I'm writing code to temporarily use my own stack for experimentation. This worked when I used literal inline assembly. I was hardcoding the variable locations as offsets off of ebp. However, I wanted my code to work without haivng to hard code memory addresses into it, so I've been looking into GCC's EXTENDED INLINE ASSEMBLY. What I have is the following:
volatile intptr_t new_stack_ptr = (intptr_t) MY_STACK_POINTER; volatile intptr_t old_stack_ptr = 0; asm __volatile__("movl %%esp, %0\n\t" "movl %1, %%esp" : "=r"(old_stack_ptr) /* output */ : "r"(new_stack_ptr) /* input */ );
The point of this is to first save the stack pointer into the variable old_stack_ptr. Next, the stack pointer (%esp) is overwritten with the address I have saved in new_stack_ptr.
Despite this, I found that GCC was saving the %esp into old_stack_ptr, but was NOT replacing %esp with new_stack_ptr. Upon deeper inspection, I found it actually expanded my assembly and added it's own instructions, which are the following:
mov -0x14(%ebp),%eax mov %esp,%eax mov %eax,%esp mov %eax,-0x18(%ebp)
I think GCC is trying to preserve the %esp, because I don't have it explicitly declared as an "output" operand... I could be totally wrong with this...
I really wanted to use extended inline assembly to do this, because if not, it seems like I have to "hard code" the location offsets off of %ebp into the assembly, and I'd rather use the variable names like this... especially because this code needs to work on a few different systems, which seem to all offset my variables differently, so using extended inline assembly allows me to explicitly say the variable location... but I don't understand why it is doing the extra stuff and not letting me overwrite the stack pointer like it was before, ever since I started using extended assembly, it's been doing this.
I appreciate any help!!!