What happens when you log into a website?
I know cookies are stored and some info (what info?) gets sent to the server...but maybe some more detail?
Once upon a time, somewhere on the Internet....
A few minutes later
That, in essence, is it. In order to remember a user has logged in, it gives the user a token which it must present with its next request. This is normally achieved by the server telling the browser to store this token in a cookie.
Delving deeper - transport layer authentication
The way the credentials are passed to the server, and the nature of the token it returns, vary depending on the authentication method employed.
The very simplest, HTTP Basic Authentication, is provided by most web server implementations. It causes your browser to pop open the familiar login dialog box. The "token" is simply your plaintext username and password base64 encoded. Not particularly secure.
A server might also provide Digest Authentication, which avoids transmission of the actual credentials - the client instead generates a hash of their credentials with a server generated salt. It is designed to prevent password sniffing and replay attacks.
Deeper still - application layer authentication
For maximum flexibility and control, most sites opt to implement the authorization in the application layer rather than the HTTP transport layer. This gives a wider variety of security choices. Any site which asks for credentials in a web page (rather than the browser's login dialog box) is using a custom authorization method.
Custom methods will vary wildly in their initial interaction, but they almost always result in the user being given a session cookie containing a randomly generated identifier. The browser then automatically presents the cookie with each subsequent request. The web application will inspect the cookie value to ensure it is still valid.
It's also possible to hand off the authorization to a trusted third party, generally to provide some sort of single-signon service. In cases like that, when you notice a user isn't authenticated, you bounce them off to the authentication provider. They authenticate them, and they will be returned to you with some kind of token you verify with the provider. Shibboleth is one example of this. You also logged into this very site using a similar method employed by OpenID
Here's some nice answers from a similar question
That's a pretty general question. What you're doing, over all, is establishing some kind of credentials with the site itself. If we take the simple version, you enter a user name and a password; that means you identify yourself to the website, and then show it a secret you and the website share that no one else knows (we hope). That establishes you as authentically the person with that user name, and so we say you have authenticated yourself.
Once you've done so, there are some design decisions the website designer has to make. most people don't want to log in for every page, so the web site wants to store a little information, a credential, on your end. This means that it can tell it's still you. Often, as you say, that's a "cookie", which is nothing more that a tiny text file named with the web site's URL. This file is stored by the browser.
On many web sites, like for banking, you also want to guarantee that the data being exchanged can't be intercepted by a third party. If so, you establish a secure connection using a protocol known as SSL or TLS. What this adds to the basic connection is an exchange of information that establishes a session key. This session key is then used to encrypt the communications. This usually happens before you exchange the user name and password, so that your password is never visible to a malicious third party either.
Under the covers, when you establish a secure connection, the web site sends your browser a block of formatted data called an x509 certificate. This is another form of authentication; the certificate will have been signed by an issuer (the certificate authority or "CA") and the browser can use stored data about the CA's to ensure that the certificate is authentic.
This completely depends on the implementation of the website. Even the usage of cookies is not mandatory, but very common.
In most cases however, something like this happens:
Now you are logged in. You will remain logged in during the remainder of the session:
When you log into a web site, first your credential are authenticated. If your credentials match, then something is put into the session (on the server) to keep track of who you are so you can access data that is yours without having to re-log-in. This is obviously useless on the web server unless the client can provide information about who it is on each request. Note that the "Session" is usually maintained entirely on the web server, with the client having only a key that allows access to the session.
Remember that HTTP itself is a stateless protocol. The HTTP standard contains no method for HTTP requests to keep or persist any state between individual HTTP requests. Thus, the state is usually kept entirely on the server and you just need a method for the client to identify which session the current HTTP request belongs to.
The two common ways this is done are:
Thus, on each request the client makes, the session ID is provided to the web server, allowing the persisted state for this client to be quickly looked up, allowing HTTP to act like a stateful protocol.
What information is sent to the server when you log in? Whatever information you provided on the login form. Some web servers also track the TCP/IP address the request came from to avoid session hijacking attacks. This is usually all the information that is needed by the server.
If you don't allow your browser to save cookies, then you will have to log in to the web server each time you open your browser and initially open the server's web page. However, if you allow your browser to save cookies, then many servers allow you the option of saving the cookie (that is, not just using a session cookie) so that each time you go to a web page of the server, the persisted cookie will identify you so you don't need to re-login. Here, the cookie will save enough information -- often in an encrypted form that only the server can understand -- to identify you. In this case, the Cookie is not a simple session ID.
Very simply explained, what happens is mentioned below:
What goes in?
What happens inside?
What comes out
There are two main ways of performing authentication on the web, and a few less popular ways that are also worth knowing about.
The first is HTTP authentication, as defined by RFC 2617. When you request a protected page, the server responds with a
HTTP authentication is one of those ancient features that browsers didn't implement well to begin with and have never really been improved. Because of this, it has become much more popular for web developers to implement authentication themselves using cookies to persist state. In this case, the user is presented with a standard HTML form. When the user enters their credentials into the fields and submits the form, the browser encodes it and sends it to the server in the same way it encodes any normal HTML form. The server checks the credentials, and if they are legitimate, sets a cookie with a randomly-generated ID number, along with a corresponding database/filesystem entry that recognises that ID number as belonging to a particular user.
From this point on, every request the browser makes to the server includes this ID number cookie as an HTTP header. The server recognises the cookie, looks up the ID number, and knows which user you are. When you choose to log out, the server sends a response asking your browser to forget the ID number, at which point you are just another anonymous user.
A less commonly-used option is the use of SSL client certificates. Many people are familiar with the idea of using SSL to identify a server. A cryptographic keypair is generated, signed by a trusted authority, and used to prove that the data being sent originated with the owner of the keypair. What many people aren't aware of though, is that the same can be used by a client to prove its identity to a server. This is less convenient, however, as you need to carry your certificate around with you if you want to use it on more than one machine.
There are variations and lesser-known options available of course, but these are the most prominent ones.
As others have mentioned, login procedures vary depending on implementation, but the basic case (simple web app authentication) uses something like the following pseudocode:
Of course, in most cases, it gets a little more involved than that, but every login function starts its life looking essentially like the above. Now, if we add autologin ("remember me") to the mix, we get something like this:
Plus the function to perform the automatic login if there is a cookie present:
NOTE: The above isn't a 'best practices' approach, and it's not very secure. In production code, you would always include a user identifier in the cookie data, use several levels of throttling, store data on failed and successful logins, etc. All of this has been stripped away to make the basic structure of authentication simple to follow.
Anyway, I hope this is what you were looking for, koldfyre. I don't know your background, but if you're unsure of how sessions and cookies work, you should read up on them separately, and if you need more elaborate details, just ask.
P.S.: You may also want to check the question "The Definitive Guide To Website Authentication" for best practice approaches
Look, it's a little hard to give you a lot more information that you already have here; I'm not sure why you want to set a bounty on it. A cookie is just a little bit of named information, and you can put anything you like in it. For a session, you'd want some kind of session ID. There are conventions for that, or you can do it yourself. Whatever you do, when you set the cookie, you leave a little data lying about on the person's browser that is more or less like this:
When you come back, you retrieve the cookie and get that back.
If you want to see all the details of that protocol, have a look at the Wikipedia article.