#!/usr/bin/python from binascii import hexlify from gmpy2 import * import math import os import sys if sys.version_info < (3, 9): math.gcd = gcd math.lcm = lcm _DEBUG = False FLAG = open('flag.txt').read().strip() FLAG = mpz(hexlify(FLAG.encode()), 16) SEED = mpz(hexlify(os.urandom(32)).decode(), 16) STATE = random_state(SEED) def get_prime(state, bits): return next_prime(mpz_urandomb(state, bits) | (1 << (bits - 1))) def get_smooth_prime(state, bits, smoothness=16): p = mpz(2) p_factors = [p] while p.bit_length() < bits - 2 * smoothness: factor = get_prime(state, smoothness) p_factors.append(factor) p *= factor bitcnt = (bits - p.bit_length()) // 2 while True: prime1 = get_prime(state, bitcnt) prime2 = get_prime(state, bitcnt) tmpp = p * prime1 * prime2 if tmpp.bit_length() < bits: bitcnt += 1 continue if tmpp.bit_length() > bits: bitcnt -= 1 continue if is_prime(tmpp + 1): p_factors.append(prime1) p_factors.append(prime2) p = tmpp + 1 break p_factors.sort() return (p, p_factors) while True: p, p_factors = get_smooth_prime(STATE, 1024, 16) if len(p_factors) != len(set(p_factors)): continue # Smoothness should be different or some might encounter issues. q, q_factors = get_smooth_prime(STATE, 1024, 17) if len(q_factors) == len(set(q_factors)): factors = p_factors + q_factors break if _DEBUG: import sys sys.stderr.write(f'p = {p.digits(16)}\n\n') sys.stderr.write(f'p_factors = [\n') for factor in p_factors: sys.stderr.write(f' {factor.digits(16)},\n') sys.stderr.write(f']\n\n') sys.stderr.write(f'q = {q.digits(16)}\n\n') sys.stderr.write(f'q_factors = [\n') for factor in q_factors: sys.stderr.write(f' {factor.digits(16)},\n') sys.stderr.write(f']\n\n') n = p * q c = pow(3, FLAG, n) print(f'n = {n.digits(16)}') print(f'c = {c.digits(16)}')