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two-way keyed encryption/hash algorithm

I am no way experienced in this type of thing so I am not even sure of the keywords (hence the title). Basically I need a two way function

encrypt(w,x,y) = z

decrypt(z) = w, x, y

Where w = integer 
      x = string (username)
      y = unix timestamp 

and z = is an 8 digit number (possibly including letters, spec isn't there yet.)

I would like z to be not easily guessable and easily verifiable. Speed isn't a huge concern, security isn't either. Tracking one-to-one relationship is the main requirement. Any resources or direction would be appreciated.

EDIT

Thanks for the answers, learning a lot. So to clarify, 8 characters is the only hard requirement, along with the ability to link W <-> Z. The username (Y) and timestamp (Z) would be considered icing on the cake.

I would like to do this mathematically rather than doing some database looks up, if possible.

If i had to finish this tonight, I could just find a fitting hash algorithm and use a look up table. I am simply trying to expand my understanding of this type of thing and see if I could do it mathematically.

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Encryption vs. Hashing

This is an encryption problem, since the original information needs to be recovered. The quality of a cryptographic hash is judged by how difficult it is to reverse the hash and recover the original information, so hashing is not applicable here.

To perform encryption, some key material is needed. There are many encryption algorithms, but they fall into two main groups: symmetric and asymmetric.

Application

The application here isn't clear. But if you are "encrypting" some information and sending it somewhere, then later getting it back and doing something with it, symmetric encryption is the way to go. For example, say you want to encode a user name, an IP address, and some identifier from your application in a parameter that you include in a link in some HTML. When the user clicks the link, that parameter is passed back to your application and you decode it to recover the original information. That's a great fit for symmetric encryption, because the sender and the recipient are the same party, and key exchange is a no-op.

Background

In symmetric encryption, the sender and recipient need to know the same key, but keep it secret from everyone else. As a simple example, two people could meet in person, and decide on a password. Later on, they could use that password to keep their email to each other private. However, anyone who overhears the password exchange will be able to spy on them; the exchange has to happen over a secure channel... but if you had a secure channel to begin with, you wouldn't need to exchange a new password.

In asymmetric encryption, each party creates a pair of keys. One is public, and can be freely distributed to anyone who wants to send a private message. The other is private. Only the message recipient knows that private key.

A big advantage to symmetric encryption is that it is fast. All well-designed protocols use a symmetric algorithm to encrypt large amounts of data. The downside is that it can be difficult to exchange keys securely—what if you can't "meet up" (virtually or physically) in a secure place to agree on a password?

Since public keys can be freely shared, two people can exchange a private message over an insecure channel without having previously agreed on a key. However, asymmetric encryption is much slower, so its usually used to encrypt a symmetric key or perform "key agreement" for a symmetric cipher. SSL and most cryptographic protocols go through a handshake where asymmetric encryption is used to set up a symmetric key, which is used to protect the rest of the conversation.


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