OK, so basically I am having trouble getting one part of an RSA encryption program to work correctly. I am writing the program in MIPS and am trying to take the modulus of a number raised to another number. Using wikipedia's example I am raising 65^17, which gives 6.599E30 or so. I now need to modulus this number by 3233 (again from wikipedia's example).
So far I have been unable to get this working. I have tried dividing it by 3233, but can't figure out how to properly get the remainder, as when I truncate, I lose a large amount of the number
div.d $f0, $f0, $f6 #f6 is currently 3233 trunc.w.d $f8, $f0 #this is what is going wrong cvt.d.w $f8, $f8 #when we do this truncation we end up with something other #than the number without the remainder li $v0, 3 add.d $f12, $f8, $f4 #using this to test print what is in $f8. $f4 is 0 syscall #When printed we get 2.14...E9 sub.d $f0, $f0, $f8 mul.d $f0, $f0, $f6 #when we print $f0 we get 6.599...E30, but what we want is 2790
If anyone knows how to get this to properly give the value of 2790, as the final value of $f0, any advice would be greatly appreciated.
Ok so I was sort of able to solve it. This does the exponentiation then moduluses the number then repeats for a certain exponent. Not sure how to solve the original question exactly, but this has the same effect.
loop2: mul.d $f0, $f0, $f2 #the exponentiation div.d $f0, $f0, $f6 #here we divide by the public key to modulus floor.w.d $f8, $f0 #We truncate this to get the number without the remainder cvt.d.w $f8, $f8 sub.d $f0, $f0, $f8 #we subtract in order to get only the remainder mul.d $f0, $f0, $f6 #multiply the remainder by the divisor to get the modulus round.w.d $f0, $f0 #round, don't floor because we sometimes get #'s that dont get #computed quite correctly and end up at x.999 instead of x+1 #and those get floored down to x cvt.d.w $f0,$f0 addi $t5, $t5, 1 # this is the incrementer blt $t5, $t3, loop2 #raises input number to power