1:33 AM
(Probably the worst idea I've had, trying to explain myself when half asleep, but I also can't get to sleep because I keep trying to think how to explain this).
@PeeHaa I'm not going to expect everyone to watch a
46 minute video from Christoph Kern, but they do explain how Google has used this concept to get "a rigorous guarantee that SQL injection simply cannot happen" (@13:44)... and with XSS (@32:00), 1 project reported ~30 bugs in 2011, and ~0 from September 2013 (implemented date) to when the video was recorded in 2016 (as I note in the RFC, XSS isn't as easy, due to the context based escaping).
@Trowski I appreciate the view of not wanting to introduce the notion of some strings being "safer" than others. But, we are talking about using this check to identify Injection vulnerabilities (all forms, including XSS)... and this happens when user data is "injected" into a command string (SQL, HTML, CLI, and dare I say it, eval).
Or in other words - To address these injection mistakes, we must be able to identify "strings from a trusted developer" (this quote stolen from
JavaScript isTemplateObject).
That said, I also appreciate the weird stuff developers can do, and that's why the name is important. By calling it is_literal(), we are clearly saying what it's checking for. This is why it's not called "is_safe_string()", because a programmer could do something really stupid, like taking user data, writing it to a PHP script, then executing that script (or using eval) to make it look safe.
I really want to keep this implementation simple, and easy to reason. String concat is currently used everywhere for SQL, HTML, CLI, and even Eval (don't use Eval). For ease of adoption I would like to support concat (more on this later). Splitting strings via substr(), explode(), etc - that's just going to complicate things.
@PeeHaa I would like to see any example where concat would "introduce things" in the context of a security issue (remembering the programmer wrote these strings). Unfortunately with security, I cannot say anything is perfectly safe, whereas to disprove, well you only need to find 1 example (game on?).
@DaveRandom I'm not familiar with PHP internals. It could be seen as a "const string"; but, as Joe noted, string concat can happen at compile time, so it should happen at runtime as well (consistency). This will help existing projects.
(e.g. I had to remove some uses of implode in my code, and now I'm using Joe's implementation, I know all of my SQL and HTML Snippets have been literals, and cannot contain user data - therefore cannot contain an injection vulnerability, or in other words, user data).
@DaveRandom And Yes (following on from the previous point), I agree, the same does apply, fundamentally const + const
does mean that the programmer still has total control over the inputs.
@Trowski As to changing the implementation to reflection. I suspect that will break the concat cases, so it might work with ORMs (which typically provide methods that take small literals), but I suspect it's not going to be easy for everyone to adopt.
@Trowski Static analysis,
as noted in the RFC - unfortunately you're not going to get every programmer to use it, especially newbies.
@Trowski Performance impact,
as noted in the RFC, Máté Kocsis has run some tests, and it's not much (and can't really be measured when a database gets involved). That said, Joe also mentioned that VM changes might be possible to further reduce the cost if you're really concerned.
@Crell In regards to Database abstractions; if you look at the
very primitive DBAL in my example, that literal_check() method is really simple/effective. If that was included in a more typical DBAL, it could be used by any method that takes an SQL string.
Then check the
Doctorine security page, everything that is "NOT escaped", and "ALL other APIs to be not safe for user-input", could use this, and that provides a simple check that it's been given a programmer defined string.
Ok, that's probably far too much writing tonight, I hope I didn't come across as too mad.