Some of the guys here are developing an application which incorporates some 'secure areas' accessible by logging in. In the past, the login form and subsequent 'secure' pages were all plain text transmitted over http, as it's an application that goes out for use on shared servers where there is little chance of being able to use SSL (think WordPress and the like). Most people just shrugged their shoulders as that's all they expected - it's hardly a national bank.
While playing around, we realised that the method we were looking at to encrypt the basic stuff also doubled up as an authentication mechanism for login in the first place.
- User enters
secretinto a login form.
passwordto the server via AJAX. The
- The server looks up the hash and retrieves
secretfrom the database.
- The server sends a hash (same algorithm as the browser) of
secretback to the browser.
secretand compares it to the hash sent back from the server.
secretand sends the message back to the server.
- The server decrypts the message with
secretto find the expected
responseand starts a new session.
- Subsequent communications are encrypted and decrypted both ways with
There seem to be a few advantages of this type of system, but are we right in thinking:
- The user knows they are talking to their server if the server manages to create a hash of
secret, proving the server knows and understands
- The server knows the user is genuine if they manage to encrypt
secret, proving the user knows
- At no time is
secretever transmitted in plain text, or is it possible to determine
secretfrom the hash.
- A sniffer will only ever find out the 'secure' URL and detect compressed hashes and encryptions in the query string. If they send a request to to the URL that is malformed, no response is given. If they somehow manage to guess an appropriate request, they still have to be able to decrypt it.