I run a program on my Windows 10 machine with windbg, and let it break on the initial breakpoint. I take the address of the physical bottom of the stack (stackBase of the TEB), and subtract the rsp value of ntdll!LdrInitializeThunk. I just did this 5 times on the same program, and I got 5 different values:


You get similar results if you do the same with ntdll!RtlUserThreadStart, etc. This suggests that the "logical bottom" of the stack is somewhat randomized. Why is that? Is this some kind of "mini-ASLR" inside of the stack? Is this documented anywhere?

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    I was hoping someone would have a detailed answer, but FWIW process startup seems to be inherently unpredictable. If you use Process Monitor to watch what happens when a particular executable starts up, it can vary considerably from time to time, seemingly at random. I don't really know why. Jul 5, 2016 at 1:55

1 Answer 1


After some googling for ASLR in Vista specifically (ASLR was introduced in Vista), I found this document from Symantec. On page 5, it mentions the phenomenon that my question is about (emphasis mine):

Once the stack has been placed, the initial stack pointer is further randomized by a random decremental amount. The initial offset is selected to be up to half a page (2,048 bytes), but is limited to naturally aligned addresses [...]

So it seems it's done intentionally for security reasons (this way it's harder to figure out addresses of things that reside at fixed offsets relative to the stack base).

I'm leaving this question open for some time hoping that someone can provide a more insightful answer. If no one does, I will accept this answer.

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