operation\n";
std::cout << "FAILED: Power2 operation\n";
}
if (pass)
@ -3438,62 +3513,111 @@ bool TestIntegerOps()
// Be careful with EuclideanDomainOf<Integer>().Exponentiate(). It can easily consume
// all machine memory because it is an exponentiation without a modular reduction.
// The 0^0 test. There are mixed opinions about what the
// result should be. Some say it is undefined because, others
// say it is 0, and yet others say it is 1.
{
word32 m = prng.GenerateWord32();
if (m == 0) m++;
Integer z = Integer::Zero();
Integer x = a_exp_b_mod_c(z, z, m);
Integer y = EuclideanDomainOf<Integer>().Exponentiate(0, 0) % m;
Integer y = EuclideanDomainOf<Integer>().Exponentiate(z, z) % m;
result = (x == y) && (x == 1);
pass = (x == y) && (x == 1) && pass;
pass = result && pass;
if (!result)
std::cout << "FAILED: Exponentiation operation\n";
}
// The 0^0 % 0 test.
{
try
{
Integer x = 0;
Integer y = a_exp_b_mod_c(x, x, x);
result = false;
}
catch(const Integer::DivideByZero&)
{
result = true;
}
pass = result && pass;
if (!result)
std::cout << "FAILED: Exponentiation operation\n";
}
// Another 0^0 % 0 test.
{
try
{
Integer x = 0;
Integer z = EuclideanDomainOf<Integer>().Exponentiate(0, 0) % x;
result = false;
}
catch(const Integer::DivideByZero&)
{
result = true;
}
pass = result && pass;
if (!result)
std::cout << "FAILED: Exponentiation operation\n";
}
// Run the exponent 0 to 128 on base 0
for (unsigned int i=0; i<128; i+=2)
{
Integer b = 0, m(prng, 2048);
Integer x = a_exp_b_mod_c(b, i, m);
Integer y = EuclideanDomainOf<Integer>().Exponentiate(b, i) % m;
result = (x == y);
pass = (x == y) && pass;
pass = result && pass;
if (!result)
std::cout << "FAILED: Exponentiation operation\n";
}
// Run the exponent 1 to 128 on base 2
for (unsigned int i=0; i<128; i+=2)
{
Integer b = 1, m(prng, 2048);
Integer x = a_exp_b_mod_c(b, i, m);
Integer y = EuclideanDomainOf<Integer>().Exponentiate(b, i) % m;
result = (x == y);
pass = (x == y) && pass;
pass = result && pass;
if (!result)
std::cout << "FAILED: Exponentiation operation\n";
}
// Run the exponent 0 to 128 on base 2
for (unsigned int i=0; i<128; i+=2)
{
Integer b = 2, m(prng, 2048);
Integer x = a_exp_b_mod_c(b, i, m);
Integer y = EuclideanDomainOf<Integer>().Exponentiate(b, i) % m;
result = (x == y);
pass = (x == y) && pass;
pass = result && pass;
if (!result)
std::cout << "FAILED: Exponentiation operation\n";
}
// Run the exponent 0 to 24
// Run the exponent 0 to 24 on random base
for (unsigned int i=0; i<24; ++i)
{
Integer b(prng, 32), m(prng, 2048);
Integer x = a_exp_b_mod_c(b, i, m);
Integer y = EuclideanDomainOf<Integer>().Exponentiate(b, i) % m;
result = (x == y);
pass = (x == y) && pass;
pass = result && pass;
if (!result)
std::cout << "FAILED: Exponentiation operation\n";
}