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MSDN says:

It must not call the LoadLibrary or LoadLibraryEx function (or a function that calls these functions), because this may create dependency loops in the DLL load order. This can result in a DLL being used before the system has executed its initialization code.

I tried to call LoadLibrary from DllMain and nothing happened.

The only issue that I see is that loaded DLL will use functions in my DLL before rest of my DllMain executes.

Why I must not call LoadLibrary in DllMain?


OK, I realized that I must call LoadLibrary in DllMain just because I must believe to MSDN as other believers do (I saw some wrong things there, but I should forget them too).
And because something may happen in newer versions of Windows (although there nothing was changed for last ten years).

But can anyone show a code which will reproduce something bad what happens when LoadLibrary is called in DllMain? In any existing Windows OS?
Not just a call of one singleton initialization function inside another, but LoadLibrary in DllMain?

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A good explanation here: blogs.msdn.com/b/oldnewthing/archive/2004/01/27/63401.aspx –  Simon Mourier Dec 6 '10 at 20:56
@Simon Mourier : there is nothing related to this question. –  Abyx Dec 6 '10 at 21:07
Is the subtext to this question, "I plan to call LoadLibrary from DllMain in my code and don't want to take the advice not to do so"? –  David Heffernan Dec 6 '10 at 23:04
This has nothing to do with whether anybody "believes" MSDN or not; the API specification in MSDN is the interface that Microsoft guarantees will always work. You must consider any other behaviors to be subject to change. Sure nothing has changed in ten years, but that doesn't prevent Microsoft from changing things in the future. Don't forget that Windows 9x had a completely different loader than Windows NT, even though they both supported Win32. Do you REALLY want your code to be the stuff that doesn't work on a different implementation? –  Aaron Klotz Dec 20 '10 at 7:07
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4 Answers 4

Your argument in favor of going ahead with this seems to be, to paraphrase:

Microsoft says don't do this, but my single test case seems to work, therefore I fail to see why nobody should be doing this.

You're operating under a big assumption: you're assuming that the underlying implementation of the Windows loader will never change. What if the loader is changed in "Windows 8" in a way such that your code no longer works properly? Now Microsoft gets blamed for it and they have to include yet another compatibility hack to work around code that they told you not to write in the first place.

Follow the guidelines. They're not there just to make your life more difficult, they're there to guarantee that your code will work just as well on the Windows of the future as it does now.

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As stated in http://msdn.microsoft.com/en-us/library/ms682583%28VS.85%29.aspx:

Threads in DllMain hold the loader lock so no additional DLLs can be dynamically loaded or initialized.


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Did you test that? –  Abyx Dec 6 '10 at 21:03
@Abyx - what would be the point? The same page specifically forbids calling LoadLibrary(Ex) from DllMain. it should be clear that if you do this, you are on your own. –  Steve Townsend Dec 6 '10 at 21:07
@Praetorian: It won't deadlock. It might just crash. And the crash might happen much later on. If you call LoadLibrary from a DllMain, there are no guarantees that DllInitialization will happen in the right order. You might get lucky and it will work. But you might fail miserably. You have no way of knowing what will happen. –  Larry Osterman Dec 6 '10 at 21:52
"Did you test that?", er what?!! –  David Heffernan Dec 6 '10 at 23:07
@Abyx: I did not test it, but have some experience with bugs related to it. I am however inclined to do as the docs tell me to ;) –  Marcus Fritzsch Dec 6 '10 at 23:32
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There are simple, and even not so simple, circumstances in which calling LoadLibrary from DllMain is perfectly safe. But the design is that DllMain is trusted not to change the list of loaded modules.

Though possession of the loader lock does indeed constrain what can be done in DllMain, it is only indirectly relevant to the LoadLibrary rule. The relevant purpose of the loader lock is serialise access to the list of loaded modules. While NTDLL works on this list in one thread, possession of the loader lock ensures that the list won't be changed by NTDLL code that's executing in another thread. However, the loader lock is a critical section. It does nothing to stop the same thread from re-acquiring the loader lock and changing the list.

This would not matter if NTDLL kept entirely to itself while working on the list. However, NTDLL provides for involving other code in this work, as when initialising a newly loaded DLL. Each time NTDLL calls outside itself while working on the list, there is a choice to make for the design. Broadly, there are two options. One is to stabilise the list and release the loader lock, call outside, then acquire the loader lock and resume work on the list as if from scratch because the outside call may have changed it. The other is to keep the loader lock and trust the called code not to do anything that changes the list. And thus does LoadLibrary become off-limits in DllMain.

It's not that the loader lock does anything to stop DllMain from calling LoadLibrary or even that the loader lock itself makes such a call unsafe. It is instead that by retaining the loader lock, NTDLL trusts DllMain not to call LoadLibrary.

For contrast, consider the DllMain rule about not waiting on synchronisation objects. Here, the loader lock has a direct role in making this unsafe. Waiting on a synchronisation object in DllMain sets up the possibility of deadlock. All that's needed is that another thread already holds the object you're waiting on, and then this other thread calls any function that would wait on the loader lock (e.g., LoadLibrary but also such functions as the seemingly inocuous GetModuleHandle).

Wanting to stretch or break the DllMain rules may be mischievous or even outright stupid. However, I must point out that Microsoft is at least partly to blame for people asking how strong or meaningful are these rules. After all, some have not always been documented clearly and forcefully, and when last I looked they were still not documented in all the situations where they're surely needed. (The exception I have in mind is that at least until Visual Studio 2005, MFC programmers writing DLLs were told to put their initialisation code in CWinApp::InitInstance but were not told that this code is subject to the DllMain rules.)

Moreover, it would be a bit rich for anyone from Microsoft to speak as if the DllMain rules ought be followed without question. Examples exist where Microsoft's own programmers break the rules, and continue to even after breaking the rules is seen to have caused serious real-world trouble.

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up vote 0 down vote accepted

I experienced loader lock when tried to load a DLL with managed initialization code inside DllMain() of another DLL. It creates a thread and probably waits an event from thread, therefore it hangs. But .NET says that I can't run managed code in DllMain().

So I think that the answer is "bad things can happen when initialization code of loaded DLL don't designed for DllMain()".

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