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In Linux, I've tried (just for fun) to modify the kernel source in process.c create a stack address that has more entropy, i.e. in particular the line:

sp -= get_random_int() % 8192;

When I change this too much, the kernel halts or I get some seemingly undefined behavior. I'm guessing that this causes PAGE_ALIGN() to fail in some way? I'm not that interested in why PAGE_ALIGN() in particular fails, or exactly what piece of code in the kernel that fails (although that too would be nice to know); I'm more interested in why the stack must reside in a particular region at all. What is the architectural reason and motivation behind this? Does this have something to do with how GDT/LDT works in protected mode?

Just to make clear what I'm asking:

Why does the stack have to have the form 0xbfXXXXXX (on 32-bit)? Why cannot the stack be e.g. 0xaaXXXXXX, or any other value?

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up vote 4 down vote accepted

There is a limit in do_page_fault() as to how far outside the stack vma you can be before it considers it a bad access, perhaps you're hitting that?

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On x86 8K is default size of kernel stack. The code OP mentions affects user stack which size is not fixed. –  Paweł Dziepak Oct 7 '12 at 19:08

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