Note: Encrypted IDs generated by version 0.3.0 onwards will be different from those generated by version 0.2.0. But versions 0.3.x will decrypt the IDs generated by the version 0.2.0.
Note: Version 0.2.0 is a breaking change from versions 0.1.x. If you've been using ekey in permalinks, then it is recommended for you to not upgrade to 0.2.x.
Consider this example model:
from django.db import models
from encrypted_id.models import EncryptedIDModel
class Foo(EncryptedIDModel):
text = models.TextField()
By inheriting from EncryptedIDModel
, you get .ekey as a property on your
model instances. This is how they will look like:
In [1]: from tapp.models import Foo
In [2]: f = Foo.objects.create(text="asd")
In [3]: f.id
Out[3]: 1
In [4]: f.ekey
Out[4]: 'bxuZXwM4NdgGauVWR-ueUA'
You can do reverse lookup:
In [5]: from encrypted_id import decode
In [6]: decode(f.ekey)
Out[6]: 1
If you can not inherit from the helper base class, no problem, you can just use
the ekey()
function from encrypted_id
package:
In [7]: from encrypted_id import ekey
In [8]: from django.contrib.auth.models import User
In [9]: ekey(User.objects.get(pk=1))
Out[9]: 'bxuZXwM4NdgGauVWR-ueUA'
To do the reverse lookup, you have two helpers available. First is provided by
EncryptedIDManager
, which is used by default if you inherit from
EncryptedIDModel
, and have not overwritten the .objects
:
In [10]: Foo.objects.get_by_ekey(f.ekey)
Out[10]: <Foo: Foo object>
But sometimes you will prefer the form:
In [11]: Foo.objects.get_by_ekey_or_404(f.ekey)
Out[11]: <Foo: Foo object>
Which works the same, but instead of raising DoesNotExist
, it raises
Http404
, so it can be used in views.
You your manager is not inheriting from EncryptedIDManager
, you can use:
In [12]: e = ekey(User.objects.first())
In [13]: e
Out[13]: 'bxuZXwM4NdgGauVWR-ueUA'
In [14]: get_object_or_404(User, e)
Out[14]: <User: amitu>
encrypted_id.get_object_or_404
, as well as
EncryptedIDManager.get_by_ekey
and
EncryptedIDManager.get_by_ekey_or_404
take extra keyword argument, that can
be used to filter if you want.
If you are curious, the regex used to match the generated ids is:
"[0-9a-zA-Z-_]+"
If you are using smarturls, you can use URL pattern like:
"/<ekey:foo>/"
I recommend this usage of encrypted-id over UUID, as UUIDs have significant issues that should be considered (tldr: they take more space on disk and RAM, and have inferior indexing than integer ids), and if your goal is simply to make URLs non guessable, encrypted id is a superior approach.
If you are curious about the encryption used: I am using AES
, from
pycryptodomex
library, and am using SECRET_KEY
for password
(SECRET_KEY[:32]
) and IV
(first 16 characters of hash of SECRET_KEY
and a sub_key), in the AES.CBC
mode. The sub_key is taken from the
model's Meta
attribute ek_key
, or simply db_table
if ek_key
is
not set.
In general it is recommended not to have static IV
, but CBC
offsets
some of the problems with having static IV. What is the the issue with static
IV you ask: if plain text "abc" and "abe" are encrypted, the first two bytes
would be same. Now this does not present a serious problem for us, as the
plain text that I am encrypting uses CRC32
in the beginning of payload, so
even if you have ids, 1, 11, an attacker can not say they both start with same
first character.
The library also supports the scenario that you have to cycle SECRET_KEY
due to some reason, so URLs encrypted with older SECRET_KEY
can still be
decoded after you have changed it (as long as you store old versions in
SECRET_KEYS
setting). In order to decrypt the library tries each secret
key, and compares the CRC32
of data to know for sure (as sure as things get
in such things), that we have decrypted properly.
Do feel free to raise an issue here, if you face any issues, I would be happy to help. The library supports both python 2.7 and 3.5, as well as it all versions of django that django team supports.