-4

I want to speed up my brute force code to speed up the process, as it checks a password in two seconds

import requests
import colorama
from colorama import Fore

colorama.init()
print(Fore.CYAN)
username = input("[/] Enter Username: ")
    
def login(pwd):
    r = requests.get("https://domain.test.com/login/actions.php?action=0000&login="+username+"&password="+pwd)
    if "INCORRECT PASS" in r.text:
        return True
    return False
    
i = 100
while i < 9999:
    pwd = "%04d"%i
    print(Fore.RED + "[-] Password invalid: %s"%pwd)
    try:
        if login(pwd):
            print(Fore.GREEN + "[+] PASSWORD CRACKED: %s"%pwd)
             break
    except:
        pass
    i+=1

1 Answer 1

2

Blocker #1: sequential requests

So in your current setup:

  • passwords are sent to the server one at a time
  • you wait for one response before sending the next

With a module like time you can see how much CPU time is spent waiting for server responses, vs. other stuff in each loop to determine your duty cycle (work/vs. wait time, per loop). If your duty cycle is 20% (i.e. 1ms work, 4ms waiting), then you should be able to easily run 5 parallel requests.

Blocker #2: single-core operation

If you saturate your CPU[core] by having multiple requests waiting in parallel, and you have a multi-core CPU (say 4 cores, or nc=4), you should be able to have 3x (nc-1 = 3) as many requests in parallel. (See my other post here on why you can't just go to 1000 threads and expect 1000x the performance: https://stackoverflow.com/a/68667749/10761353)

Blocker #3: server capacity

Your server will only be able to answer a certain number of requests per second. So even if your PC (e.g. with 4 cores, and thus 3 cores x 5 threads/core = 15 threads) making many requests in parallel, the server may only be able to process (e.g.) 10 requests/second, in which case you would likely:

  • consume all available [server] response resources,
  • receive some kind of error for (e.g.) 5+ out of every 15 requests/sec,
  • drive up their usage bill (probably),
  • exclude legitimate users from accessing the page/site, and
  • trigger abuse protection/monitoring, which brings me to my last point

Blocker #4: Abuse prevention measures/systems

Companies like serving their customers - it's usually how they monetize. When legitimate users can't get in due to denial of service (DoS) attacks (whether trying to bruteforce/guess a password, or just be a nuisance), companies naturally don't appreciate this and want to stop it (ever heard of the little startup called Cloudflare?). Measures include:

  • requiring a Captcha in addition to the password, when traffic patterns become suspicious
  • slowing/dropping requests from IPs that are making too many requests
  • blocking/banning access from IPs that have made too many requests in the past
  • locking out user accounts after too many failed login attempts
  • and many, many more.

TL;DR

  • multithreading can be useful for parallelizing when your taks(s) have lots of wait-time, or you have a multi-core CPU - most are nowadays)
  • brute forcing a web-based service is not really practical in 2021 (and definitely not the mark of a good netizen)
  • brute-forcing a password hash can be accelerated quite a bit using powerful GPU(s), effectively taking the site's operational protection out of the guessing loop.

Not the answer you're looking for? Browse other questions tagged or ask your own question.