In my RSA cryptosystem, I am trying to select an encryption key e that is relatively prime to phi(n).
phi(n) is the product of two numbers, p-1 & q-1, where p and q are both prime. Those primes are generated using the naive primality test (yes, I know it's inefficient).
When I execute my program, I get the following output:
***** p *****
878222789
***** q *****
851559637
***** n = p x q *****
3523942633
***** phi(n) = (p-1)x(q-1) *****
1794160208
***** e *****
99
***** d *****
47835
Problem is, every time I run this program, e always ends up equaling 99 or 97. It is the only constant in this output. I am almost positive my GCD algorithm is correct. But it's the only subroutine in select_e().
Relevant functions:
void select_e(uint &e, const uint phi_n)
{ // e = encryption key
for(int i=3;i<100;i++) {
if(gcd(phi_n,i) == 1) {
e = i;
break;
}
}
printf("\n***** e *****\n%u\n",e);
}
uint gcd(uint a, uint b) {
uint temp;
while (b!=0) {
temp = b;
b = a%b;
a = temp;
}
return a;
}
EDIT***********************
Okay, so I've added a break statement in select_e() which has caused the program to output a value of usually 3 or 5 for e. Now, as I understand it, the botched decryption is the result of integer overflow from multiplying two 32-bit integers and storing the value in another 32-bit integer. Therefore, I have modified my program to generate smaller p and q with a modulo. Here is that function:
void generate_pq(uint &p, uint &q)
{
srand(time(NULL));
bool repeat = false;
printf("\nGenerating keys...\n");
while(!repeat) {
p = rand()%100;
repeat = isPrime(p);
}
repeat = false;
while(!repeat) {
q = rand()%100;
repeat = isPrime(q);
}
printf("\n***** p *****\n%u\n\n***** q *****\n%u\n",p,q);
}
The problem now is that sometimes, I luck out and the message is decrypted successfully. Other times it does not work. Here is an example of a botched decryption:
Generating keys...
***** p *****
79
***** q *****
49
***** n = p x q *****
3871
***** phi(n) = (p-1)x(q-1) *****
3744
***** e *****
5
***** d *****
749
Message: fdsa
Cipher: �/�J
Decrypted Message: �a
I know the decryption and encryption functions work. I have tested them separately and examined the algorithms. They are not the source of the problem. I will provide them for posterity if requested.
break
inside theif (gcd...)