I am writing a simple compiler from c90 to MIPS and I am at the point of code generation. I have this c code as input:
int main(){
int a=50, b=10, c=a+b;
return c;
}
and the code my compiler generates is:
.text
.align 2
.globl main
.ent main
.type main, @function
main:
addiu $sp, $sp, -24 # Allocate memory on the stack
sw $fp, 20($sp) # Store value of fp on the bottom of the stack
addiu $fp, $sp, 16 # Modify fp to point to the the bottom of the available stack memory
sw $ra, 0($fp) # Store the return address for the subroutine
li $t0, 50
sw $t0, 4($fp)
li $t0, 10
sw $t0, 8($fp)
addiu $sp, $sp, -28 # Allocate more memory
lw $t0, 4($fp)
sw $t0, 16($fp)
lw $t0, 8($fp)
sw $t0, 20($fp)
lw $t0, 16($fp)
lw $t1, 20($fp)
addu $t2, $t0, $t1
sw $t2, 12($fp)
lw $t0, 12($fp)
sw $t0, 24($fp)
lw $v0, 24($fp)
lw $ra, 0($fp) # Load return address in register 31
lw $fp, -4($fp) # Restore the value of the frame pointer
addiu $sp, $sp, 52 # Restore the value of the stack pointer
j $ra
nop
.end main
Now putting aside the fact that the code is not very efficient and I am using the frame pointer in a slightly different way than the MIPS convention, I restore the initial values of $sp
and $fp
, which is all my code needs to run together with other functions.
The problem is I am getting segfault when I try to access memory address 24($fp)
(around the bottom of the assembly). If I try to access the memory location via $sp
it all works correctly. Moreover, if I allocate the total memory at the beginning of the function (i.e. addiu $sp, $sp, -52
and don't perform a second allocation) it works correctly as well.
What am I missing?
24($fp)
makes sense? You allocate 24 bytes from the stack, then point$fp
16 bytes into it (which is not the bottom, contrary to your comment). So the valid offsets from$fp
are in the range[-16, +8)
.$fp
. After you allocate those (with$fp
unchanged), the valid range is of course[-44, +8)
... it didn't grow upwards, you subtracted (as you should, since stack grows down).