# Python Brute Force algorithm [closed]

I need to generate every possible combination from a given charset to a given range. Like,

``````charset=list(map(str,"abcdefghijklmnopqrstuvwxyz"))
range=10
``````

And the out put should be,

``````[a,b,c,d..................,zzzzzzzzzy,zzzzzzzzzz]
``````

I know I can do this using already in use libraries.But I need to know how they really works.If anyone can give me a commented code of this kind of algorithm in Python or any programming language readable,I would be very grateful.

## closed as too broad by Robert Columbia, Michael Dodd, Nkosi, tripleee, MakyenMar 7 at 12:40

Please edit the question to limit it to a specific problem with enough detail to identify an adequate answer. Avoid asking multiple distinct questions at once. See the How to Ask page for help clarifying this question. If this question can be reworded to fit the rules in the help center, please edit the question.

• What have you tried? And is this homework? Shouldn't be super difficult... – Silas Ray Jul 31 '12 at 19:11
• `list(map(str, "abc..."))` is the most useless piece of code ever. – JBernardo Jul 31 '12 at 19:12
• That's ~2PB of data. I don't think you want to bruteforce this. – Mooing Duck Jul 31 '12 at 19:14
• Aside: `list()` returns a list. `map()` returns a list, too. If your input really needs to be a list (which I doubt), use `charset=list(string.lowercase)` – kojiro Jul 31 '12 at 19:14
• This would take up about 1.6 petabytes of ram. Iterating over it at a rate of 10 per millisecond would take about 11000 years. – Wug Jul 31 '12 at 19:16

If you REALLY want to brute force it, try this, but it will take you a ridiculous amount of time:

``````your_list = 'abcdefghijklmnopqrstuvwxyz'
complete_list = []
for current in xrange(10):
a = [i for i in your_list]
for y in xrange(current):
a = [x+i for i in your_list for x in a]
complete_list = complete_list+a
``````

On a smaller example, where list = 'ab' and we only go up to 5, this prints the following:

``````['a', 'b', 'aa', 'ba', 'ab', 'bb', 'aaa', 'baa', 'aba', 'bba', 'aab', 'bab', 'abb', 'bbb', 'aaaa', 'baaa', 'abaa', 'bbaa', 'aaba', 'baba', 'abba', 'bbba', 'aaab', 'baab', 'abab', 'bbab', 'aabb', 'babb', 'abbb', 'bbbb', 'aaaaa', 'baaaa', 'abaaa', 'bbaaa', 'aabaa', 'babaa', 'abbaa', 'bbbaa', 'aaaba','baaba', 'ababa', 'bbaba', 'aabba', 'babba', 'abbba', 'bbbba', 'aaaab', 'baaab', 'abaab', 'bbaab', 'aabab', 'babab', 'abbab', 'bbbab', 'aaabb', 'baabb', 'ababb', 'bbabb', 'aabbb', 'babbb', 'abbbb', 'bbbbb']
``````
• And by ridiculous amount of time you mean it is intractable and will die out of memory before it completes, right? – kojiro Jul 31 '12 at 19:18
• It will also crash unless your computer has well over 4410270 Gigabytes of memory. – Mooing Duck Jul 31 '12 at 19:19
• Wouldn't it be less memory-eating with the del statement in python 3? I know this is old by the way. – Remigiusz Schoida Aug 3 '18 at 17:00

Use `itertools.product`, combined with `itertools.chain` to put the various lengths together:

``````from itertools import chain, product
def bruteforce(charset, maxlength):
return (''.join(candidate)
for candidate in chain.from_iterable(product(charset, repeat=i)
for i in range(1, maxlength + 1)))
``````

Demonstration:

``````>>> list(bruteforce('abcde', 2))
['a', 'b', 'c', 'd', 'e', 'aa', 'ab', 'ac', 'ad', 'ae', 'ba', 'bb', 'bc', 'bd', 'be', 'ca', 'cb', 'cc', 'cd', 'ce', 'da', 'db', 'dc', 'dd', 'de', 'ea', 'eb', 'ec', 'ed', 'ee']
``````

This will efficiently produce progressively larger words with the input sets, up to length maxlength.

Do not attempt to produce an in-memory list of 26 characters up to length 10; instead, iterate over the results produced:

``````for attempt in bruteforce(string.ascii_lowercase, 10):
# match it against your password, or whatever
if matched:
break
``````
• @Madushan: to be honest, the answer you picked is not code I'd show my teacher.. – Martijn Pieters Jul 31 '12 at 19:39
• @Madushan: The meat of my method is the `itertools.product` method, which has a implementation listed in the documentation, so you can understand how we generate all possible combinations easily. What I prefer? When generating this amount of data, you really need to use generators like this. – Martijn Pieters Jul 31 '12 at 20:00

I found another very easy way to create dictionaries using itertools.

``````generator=itertools.combinations_with_replacement('abcd', 4 )
``````

This will iterate through all combinations of 'a','b','c' and 'd' and create combinations with a total length of 1 to 4. ie. a,b,c,d,aa,ab.........,dddc,dddd. generator is an itertool object and you can loop through normally like this,

``````for password in generator:
``````

Each password is infact of type tuple and you can work on them as you normally do.

• This is not suitable for password creation since itertools skips possible outcomes. Example: look for all combinations between 'ab' for example which should be 4. `aa`, `ba`, `ab` and `bb`. Now itertools will only return 3 possibilites with `combinations_with_replacement('ab', 2)` such as: `aa`, `ab`, `bb` ! – Daniel Biegler Oct 11 '18 at 2:28

`itertools` is ideally suited for this:

``````itertools.chain.from_iterable((''.join(l)
for l in itertools.product(charset, repeat=i))
for i in range(1, maxlen + 1))
``````

If you really want a bruteforce algorithm, don't save any big list in the memory of your computer, unless you want a slow algorithm that crashs with a MemoryError.

You could try to use itertools.product like this :

``````from string import ascii_lowercase
from itertools import product

charset = ascii_lowercase  # abcdefghijklmnopqrstuvwxyz
maxrange = 10

for i in range(maxrange+1):
for attempt in product(charset, repeat=i):
if ''.join(attempt) == password:
return ''.join(attempt)

solved = solve_password('solve', maxrange)  # This worked for me in 2.51 sec
``````

`itertools.product(*iterables)` returns the cartesian products of the iterables you entered.

`[i for i in product('bar', (42,))]` returns e.g. `[('b', 42), ('a', 42), ('r', 42)]`

The `repeat` parameter allows you to make exactly what you asked :

``````[i for i in product('abc', repeat=2)]
``````

Returns

``````[('a', 'a'),
('a', 'b'),
('a', 'c'),
('b', 'a'),
('b', 'b'),
('b', 'c'),
('c', 'a'),
('c', 'b'),
('c', 'c')]
``````

Note:

You wanted a brute-force algorithm so I gave it to you. Now, it is a very long method when the password begins to be largest because it grows exponentially (it took 62 sec to find the password 'solved'). You could also use an already existing password-dictionnary or generate it with tolls like cupp (github)

``````import string, itertools

characters = string.printable

def iter_all_strings():
length = 1
while True:
for s in itertools.product(characters, repeat=length):
yield "".join(s)
length +=1

for s in iter_all_strings():
print(s)
if s == password:
break
``````
``````from random import choice

sl = 4  #start length
ml = 8 #max length
ls = '9876543210qwertyuiopasdfghjklzxcvbnm' # list
g = 0
tries = 0

file = open("file.txt",'w') #your file

for j in range(0,len(ls)**4):
while sl <= ml:
i = 0
while i < sl:
file.write(choice(ls))
i += 1
sl += 1
file.write('\n')
g += 1
sl -= g
g = 0
print(tries)
tries += 1

file.close()
``````
• Please do not post answers with pure code, but also add text to clarify how your solutions solves the problem. – Lukas Körfer Mar 10 '17 at 16:00

Try this:

``````import os
import sys

Zeichen=["a","b","c","d","e","f","g","h"­,"i","j","k","l","m","n","o","p","q­","r","s","­;t","u","v","w","x","y","z"]
def start(): input("Enter to start")
def Gen(stellen): if stellen==1: for i in Zeichen: print(i) elif stellen==2: for i in Zeichen:    for r in Zeichen: print(i+r) elif stellen==3: for i in Zeichen: for r in Zeichen: for t in Zeichen:     print(i+r+t) elif stellen==4: for i in Zeichen: for r in Zeichen: for t in Zeichen: for u in Zeichen:    print(i+r+t+u) elif stellen==5: for i in Zeichen: for r in Zeichen: for t in Zeichen: for u in    Zeichen: for o in Zeichen: print(i+r+t+u+o) else: print("done")

#*********************
start()
Gen(1)
Gen(2)
Gen(3)
Gen(4)
Gen(5)
``````

A solution using recursion:

``````def brute(string, length, charset):
if len(string) == length:
return
for char in charset:
temp = string + char
print(temp)
brute(temp, length, charset)
``````

Usage:

``````brute("", 4, "rce")
``````

# Simple solution using the itertools and string modules

``````# modules to easily set characters and iterate over them
import itertools, string

# character limit so you don't run out of ram
maxChar = int(input('Character limit for password: '))

# file to save output to, so you can look over the output without using so much ram
output_file = open('insert filepath here', 'a+')

# this is the part that actually iterates over the valid characters, and stops at the
# character limit.
x = list(map(''.join, itertools.permutations(string.ascii_lowercase, maxChar)))

# writes the output of the above line to a file
output_file.write(str(x))

# saves the output to the file and closes it to preserve ram
output_file.close()
``````

I piped the output to a file to save ram, and used the input function so you can set the character limit to something like "hiiworld". Below is the same script but with a more fluid character set using letters, numbers, symbols, and spaces.

``````import itertools, string

maxChar = int(input('Character limit for password: '))
output_file = open('insert filepath here', 'a+')

x = list(map(''.join, itertools.permutations(string.printable, maxChar)))
x.write(str(x))
x.close()
``````