A static readonly field cannot be assigned to
You're not assigning to it. You're calling public functions in the
System.Reflection namespace. No reason for the compiler to complain about that.
typeof(string).GetField("Empty") could use variables entered in by the user instead, there's no sure way for the compiler to tell in all cases whether the argument to
GetField will end up being
I think you're wanting
Reflection to see that the field is marked
initonly and throw an error at runtime. I can see why you would expect that, yet for white-box testing, even writing to
initonly fields has some application.
The reason NGEN has no effect is that you're not modifying any code here, only data. Data is stored in memory with .NET just as with any other language. Native programs may use readonly memory sections for things like string constants, but the pointer to the string is generally still writable and that is what is happening here.
Note that your code must be running with full-trust to use reflection in this questionable way. Also, the change only affect one program, this isn't any sort of a security vulnerability as you seem to think (if you're running malicious code inside your process with full trust, that design decision is the security problem, not reflection).
Further note that the values of
initonly fields inside
mscorlib.dll are global invariants of the .NET runtime. After breaking them, you can't even reliably test whether the invariant was broken, because the code to inspect the current value of System.String.Empty has also broken, because you've violated its invariants. Start violating system invariants and nothing can be relied on.
By specifying these values inside the .NET specifications, it enables the compiler to implement a whole bunch of performance optimizations. Just a simple one is that
s == System.String.Empty
(s != null) && (s.Length == 0)
are equivalent, but the latter is much faster (relatively speaking).
Also the compiler can determine that
if (int.Parse(s) > int.MaxValue)
is never true, and generate an unconditional jump to the else block (it still has to call
Int32.Parse to have the same exception behavior, but the comparison can be removed).
System.String.Empty is also used extensively inside BCL implementations. If you overwrite it, all sorts of crazy things can happen, including damage that leaks outside your program (for example you might write to a file whose name is built using string manipulation... when string breaks, you might overwrite the wrong file)
And the behavior might easily differ between .NET versions. Normally when new optimization opportunities are found, they don't get backported to previous versions of the JIT compiler (and even if they were, there could be installations from before the backport was implemented). In particular.
String.Empty-related optimizations are observably different between .NET 2.x and Mono and .NET 4.5+.