I am not going to get into what this does prevent, but I will address some of what it allows through.
Let's say your filter takes a string, and returns a string with all of the <
replaced with empty strings. Ignoring that you could mess up this implementation if you are not careful. If you inject un-trusted data into html attributes or javascript strings, for example, you've done nothing to mitigate XSS.
Here's an example of an XSS attack vector that we could use to bypass FilterLeftBrackets()
:
<div id="content" data-query="~injection-point~"></div>
payload could be: q" onmouseover=alert('xss'); data-x="
Resulting in:
<div id="content" data-query="q" onmouseover=alert('xss'); data-x=""></div>
here's one for JavaScript:
var queryMsg = "you searched for: " + "~injection-point~";
payload could be: q"; alert('xss'); var x="
Resulting in:
var queryMsg = "you searched for: " + "q"; alert('xss'); var x="";
In both cases, you needed to escape "
, but it could have easily been '
. the thing with injection is that it depends entirely on the context. Be thoughtful about WHERE you are putting user input, and check what could have been used to "break out" of the constraints you assume are set.
In short, use a library... don't come up with your own scheme, and be thoughtful of the context.
Please note this from the evasion cheat sheet:
This cheat sheet is for people who already understand the basics of XSS attacks but want a deep understanding of the nuances regarding filter evasion.
You may find this more helpful:
https://www.owasp.org/index.php/XSS_(Cross_Site_Scripting)_Prevention_Cheat_Sheet
I'm also a big fan of this tutorial from google: https://www.google.com/about/appsecurity/learning/xss/