Brute force attack

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A Brute Force Attack also known as an Exhaustive Search is a method of cracking a password where every possible combination is tried. Because of this, brute force attacks are always successful, however, they usually take so much time, they're not worth using.

A mechanical example of a brute force attack is trying every possible combination on a combination lock. This is a tedious process because, with even a simple combination lock where the dial has only 30 places and the lock uses three numbers, would require 75 hours to check every combination if we assume it takes 10 seconds per attempt.

A similar system is used with password cracking on computers, where you first try password "a," then "b," and on to "z," then "aa," "ab," and so on. The number of passwords you need to try grows exponentially the longer the password gets.

Brute force attacks have legitimate uses, like when you've forgotten your password. However, they're mostly used for nefarious purposes.


At its most basic level, a brute force attack is a three step process:

  1. Generate the next password.
  2. Try the password.
  3. If the password was not successful, go to step 1.

Step 2 is the most difficult step because many systems purposely make it difficult to automate trying a password to prevent brute force attacks.

Accelerating the Process

In computer systems, passwords almost always allow the letters a-z, capital A-Z, numbers 0-9, and a host of special characters like !@#$%^&*. If we assume 100 possible characters, and the password is at most eight characters long, it means we will have to try 10,101,010,101,010,102 total passwords to guarantee a match. If we assume our PC can try 1,000,000,000 passwords a second, it will take about 116 days to try every password, and for a nine-character-long password, it would take over 32 years! So, why do password crackers even bother with brute force attacks? Because there are several ways to accelerate the process.

Trying Common Characters First

Unless the system requires an assortment of characters like a capital letter, number, or symbol, most users don't bother with them. Because of this, a brute force system can be setup to first try passwords made up of just the 26 lowercase letters, and only try more complex characters if it fails. This results in only 217,180,147,159 possible passwords, which, assuming 1,000,000,000 attempts can be made each second, would only take about 4 minutes for an 8-character-long password, and about 1.6 hours for a nine-character-long password.

Faster Hardware

1,000,000,000 passwords-a-second may seem impressive, but the latest hardware would increase that number significantly, and by taking advantage of multi-core processors and graphic cards, that number can be raised much higher. In fact, specialized hardware has been made just to crack passwords, and government or university super computers have also been used for the task, both of which process many times faster.

More Hardware

By distributing chunks of the passwords that need to tried across multiple computers, you can divide the necessary time for each new computer. When spanned across 100 computers, a brute force will be completed 100 times faster.


There are several ways