One major source of C/C++ memory leaks that effectively doesn't exist in .Net is when to deallocate shared memory
The following is from a Brad Abrams led class on Designing .NET Class Libraries
"Well, the first point is, of course, there are no memory leaks, right? No? There are still memory leaks? Well, there is a different kind of memory leak. How about that? So the kind of memory leak that we don’t have is, in the old world, you used to malloc some memory and then forget to do a free or add ref and forget to do a release, or whatever the pair is. And in the new world, the garbage collector ultimately owns all the memory, and the garbage collector will free that stuff when there are no longer any references. But there can still sort of be leaks, right? What are the sort of leaks? Well, if you keep a reference to that object alive, then the garbage collector can’t free that. So lots of times, what happens is you think you’ve gotten rid of that whole graph of objects, but there’s still one guy holding on to it with a reference, and then you’re stuck. The garbage collector can’t free that until you drop all your references to it.
The other one, I think, is a big issue. No memory ownership issue. If you go read the WIN32 API documentation, you’ll see, okay, I allocate this structure first and pass it in and then you populate it, and then I free it. Or do I tell you the size and you allocate it and then I free it later or you know, there are all these debates going on about who owns that memory and where it’s supposed to be freed. And many times, developers just give up on that and say, “Okay, whatever. Well, it’ll be free when the application shuts down,” and that’s not such a good plan.
In our world, the garbage collector owns all the managed memory, so there’s no memory ownership issue, whether you created it and pass it to the application, the application creates and you start using it. There’s no problem with any of that, because there’s no ambiguity. The garbage collector owns it all.