As the other answers have already said, using 0 for success leaves everything non-zero for failure. Often (though not always) this means that individual non-zero values are used to indicate the type of failure. So as has already been said, in that situation you have to think of it as an error code instead of an success/failure flag.
And in that kind of situation, I absolutely loathe seeing a statement like
if(!Method()) which is actually a test for success. For myself too, I've found it can cause a moment of wondering whether that statement is testing for success or failure. In my opinion, since it's not a simple boolean return, it shouldn't be written like one.
Ideally, since the return is being used as an error code the author of that function should have provided an enum (or at least a set of defines) that can be used in place of the raw numbers. If so, then I would always prefer the test rewritten as something like
if(Method() == METHOD_SUCCESS). If the author didn't provide that but you have documentation on the error code values, then consider making your own enum or defines and using that.
If nothing else, I would write it as
if(Method() == 0) because then at least it should still be clear to the reader that Method doesn't return a simple boolean and that zero has a specific meaning.
While that convention is often used, it certainly isn't the only one. I've seen conventions that distinguish success and failure by using positive and negative values. This particularly happens when a function returns a count upon success, but needs to returns something that isn't a value count upon failure (often -1). I've also seen variations using unsigned numbers where
(unsigned int)-1 (aka 0xffffffff) represented an error. And there are probably others that I can't even think of offhand.
Since there's no single right way to do it, various authors at various times have invented various schemes.
And of course this is all without mentioning that exceptions offer (among other things) a totally different way to provide information when a function has an error.