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p_1_pollard.py
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# -*- coding: utf-8 -*-
import math
from rsa import RSA
"""
Pollard's p-1 algorithm
@param n the RSA ciphering modulus
@param b the limit for iterating
"""
def p_minus_one(n, b):
a = 2
for j in range(2, b + 1):
a = pow(a, j, n)
d = math.gcd(a - 1, n)
if d > 1 and d < n:
return d
else:
return -1
def crack_primes(n):
i = 2
r = p_minus_one(n, i)
while r == -1:
r = p_minus_one(n, i)
i += 1
if (i > 2 ** 12):
return None
p = r
q = n // r
return (p, q)
def crack_msg(msg, n):
primes = crack_primes(n)
if primes == None:
print("Could not crack message with Pollard's p-1 algorithm")
return None
(p, q) = primes
r = RSA.generate(p, q)
return r.decrypt(msg)
if __name__ == "__main__":
original_msg = "Hello, world! This is my very secret message."
print("Encrypting:", original_msg)
r = RSA.generate(661, 673)
encrypted_msg = r.encrypt(original_msg)
# print("Encrypted data:", encrypted_msg)
print(10 * '*', "Cracking with Pollard's p-1 algorithm", 10 * '*')
cracked_msg = crack_msg(encrypted_msg, r.n)
print("Got:", cracked_msg)
print("Success!" if cracked_msg == original_msg else "Failure.")