Why is the process of disassembling a native Win32 image (built in C/C++ for e.g.) miles more difficult than disassembling a .NET app?
What is the main reason? Because of what?
A .net assembly is built into Common Intermediate Language. It is not compiled until it is about to be executed, when the CLR compiles it to run on the appropriate system. The CIL has a lot of metadata so that it can be compiled onto different processor architectures and different operating systems (on Linux, using Mono). The classes and methods remain largely intact.
.net also allows for reflection, which requires metadata to be stored in the binaries.
C and C++ code is compiled to the selected processor architecture and system when it is compiled. An executable compiled for Windows will not work on Linux and vice versa. The output of the C or C++ compiler is assembly instructions. The functions in the source code might not exist as functions in the binary, but be optimized in some way. Compilers can also have quite agressive optimizers that will take logically structured code and make it look very different. The code will be more efficient (in time or space), but can make it more difficult to reverse.
Due to the implementation of .NET allowing for interoperability between languages such as C#,VB, and even C/C++ through the CLI and CLR this means extra metadata has to be put into the object files to correctly transmit Class and object properties. This makes it easier to disassemble since the binary objects still contain that information whereas C/C++ can throw that information away since it is not necessary (at least for the execution of the code, the information is still required at compile time of course).
This information is typically limited to class related fields and objects. Variables allocated on the stack will probably not have annotations in a release build since their information is not needed for interoperability.
One more reason - optimizations that most C++ compilers perform when producing final binaries are not performed on IL level for managed code.
As result something like iteration over container would look like couple
jnc assembly instructions for native code compared with function calls with meaningful names in IL. Resulting executed code may be the same (or at least close) as JIT compiler will inline some calls similar to native compiler, but the code one can look at is much more readable in CLR land.
People have mentioned some of the reasons; I'll mention another one, assuming we're talking about disassembling rather than decompiling.
The trouble with x86 code is that distinguishing between code and data is very difficult and error-prone. Disassemblers have to rely on guessing in order to get it right, and they almost always miss something; by contrast, intermediate languages are designed to be "disassembled" (so that the JIT compiler can turn the "disassembly" into machine code), so they don't contain ambiguities like you would find in machine code. The end result is that disassembly of IL code is quite trivial.
If you're talking about decompiling, that's a different matter; it has to do with the (mostly) lack of optimizations for .NET applications. Most optimizations are done by the JIT compiler rather than the C#/VB.NET/etc. compiler, so the assembly code is almost a 1:1 match of the source code, so figuring out the original is quite possible. But for native code, there's a million different ways to translate a handful of source lines (heck, even no-ops have a gazillion different ways of being written, with different performance characteristics!) so it's quite difficult to figure out what the original was.
In general case there is no much difference between disassembling C++ and .NET code. Of cause C++ is harder to disassemble because it does more optimizations and stuff like that, but that's not the main issue.
The main issue is with names. A disassembled C++ code will have everything named as A,B,C,D,...A1, and etc. Unless you could recognize an algorithm in such format, there is not much information you could extract from the disassembled C++ binary.
The .NET library on the other side contains in it names of methods, method parameters, class names, and class field names. It makes understanding of the disassembled code much easier. All other stuff is secondary.