Tokens used for authentication purposes in a client/server app architecture. Loosely based off the encrypted token pattern by OWASP for preventing CSRF attacks. Tokens are encrypted using aes-256-ctr with a random IV and a password that's generated using crypto.pbkdf2 from an app secret with a 32 byte random salt.
var eat = require('eat');
eat.encode({id: user.id, timestamp: Time.now}, 'mysupersecret', function(err, token) {
if (err) throw err;
//send token
});
eat.decode(token, 'mysupersecret', function(err, token) {
if (err) throw err;
//check if token is expired and if the id corresponds to a valid user
});
The resulting token will be base64 encoded and can be passed to client to use for authentication against the server. The token should only be able to be encoded on the server. This is not a substitute for using ssl/tls it should be used in conjunction with a secure connection. If an attacker gets ahold of the token they will be able to authenticate as the user until the token is expired or you change the salt/iv. These functions can be called on eat as follows.
if (server_compromised) {
eat.genSalt(function() {
console.log('salt generated');
});
eat.geniv(function() {
console.log('iv generated');
});
}
Either one of these functions will invalidate any token generated when using a different iv/salt. Another thing to keep in mind is that the iv/salt get regenerated everytime the server is reset. So, a server reset will invalidate all current tokens which might not be ideal for your use case. You can set the iv/salt parameters of the eat object although be careful as this can open you up to replay attacks. The salt can be length but the iv MUST be 32 bytes. Both must be contained in a buffer.
var eat = require('eat');
eat.salt = buffer.new('my new salt');
eat.iv = buffer.new('a 32 byte string'); //this string isn't actually 32 bytes