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I have a game made up of many DLL files. Some of these DLLs link to the same static library (LIB).

So something like this:

Game.exe -> Root.dll -> Child.dll
               |            |
               |            '-> Common.lib (contains __declspec(thread))
               |
               '-> Common.lib (contains __declspec(thread))

Root.dll loads Child.dll which statically links Common.lib. Root also statically links Common.lib. Because Common is statically linked, it gets compiled directly into the loading dll (eg. Root and Child).

Common.lib contains a variable using Thread Local Storage (TLS).

__declspec(thread) static void* s_threadValues[PlatformThreadSlotsMax];

This results in some problematic behavior: Root.dll and Child.dll each contain a different instance of the TLS data (s_threadValues). Even on the same thread, if Root.dll calls a function defined in Common.lib, the value of s_threadValues will be different from its value if that same function is called from Child.dll.

Since both DLL are accessing this TLS from the same thread, I would expect the TLS to be shared, but it is not.

Now, if I change Common.lib to a dynamically link (eg. Common.dll) this issue does not occur anymore: s_threadValues is the same for both Root.dll and Child.dll.

Is this expected behavior? Is there anyway to have the TLS shared defined in the static lib shared between dynamic libs using it?

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1  
Singletons are useful here, though if you want your class to remain static that doesn't work so well (You'd have to expose a setter for your singleton - it's hacky but it works). I'm hope there's a better solution, though. –  Warty Jan 3 '14 at 22:05
2  
AFAIK, It is expected behavior: "Global" variables are global only to a Module (in the Windows sense). To share one between modules, you have to either store it in a single module and let others call it, or find another kind of storage (personnally I use a File Mapping with a processID-based name) –  Medinoc Jan 3 '14 at 22:09
    
@Warty Are you saying, that rather than having s_threadValues as a global, have it as a member of a Singleton (and not a TLS value)? In doing that, would it not end up being shared between threads (which it was trying to avoid in the first place)? –  Goose Jan 3 '14 at 22:34
1  
Static libraries are totally irrelevant. They do not exist in an executable program in any shape or form. They are just containers for object files. You might just as well never create any static library and use the object files directly. –  n.m. Jan 3 '14 at 22:38
2  
1. Yes. 2. Let me try again. There are no static libraries in executable code. They are just containers for object files, and object files are just containers for object code. The linker uses that object code to build modules (.dll and .exe files). You could just as well use object files directly, without ever creating static libraries, and build exactly the same modules. That's why the fact that you are using a static library is irrelevant. What's important is whether you have one copy of the variable in one module, or two such copies in two modules. –  n.m. Jan 3 '14 at 23:12

2 Answers 2

up vote 2 down vote accepted

This is entirely normal. Each DLL has its own copy of the library code and data. And its own thread-local state.

You can reason this out by assuming it would work the way you expected. Then two DLLs could accidentally have their own thread-local variables shared between different DLLs. Clearly that would be disastrous. It can't work that way because there is no mechanism to share the TLS instance across modules. The slot indices are intentionally kept private to the module, there's no mechanism to obtain the slot index of a __declspec(thread) variable. Calling TlsAlloc() explicitly and sharing the index would be a workaround. Don't go there.

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In conclusion: leaving your "Common" library as its own, standalone DLL is the correct way to do it. Sleep easy. –  BTownTKD Jan 4 '14 at 0:05

Here's something to consider - each DLL you load has it's own heap.
Meaning that malloc/new on one DLL will allocate from one heap #1, and from a different DLL (or your main process), using a different heap.
static works the same way.
I had a similar issue with reference counting objects I've made being released by the wrong module.
My solution was to initialize the DLL with my own memory handling routines, having all modules work withe the same heap.
This approach won't work with your static data though.

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That's not generally true, compiling DLLs with /MD in effect so all the code shares the CRT and the heap is almost always required. And since VS2012 even that is no longer necessary, all modules share the default process heap even without /MD. –  Hans Passant Jan 3 '14 at 22:56
    
@HansPassant - Didn't know that, I don't write windows code anymore, but I used to, ages ago... At any rate - this still applies for most unix systems. –  iMoses Jan 3 '14 at 22:59
    
"this still applies for most unix systems" — it does not, and never did. –  n.m. Jan 3 '14 at 23:15
    
@n.m. - applies to Solaris 8(!) with gcc 3, no longer applies in newer versions. I'm almost certain this was the case for older glibc versions on linux, but I can't tell for sure, never is a long time - don't be so sure about that. –  iMoses Jan 4 '14 at 0:05
    
This sounds incredible. Do you have any reference to look at? I don't know of any mechanism that would allow shared libraries to work this way. –  n.m. Jan 4 '14 at 0:10

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