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I have been playing around with ILDasm and have noticed that:

  • Decompiling C:\Windows\Microsoft.NET\Framework\v4.0.30319\System.Runtime.dll (36KB) simply returns a manifest file. Decompiling C:\Program Files (x86)\Reference Assemblies\Microsoft\Framework\.NETCore\v4.5\System.Runtime.dll (114KB) returns the manifest and all types in the assembly.

  • Decompiling C:\Program Files (x86)\Reference Assemblies\Microsoft\Framework\.NETCore\v4.5\mscorlib.dll (38KB) simply returns a manifest file and decompiling C:\Windows\Microsoft.NET\Framework\v4.0.30319\mscorlib.dll (5171KB) returns a manifest and all types in the assembly.

I cannot find any information on why the assemblies are built in such a way.

What are the differences in the two assembly directories and why have two copies on the filesystem? Why are types duplicated in both assemblies? Both System.Runtime and mscorlib contain most of the same types.

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up vote 7 down vote accepted

The assemblies you found in C:\Program Files (x86)\Reference Assemblies are reference assemblies. They are rather special in .NET 4.0 and up, they don't contain any code. It was stripped from the assembly by a special tool that Microsoft uses to build these assemblies. Does not matter, a compiler only uses the metadata in such an assembly to compile your code. At runtime you get a very different assembly, it is retrieved from the GAC.

Do note that you'll find many copies of System.Runtime.dll in that directory, the .NETPortable directory in particular has lots of profiles, each with their own copy of that reference assembly.

The assemblies you found in C:\Windows\Microsoft.NET\Framework\v4.0.30319 are roughly a copy of the ones in the GAC. Very roughly, they can be a copy of the 4.0, 4.5 or 4.5.1 assembly. You should never use these assemblies for anything. While many assemblies there still have an [AssemblyVersion("")], their content is dramatically different, particularly between 4.0 and 4.5. You can see this back in the documentation, the ExtensionAttribute class is a good example. In .NET 4.0 it lives in System.Core.dll, in 4.5 and up it now lives in mscorlib.dll. Many more types like this. These copies should not be around anymore, unfortunately legacy tooling depends on them being there. In particular the #using directive in the C++/CLI compiler as well as many private custom build systems that got this wrong a while ago. Very, very troublesome.

So look at the assemblies in the GAC to know what really happens at runtime. A big change there as well since .NET 4.0, it now lives in another directory. Previously in c:\windows\assembly, now in c:\windows\microsoft.net\assembly. And the most visible change, it no longer has the shell extension that stopped you from navigating to files in that directory. You can directly navigate the GAC folder structures. It is a wee bit convoluted since assemblies that contain unmanaged code (like mscorlib.dll) are stored in a separate directory. Have a look-see, you'll have little trouble figuring out the scheme.

The C:\Windows\Microsoft.NET\assembly\GAC_MSIL\System.Runtime\v4.0_4.0.0.0__b03f5f7f11d50a3a\System.Runtime.dll assembly you'll find there is indeed rather empty. You probably missed the most important detail in the manifest however. It contains a lot of [TypeForwardedTo] attributes. A snip of the ones you'll find there:

[assembly: TypeForwardedTo(typeof(Action))]
[assembly: TypeForwardedTo(typeof(Action<>))]
[assembly: TypeForwardedTo(typeof(Action<,,,,,,,,,>))]
[assembly: TypeForwardedTo(typeof(Action<,,,,,,,,,,>))]
[assembly: TypeForwardedTo(typeof(Action<,,,,,,,,,,,>))]
[assembly: TypeForwardedTo(typeof(Action<,,,,,,,,,,,,>))]
[assembly: TypeForwardedTo(typeof(Action<,,,,,,,,,,,,,>))]
[assembly: TypeForwardedTo(typeof(Action<,,,,,,,,,,,,,,>))]
[assembly: TypeForwardedTo(typeof(Action<,,,,,,,,,,,,,,,>))]
// etc, many more

Maybe you can see what's going on now, System.Runtime.dll does not contain any code at all. It is an adapter that forwards types from one assembly to another. The desktop version of .NET forwards types to mscorlib.dll, System.dll, System.ComponentModel.Composition and System.Core.

"The desktop version" in the previous sentence is the key that explains why this was done. There are many .NET Framework versions, they have different forwarders in System.Runtime. Particularly a big deal for the framework version you use in a Store or Phone app. This is the primary mechanism by which the language projection is implemented. Where System.String doesn't have to be a .NET string at all, it can be an HSTRING, the native string type of WinRT.

Rather long story short, these adapter assemblies buys Microsoft an extra level of indirection. It helps you to write .NET code that is platform agnostic and runs the same without changes whether you execute it on the desktop, a Store app, in the browser with Silverlight, on the XBox game console, on a phone. The Portable Class Library project template is the principal beneficiary.

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Wow this mind blowing! I guess Xamarin takes advantage of this language projection as well? Thanks so much for posting that lengthy answer. Is there any official documentation where I can read more in to these changes? –  Vince Panuccio Mar 31 at 10:45
This is not documented anywhere I know of. Stuff like this usually ends up getting semi-documented in blogs but neither David Kean nor Mircea Trofin are conscientious bloggers. I reverse-engineered this from studying the reference assemblies, took me a while. SO is the missing manual. –  Hans Passant Mar 31 at 11:13
So a PCL with a reference to ".NET Portable Subset", which points to a specific Profile123 subset, in turn forwards types from Profile123 to a specific library and version on the target device? –  Vince Panuccio Apr 8 at 3:19
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