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I am trying to learn how to defend against security attacks on websites. The link below shows a good tutorial, but I am puzzled by one statement:

In http://google-gruyere.appspot.com/part3#3__client_state_manipulation , under "Cookie manipulation", Gruyere says Pythons hash is insecure since it hashes from left-to-right.

The Gruyere application is using this to encrypt data:

# global cookie_secret; only use positive hash values
h_data = str(hash(cookie_secret + c_data) & 0x7FFFFFF)

c_data is a username; cookie_secret is a static string (which is just '' by default)

I understand that in more secure hash functions, one change generates a whole new result, but I don't understand why this insecure, because different c_data generates whole different hashes!

EDIT: How would one go about beating a hash like this?

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5 Answers 5

up vote 4 down vote accepted

What the comment may be trying to get at is that for most hash functions, if you are given HASH(m) then it is easy to calculate HASH(m . x), for any x (where . is concatenation).

Therefore, if you are user ro, and the server sends you HASH(secret . ro), then you can easily calculate HASH(secret . root), and login as a different user.

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I do not see why this is. Do you mean that Hash(secret+ro) = Hash(secret) + Hash(ro)? –  KaiserJohaan Feb 27 '11 at 12:38
    
@KaiserJohaan: He means that given HASH(secret . ro) it is easy to add two more characters, "ot", to the end of the hash to compute HASH(secret . root). Suppose you want to hack user "BillyBob". If you can create an account as user "B" or user "Bi" or user "Bil" or ... or user "BillyBo" then you can easily compute HASH(secret . BillyBob) just by taking the hash the server sends you and adding the remaining characters to the end of the hash. –  GregS Feb 27 '11 at 15:58
    
By adding the remaining characters to the end of the hash, for example for Billybob, do you mean HASH(secret . BillyBo) . HASH(b)? –  KaiserJohaan Feb 27 '11 at 16:27
    
@KaiserJohaan: No, the transformation is not that simple, but it is nearly so. –  caf Feb 27 '11 at 20:01
    
I can't see why it would be different :S –  KaiserJohaan Feb 27 '11 at 22:21

I think that's just a bad explanation there. Python's hash() is insecure because it's easy to find collisions, but "hashes from left to right" has nothing to do with why it's easy to find collisions. Cryptographically secure hashes also process data strictly in sequence; they're likely to operate on data 128 or 256 bits at a time rather than one byte at a time, but that's just a detail of the implementation.

(It should be said that hash() being insecure is not a bug in Python, because that's not what it's for. It's an exposed detail of the implementation of Python's dictionaries as hash tables, and you generally don't want a secure hash function for your hash table, because that would slow it down so much that it would defeat the purpose. Python does provide secure hash functions in the hashlib module.)

(The use of an insecure hash is not the only problem with the code you show, but it is by far the most important problem.)

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I forgot to mention that as a part of this excercise is to beat this hash implementation, but I do not understand how to utilize the weakness you described –  KaiserJohaan Feb 26 '11 at 19:37

Python's default hashing algorithm (for all types, but it has the most severe consequences for strings as those are commonly hashed for security) is geared towards running fast and playing nice with the implementation of dicts. It's not a cryptographic hashing function, you shouldn't use it for security. Use hashlib for this.

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Any idea on how to crack hashes like these? –  KaiserJohaan Feb 26 '11 at 21:00

The python built-in hash function is not intended for secure, cryptographic hashing. It's intention is to facilitate storing Python objects into dictionaries efficiently.

The internal hash implementations are too predictable (too many collisions) for secure uses. For example, the following assertions are all true:

hash('a') < hash('b')
hash('b') < hash('c')
hash('c') < hash('d')

This sequential nature makes for great dictionary storage behaviour, for which it was designed.

To create a secure hash, use the hashlib library instead.

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The tutorial does not explain how this would be cracked. How do you take advantage of this? –  KaiserJohaan Feb 26 '11 at 19:33

One would go about "beating" a hash like that by appending their data to the end of the string being hashed and predicting the hash function output. Let me illustrate this:

Python 2.7.5 (default, May 15 2013, 22:43:36) [MSC v.1500 32 bit (Intel)] on win32
Type "copyright", "credits" or "license()" for more information.
>>> data = 'root|admin|author'
>>> str(hash('' + data) & 0x7FFFFFF);
'116042699'
>>> data = 'root|admin|authos'
>>> str(hash('' + data) & 0x7FFFFFF);
'116042698'
>>> 

Empty string ('') is the cookie secret you mentioned to be an empty string. In this particular example, though not really exploitable, one can see that the hash changed by 1 and the last byte of data changed "by one" too. Now, this example is not really an exploit (omitting the fact that creating a username of the anything_here|admin format makes that user admin) because there's some data after the username (left to right) so even if you create a username that's very close to the one being attacked then the rest of the string changes the hash in a completely undesirable manner. However, if the cookie was in the form of 105770185|user07 instead of 105770185|user07||author then you'd easily create a user "user08" or "user06" and computepredict the hash (hometask: what's the hash for "user08"? ).

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