I am trying to use the inverse modulus function as provided in the NTL library that can be found here: http://www.shoup.net/ntl/doc/tour.html
Currently I am filling an array with values in a range, example: if the range is 8 the array Primes[] = {1,2,3,5,7}. Then I am replacing 1 with a randomly generated integer, in this example lets say 50. The array then becomes Primes[]= {50,2,3,5,7}.
We then take the total product, i.e. 50*2*3... = 10500 and call it x0
A new array is then created according to pHat[i] = x0/Primes[i]... i.e. pHat[] = {210,5250,3500,2100,1500}
Now here is where the problem is:
The algorithm calls for the values in pHat to be inverse modulus with Primes. i.e.
pHat[0] invMod Primes[0] = 210 invMod 50 = undefined
pHat[1] invMod Primes[1] = 5250 invMod 2 = undefined
pHat[2] invMod Primes[2] = 3500 invMod 3 = 2
pHat[3] invMod Primes[3] = 2100 invMod 5 = undefined
pHat[4] invMod Primes[4] = 1500 invMod 7 = 4
The integer replacing 1 is randomly generated and it can be anywhere from 0 to a number with thousands of digits (pretty much any integer you can think of). When the program initially begins it asks for the range over which the primes are picked (8 in the example) AS WELL AS how many of those primes to choose as a security key. In the example only 2 were defined but if the user picks 3 the program will fail. Without restricting the number of primes the user can pick, can anyone see a clever way to prevent an undefined being chosen?