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Consider the following code:

using System;
using System.Runtime.InteropServices;

namespace Demo
    class Program
        static void Main(string[] args)
            const string test = "ABCDEF"; // Strings are immutable, right?
            char[] chars = new StringToChar{str=test}.chr;
            chars[0] = 'X';

            // On an x32 release or debug build or on an x64 debug build, 
            // the following prints "XBCDEF".
            // On an x64 release build, it prints "ABXDEF".
            // In both cases, we have changed the contents of 'test' without using
            // any 'unsafe' code...


    public struct StringToChar
        public string str;
        public char[] chr;

By running this code, we are able to change the contents of a string without an exception occuring. We did not have to declare any unsafe code to do so. This code is clearly very dodgy!

My question is simply this: Do you think that an exception should be thrown by the code above?

[EDIT1: Note that other people have tried this for me, and some people get different results - which isn't too suprising given the nastyness of what I'm doing... ;)]

[EDIT2: Note that I'm using Visual Studio 2010 on Windows 7 Ultimate 64 bit]

[EDIT3: Made the test string const, just to make it even more dodgy!]

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Duplicate of a question I already asked :-) –  Wim Coenen Dec 23 '10 at 14:43
Very interesting! Looks like this is a well-known problem. –  Matthew Watson Dec 23 '10 at 14:50

2 Answers 2

up vote 3 down vote accepted

My vote's on making FieldOffset unsafe.

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Yes, that would seem to be entirely appropriate! –  Matthew Watson Dec 23 '10 at 14:50

The SSCLI20 source code for clr/src/vm/class.cpp, MethodTableBuilder::HandleExplicitLayout can provide some insight. It is unusually heavily commented, this comment describes the rules (edited for readability):

// go through each field and look for invalid layout
// (note that we are more permissive than what Ecma allows. We only disallow 
// the minimum set necessary to close security holes.)
// This is what we implement:
// 1. Verify that every OREF is on a valid alignment
// 2. Verify that OREFs only overlap with other OREFs.
// 3. If an OREF does overlap with another OREF, the class is marked unverifiable.
// 4. If an overlap of any kind occurs, the class will be marked NotTightlyPacked (affects ValueType.Equals()).

Rule 1 ensures that a reference assignment stays atomic. Rule 2 says why you can do what you did, any object type reference may overlap. Overlap with a value type value is not permitted, that screws up the garbage collector. Rule 3 states the consequence, it only makes the type non-verifiable.

It is otherwise not the only way to screw up a string without the unsafe keyword. Just pinvoke a function that stomps the string. It gets a pointer to the string content on the GC heap or loader heap (interned strings), no copy is made. That's unverifiable code as well and just as un-exploitable when running in a sandbox.

Driving the point home: the C# unsafe keyword is not at all related to what the CLR considers verifiable, and thus actually safe code. It takes care of the blatant cases, using pointers or custom value types (fixed). Whether that's a leak in the C# language spec is debatable. Pinvoke being the more obvious edge case. Pinvoking a operating system function is pretty doggone safe. Pinvoking some 3rd party C library is not.

But I have to agree with @fej, [FieldOffset] should have gotten the "are you sure" treatment. Too bad there's no syntax for that. Admittedly, I haven't figured out yet why this actually needed to affect the managed layout. It would make much more sense that this attribute would only apply to the marshaled layout. Weird, somebody holding a ace his sleeve in the early days, maybe.

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