Same-origin policy is needed to prevent CSRF. Imagine this scenario:
- Bank manager Joe Fatcat has an account on his bank's administrative backend. This account lets him access confidential account info for anyone who banks at TBtF Bank. He can even reset someone's pin number, transfer funds, change account ownership, etc.
- Now, TBtF Bank lays off Jack the IT Guy. Now he's Jack the Digruntled Ex-IT-Guy, and he wants to take revenge on his former employer. Jack doesn't have access to the bank's administrative backend, but he knows Joe does.
var xhr = new XMLHttpRequest(),
data = "from="+victimAccount
xhr.open("POST", "http://tbtfbank.tld/accounts/wiretransfer.aspx", true);
- The next day, Joe arrives at his office and logs into his administrative account as he always does and leaves the tab open in the background.
- Joe sees an email containing links to pictures of Natalie Portman covered in hot grits. So naturally he clicks on it, opening the malicious webpage.
And Jack could have just as easily used the same technique to harvest thousands of account numbers and pins or any other information Joe the bank manager has access to via his account.
Luckily, the same-origin policy protects us from these types of attacks most of the time, since Jack's malicious page is hosted on a different domain from the bank application, it's not allowed to make XHRs to the bank application. Though the malicious page could still contain an image that makes a GET request to the bank application, so it's important that actions with side effects are not initiated via GET requests and that applications check the referrer header of requests they receive and take advantage of anti-CSRF tokens.