This package was created as a successor to django-encrypted-fields.
$ pip install django-fernet-encrypted-fieldsIn your settings.py, set random SALT_KEY
SALT_KEY = '0123456789abcdefghijklmnopqrstuvwxyz'Then, in models.py
from encrypted_fields.fields import EncryptedTextField
class MyModel(models.Model):
text_field = EncryptedTextField()Use your model as normal and your data will be encrypted in the database.
You can rotate salt keys by turning the SALT_KEY settings.py entry into a list. The first key will be used to encrypt all new data, and decryption of existing values will be attempted with all given keys in order. This is useful for key rotation: place a new key at the head of the list for use with all new or changed data, but existing values encrypted with old keys will still be accessible
SALT_KEY = [
'zyxwvutsrqponmlkjihgfedcba9876543210',
'0123456789abcdefghijklmnopqrstuvwxyz'
]When you would want to rotate your SECRET_KEY, set the new value and put your old secret key value to SECRET_KEY_FALLBACKS list. That way the existing encrypted fields will still work, but when you re-save the field or create new record, it will be encrypted with the new secret key. (supported in Django >=4.1)
SECRET_KEY = "new-key"
SECRET_KEY_FALLBACKS = ["old-key"]If you wish to update the existing encrypted records simply load and re-save the models to use the new key.
for obj in MyModel.objects.all():
obj.save()Currently build in and unit-tested fields. They have the same APIs as their non-encrypted counterparts.
EncryptedCharFieldEncryptedTextFieldEncryptedDateTimeFieldEncryptedIntegerFieldEncryptedFloatFieldEncryptedEmailFieldEncryptedBooleanFieldEncryptedJSONField
| Compatible Django Version | Specifically tested |
|---|---|
3.2 |
✔️ |
4.0 |
✔️ |
4.1 |
✔️ |
4.2 |
✔️ |
5.0 |
✔️ |
5.1 |
✔️ |