Is there a Thread-Local Storage (TLS) equivalent for kernel-mode drivers in Windows (Win32 to be exact)?
What I try to achieve:
Eventually from within my driver's dispatch routine it may call many other functions (there may be a deep callstack). I want to supply some context information specific to the request being processed. That is, I have some structure, pointer to which should be visible in all the called functions, without explicitly passing it as a parameter to every function.
Using static/global is not a perfect option (multithreading, sync objects and etc.).
If that was a user-mode code - one would obviously use TLS in such a situation. But AFAIK there are no kernel-mode functions like
TlsSetValue. And this makes sense - for those function to work one has to allocate a process-wide TLS index first. OTOH driver code may be invoked on arbitrary thread, not limited to a specific process.
However I don't actually need a persistent thread-specific storage. I just need a thread-specific storage for my top-level function invocation.
I think I know how to "implement" the TLS, though in a hackish way. Instead of allocating the TLS index I will always use a predefined index (say, index=0). At the top-level function I'll save the stored TLS value, and overwrite it with the needed value. Upon completion the saved value will be restored.
Luckily I know how the TLS is implemented in Win32. There's a
TIB structure (thread information block) for each thread. In every thread it may be accessed using
FS:[18h] selector. The
TIB contains (among other things) an array used by TLS. The rest is pretty straightforward.
However I'd prefer to use an official API to achieve something similar.
- Is there an official kernel-mode API to achieve what I need?
- Are there reasons to avoid what I'm planning to do? I know there may potentially be a problem with re-entrance (i.e. some code invokes me, I overwrite the TLS value and then eventually call the originating code, which may rely on the TLS). But this is not possible in my specific case?
- Are there less dirty ways to solve this?
Thanks in advance.
P.S. One may theoretically use SEH (which also has per-thread information stored). That is, wrap the top-level code by
__try/__except, then where the context information is needed - raise the continuable exception with some parameter, in the
__except block fill the parameter with the context information, and then resume the execution. And this is a 100% valid program flow, without use of the undocumented features. But nevertheless this seems an ugly hack for me, not to mention the performance complications.