How can one allow code snippets to be entered into an editor (as stackoverflow does) like FCKeditor or any other editor while preventing XSS, SQL injection, and related attacks.
Preventing SQL injection may be somewhat dependent upon your platform choice. My preferred web platform has a built-in syntax for parameterizing queries that will mostly prevent SQL-Injection (called cfqueryparam). If you're using PHP and MySQL there is a similar native mysql_escape() function. (I'm not sure the PHP function technically creates a parameterized query, but it's worked well for me in preventing sql-injection attempts thus far since I've seen a few that were safely stored in the db.)
On the XSS protection, I used to use regular expressions to sanitize input for this kind of reason, but have since moved away from that method because of the difficulty involved in both allowing things like links while also removing the dangerous code. What I've moved to as an alternative is XSLT. Again, how you execute an XSL transformation may vary dependent upon your platform. I wrote an article for the ColdFusion Developer's Journal a while ago about how to do this, which includes both a boilerplate XSL sheet you can use and shows how to make it work with CF using the native XmlTransform() function.
The reason why I've chosen to move to XSLT for this is two fold.
First validating that the input is well-formed XML eliminates the possibility of an XSS attack using certain string-concatenation tricks.
Second it's then easier to manipulate the XHTML packet using XSL and XPath selectors than it is with regular expressions because they're designed specifically to work with a structured XML document, compared to regular expressions which were designed for raw string-manipulation. So it's a lot cleaner and easier, I'm less likely to make mistakes and if I do find that I've made a mistake, it's easier to fix.
Also when I tested them I found that WYSIWYG editors like CKEditor (he removed the F) preserve well-formed XML, so you shouldn't have to worry about that as a potential issue.
The same rules apply for protection: filter input, escape output.
In the case of input containing code, filtering just means that the string must contain printable characters, and maybe you have a length limit.
When storing text into the database, either use query parameters, or else escape the string to ensure you don't have characters that create SQL injection vulnerabilities. Code may contain more symbols and non-alpha characters, but the ones you have to watch out for with respect to SQL injection are the same as for normal text.
Don't try to duplicate the correct escaping function. Most database libraries already contain a function that does correct escaping for all characters that need escaping (e.g. this may be database-specific). It should also handle special issues with character sets. Just use the function provided by your library.
I don't understand why people say "use stored procedures!" Stored procs give no special protection against SQL injection. If you interpolate unescaped values into SQL strings and execute the result, this is vulnerable to SQL injection. It doesn't matter if you are doing it in application code versus in a stored proc.
When outputting to the web presentation, escape HTML-special characters, just as you would with any text.
The best thing that you can do to prevent SQL injection attacks is to make sure that you use parameterized queries or stored procedures when making database calls. Normally, I would also recommend performing some basic input sanitization as well, but since you need to accept code from the user, that might not be an option.
I'd say one could replace all < by <, etc. (using htmlentities on PHP, for example), and then pick the safe tags with some sort of whitelist. The problem is that the whitelist may be a little too strict.
Here is a PHP example
To prevent SQL injections, you could replace all ' and \ chars by an "innofensive" equivalent, like \' and \, so that the following C line
Wouldn't have any negative results in the database.