Of course similar questions have been asked in stackoverflow but I don't want to use any third party library like Crypto or something. So I need to generate a ciphertext from a user email and decrypt it back to plaintext. How can I do this in python?
A third-party system is your best bet.
If you really can't/don't want to use a third-party, maybe something simple would suffice.
One of the simpler algorithms is the Tiny Encryption Algorithm (TEA). Here's an example of a Python implementation that you could start with.
Yes, you can. Read http://www.amk.ca/python/code/crypto.html You'll find an answer there ;)
You're question is not concrete enough to say more. You may want to read http://en.wikipedia.org/wiki/Cryptography#Modern_cryptography
Update: No, you cannot. (with build in functionality due to export restrictions, see http://docs.python.org/library/crypto.html) But you can, if you're implementing you own algorithm (bad idea). So, the BEST solution is, to use the extension recommended by python core developers. See post above.
If what you mean is that you want to roll your own encryption system, you could try using the built-in
hashlib modules. (
hashlib is new for 2.5, so if you must use an earlier Python, your hash choices are the older
If you are opposed to (or are prevented from) installing a third-party library but are OK with using third-party algorithms or even "lightweight" third-party implementations of algorithms (e.g. published Python source code which resides in a single .py file that you can incorporate or import yourself without using
setup.py or any other formal installation), then I highly recommend you do so, because these are likely to be better than what you can come up with on your own.
The smallest and user-friendliest of these that I am aware of is known as p3, written by cryptographer Paul Rubin. The original link is no longer active but you can search for it. Googling currently yields a near-exact copy as well as an adaptation for Python 3.
You could also try one of several single-module, pure-Python Rijndael (AES) implementations such as this or this. (Again, links are not guaranteed to be permanent so you may have to do some searching.)