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I'm trying to make a validation process for a password reset, what i've used are two values: the epoch time, and i want to use the users's old password (pbkdf2) as a key,

Since i dont want to get non ASCII characters, i've used SimpleEncode library because it's fast since it's only a BASE64 with a key used, but the problem is that the password is too long (196 chars) so i get a long key!

What i've done is split the result code = simpleencode.encode(key,asci)[::30], but this will not be unique!

To get an idea how it works, i've tried Facebook reset process, but what is given is a number! so how this process works, don't they use a key to make it hard for someone to forge a link to reset someone's password?

Update: how the algorithme will work:

1- get the time using epoche time.time()

2- generate the Base64 of the epoche time (to use for the URL) and the epoch time value + a key, this key is PBKDF2(password).

3- generate the url www.example.com/reset/user/Base64(time.time()) and send this URL + the simpleencode.encode(key,asci)[::30]

4- when the user clicks on the URL, he put the generated code, this generated code, if it matches with the URL, then let him modifiy the password, else, it is a forget URL!

  • 1
    It doesn't need to be unique if you confirm it's not already in the database and it's long enough that no one will guess it. – Wooble Feb 5 '13 at 17:58
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    You should not expose (a hash of) the user's password in any form as part of the reset token. That would allow an attacker to learn the hash, which they could then attempt to brute-force. – zwol Feb 5 '13 at 18:20
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    You are exposing PBKDF2(password). That is reversible by brute force if "password" is weak, which it is likely to be if it is, in fact, the user's password. – zwol Feb 5 '13 at 20:38
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    @AbdelouahabPp It's still a security hole, and a security hole is only unlikely to be exploited until it has been. Just don't introduce them when they're avoidable. You can always securely hash the password with a salt that's different than the one you use to store the passwords. – millimoose Feb 5 '13 at 22:32
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    @AbdelouahabPp Also, 30 characters of base64-ed random-ish data (i.e. a hash) are definitely "unique enough". – millimoose Feb 5 '13 at 22:35
30

Not sure it's the best way, but I'd probably just generate a UUID4, which can be used in a URL to reset the password and expire it after 'n' amount of time.

>>> import uuid
>>> uuid.uuid4().hex
'8c05904f0051419283d1024fc5ce1a59'

You could use something like http://redis.io to hold that key, with a value of the appropriate user ID and set its time to live. So, when something comes in from http://example.com/password-reset/8c05904f0051419283d1024fc5ce1a59 it looks to see if it's valid and if so then allows changes to set a new password.

If you did want a "validation pin", then store along with the token, a small random key, eg:

>>> from string import digits
>>> from random import choice
>>> ''.join(choice(digits) for i in xrange(4))
'2545'

And request that be entered on the reset link.

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    +1 This is good enough. The token need not be unique! – slezica Feb 5 '13 at 18:08
  • thank you for this tip, and it is url safe, but, what about the method i've used, updated the question – Abdelouahab Pp Feb 5 '13 at 20:27
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    @AbdelouahabPp I personally think your method is over-complicating the problem - and there's no reason to use any information about the user to generate the token... – Jon Clements Feb 5 '13 at 20:54
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    @AbdelouahabPp err, why do you need to enter a code? – Jon Clements Feb 5 '13 at 21:34
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    @AbdelouahabPp If you mean "forged" - it's remarkably unlikely (1 in 340,282,366,920,938,463,463,374,607,431,768,211,456 chance) of generating an issued token (let alone while it's still valid). Have added a simple PIN example if that makes you feel more comfortable though... – Jon Clements Feb 5 '13 at 22:03
18

Easiest way by far is to use the ItsDangerous library:

You can serialize and sign a user ID for unsubscribing of newsletters into URLs. This way you don’t need to generate one-time tokens and store them in the database. Same thing with any kind of activation link for accounts and similar things.

You can also embed a timestamp, so very easily to set time periods without having to involve databases or queues. It's all cryptographically signed, so you can easily see if it's been tampered with.

>>> from itsdangerous import TimestampSigner
>>> s = TimestampSigner('secret-key')
>>> string = s.sign('foo')
>>> s.unsign(string, max_age=5)
Traceback (most recent call last):
  ...
itsdangerous.SignatureExpired: Signature age 15 > 5 seconds
  • thank you! and it has a max_age! i`ll try it :) – Abdelouahab Pp Feb 5 '13 at 22:18

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