# Reducing the complexity of dictionary brute force in python

I have a program as follows which basically compares XORs of all possible words in a standard dictionary and compares the XORed result with that of XOR of Ciphertexts.But i guess the complexity is O(n2). I am not sure how to reduce the complexity.

``````def find_collision():
with open("/usr/share/dict/words", "r") as f:
alist = [line.rstrip() for line in f]
b = len(alist)

for i in range(0,b,1):
for j in range(i,b,1):
if(((int(alist[i].encode('hex'), 16))^ (int(alist[j].encode('hex'), 16)))==a):
print("Plain Text1: "+alist[i]+'\n'+"Plain Text2: "+alist[j])
#print "Yes"
break
``````

Any help would be much appreciated.

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If you don't need to know WHICH keys collide, just if ANY keys collide, you could toss them all in a `set` together and see if the length of the `set` is the same as the length of the `list` – Adam Smith Mar 3 '14 at 19:47
@adsmith I quite did not understand what you said :( May I request you to rephrase it. – kingmakerking Mar 3 '14 at 20:40
I don't really understand what your code is trying to do, either. It looks like it takes `0x4ADD55BA941FE954^0x5AC643BE8504E35E` (which is `0b1000000011011000101100000010000010001000110110000101000001010`) and comparing it to each two items in `dict/words` XOR'd together, right? – Adam Smith Mar 3 '14 at 21:56

First off, let's try to simplify.

``````def find_collision():
key = 0b1000000011011000101100000010000010001000110110000101000001010
``````

Then our handy-dandy `itertools` module can do the heavy lifting for the big list. This replaces your nested `for` loops and probably works significantly faster.

``````from itertools import combinations
##def find_collision()
##    key = 0b1000000011011000101100000010000010001000110110000101000001010
with open("/usr/share/dict/words", "r") as f:
full_wordlist = combinations( map(str.rstrip,f.readlines()), 2 )
# Combinations( { ('word1','word2'),('word1','word3'),('word1','word4'),
('word2','word3') ... } )
``````

But we don't really care about the whole thing, do we? All we care about is collisions, so let's do collisions shall we? EDIT: and since there will definitely be words in here we can't turn to hex, do:

``````#instead of full_wordlist = combinations(...)

import re
with open("usr/share/dict/words","r") as f:
words = (word for word in map(str.rstrip,f.readlines()) if not re.search(r"[^0-9a-fA-F]",word))
# you can avoid the need for regex by doing:
# words = (word for word in map(str.rstrip,f.readlines()) if
#         not any(char not in "0123456789abcdefABCDEF" for char in word))
collisions = [keypair for keypair in combinations(words,2)
if bin(int(keypair[0],base=16)^int(keypair[1],base=16)) == key]
``````

Then pull out the collisions with something sane, like:

``````for collision in collisions:
print("Collision between {0[0]}^{0[1]} and key".format(collision))
``````
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Oops that last listcomp would have always returned a `TypeError`, as it was trying to do `str^str`. I fixed it. – Adam Smith Mar 4 '14 at 0:13
But I am getting this error .. Traceback (most recent call last): File "<pyshell#17>", line 1, in <module> find_collision() File "<pyshell#16>", line 7, in find_collision if bin(int(keypair[0],base=16)^int(keypair[1],base=16)) == key] ValueError: invalid literal for int() with base 16: "A's" – kingmakerking Mar 4 '14 at 20:25
Sounds like one of the words in your dictionary is `"A's"`. That won't work, for obvious reasons. You can probably make a generator earlier that pulls from your word list. I'll edit.... – Adam Smith Mar 4 '14 at 20:30
@user2888239 I've edited, this is one way to do it. There's probably a better way, though. I'll keep thinking. – Adam Smith Mar 4 '14 at 20:39