My question is pretty simple and straightforward: if I have e.g. 1MB of RAM assigned to the program's stack, can I get the addresses of the start and the end, or the start and the length?

I'm using Visual Studio 2013.


You should question your assumptions about stack layout.

Maybe the stack doesn't have just one top and bottom

Maybe it has no fixed bottom at all

Clearly there's no portable way to query concepts which are not portable.

From Visual C++, though, you can use the Win32 API, depending on Windows version.

On Windows 8 it is very easy, just call GetCurrentThreadStackLimits

Earlier versions need to use VirtualQueryEx and process the results somewhat. Getting one address in the stack is easy, just use & on a local variable. Then you need to find the limits of the reserved region that includes that address. Joe Duffy has written a blog post showing the details of finding the bottom address of the stack

  • As Thread Stack Size says, default initial and reserve sizes can be obtained from the PE header (it doesn't specify which module's header). – ivan_pozdeev Feb 25 '15 at 1:52
  • @ivan_pozdeev: That's the stack size for the main thread only, although it also serves as a default for threads created later, their size is set dynamically. And of course it is the PE header of the executable image, the one matching GetModuleHandle(NULL). – Ben Voigt Feb 25 '15 at 2:42
  • Your assumption that Visual C++ == Win32 isn't going to be sound much longer – Damien_The_Unbeliever Feb 25 '15 at 7:05
  • @Damien_The_Unbeliever: That page is playing fast and loose with the name "Visual C++". Yes, the Visual Studio development environment may target other platforms, even C++ native development on other platforms, but it is being done via toolchain plugins for compilers other than Visual C++, not by adding other platforms to the Visual C++ toolchain. Would be a better argument using Windows Store API, which isn't Win32 and is done with the Visual C++ toolchain. – Ben Voigt Feb 25 '15 at 14:46
  • @BenVoigt: the default stack size specified in the PE header doesn't always get applied to secondary threads. The caller decides that when calling CreateThread()/_beginthread/ex(). – Remy Lebeau Dec 11 '17 at 22:33

GetCurrentThreadStackLimits seems to do what you're looking for, getting the lower/upper boundaries of the stack into pointer addresses:

ULONG_PTR lowLimit;
ULONG_PTR highLimit;
GetCurrentThreadStackLimits(&lowLimit, &highLimit);

Looks like it is only available on Windows 8 and Server 2012 though.

Check the MSDN


On Windows before 8, implement GetCurrentThreadStackLimits() yourself:

#include <windows.h>
#if _WIN32_WINNT < 0x0602
VOID WINAPI GetCurrentThreadStackLimits(LPVOID *StackLimit, LPVOID *StackBase)
    NT_TIB *tib = (NT_TIB *) NtCurrentTeb();
    *StackLimit = tib->StackLimit;
    *StackBase = tib->StackBase;
  • From the Joe Duffy article I linked in my answer: Unfortunately, the StackLimit is only updated as you actually touch pages on the stack, and thus it’s not a reliable way to find out how much uncommitted stack is left. The CLR uses kernel32!VirtualAlloc to commit the pages, not by actually moving the guard page, so StackLimit is not updated as you might have expected. But if you read the comments under the question before answering, you would already have known that the TIB does not contain the needed information. – Ben Voigt Dec 11 '17 at 23:07

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