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assembly - Segmentation fault on printf - NASM 64bit Linux

I trying to input four floats using scanf, store them onto the stack, and then use vmovupd to copy them over to a register for use. My problem is when I try to output those 4 numbers, the program seg faults at printf.

I presume it is something with the stack but I've tried popping numerous times (multiple instructions at once) to no avail. I'm still new to Assembly coding so using gdb is a bit too advanced for me.

You will notice that I have included a file called debug. It allows me to look at registers and the stack (that's why there's a dumpstack instruction.) That was provided by my professor and it did help some but obviously not enough (or maybe I am just missing something).

Here's the .cpp:

#include <iostream>

using namespace std;

extern "C" double ComputeElectricity();

int main()
{
    cout << "Welcome to electric circuit processing by Chris Tarazi." << endl;
    double returnValue = ComputeElectricity();
    cout << "The driver received this number: " << returnValue << endl; 
    return 0;
}

And here's the ASM code:

%include "debug.inc"
extern printf
extern scanf
global ComputeElectricity

;---------------------------------Declare variables-------------------------------------------

segment .data

greet db "This progam will help you analyze direct current circuits configured in parallel.", 10, 0
voltage db "Please enter the voltage of the entire circuit in volts: ", 0
first db "Enter the power consumption of device 1 (watts): ", 0
second db "Enter the power consumption of device 2 (watts): ", 0
third db "Enter the power consumption of device 3 (watts): ", 0
fourth db "Enter the power consumption of device 4 (watts): ", 0
thankyou db "Thank you. The computations have completed with the following results.", 10, 0
circuitV db "Curcuit total voltage: %1.18lf v", 10, 0
deviceNum db "Device number:                1                    2                    3                    4", 10, 0
power db "Power (watts): %1.18lf %1.18lf %1.18lf %1.18lf", 10, 0
current db "Current (amps): %1.18lf %1.18lf %1.18lf %1.18lf", 10, 0
totalCurrent db "Total current in the circuit is %1.18lf amps.", 10, 0
totalPower db "Total power in the circuit is %1.18lf watts.", 10, 0

bye db "The analyzer program will now return total power to the driver.", 10, 0

string db "%s", 0
floatfmt db "%lf", 0
fourfloat db "%1.18lf %1.18lf %1.18lf %1.18lf", 0

;---------------------------------Begin segment of executable code------------------------------

segment .text

dumpstack 20, 10, 10

ComputeElectricity:

;dumpstack 30, 10, 10

;---------------------------------Output greet message------------------------------------------

    mov qword rax, 0
    mov rdi, string 
    mov rsi, greet
    call printf

;---------------------------------Prompt for voltage--------------------------------------------

    mov qword rax, 0
    mov rdi, string
    mov rsi, voltage
    call printf

;---------------------------------Get  voltage--------------------------------------------------

    push qword 0
    mov qword rax, 0
    mov rdi, floatfmt
    mov rsi, rsp
    call scanf
    vbroadcastsd ymm15, [rsp]
    pop rax

;---------------------------------Prompt for watts 1--------------------------------------------

    mov qword rax, 0
    mov rdi, string
    mov rsi, first
    call printf

;---------------------------------Get watts 1---------------------------------------------------

    push qword 0
    mov qword rax, 0
    mov rdi, floatfmt
    mov rsi, rsp
    call scanf

;---------------------------------Prompt for watts 2--------------------------------------------

    mov qword rax, 0
    mov rdi, string
    mov rsi, second         
    call printf 

;---------------------------------Get watts 2---------------------------------------------------

    push qword 0
    mov qword rax, 0
    mov rdi, floatfmt
    mov rsi, rsp
    call scanf

;---------------------------------Prompt for watts 3--------------------------------------------

    mov qword rax, 0
    mov rdi, string
    mov rsi, third      
    call printf 

;---------------------------------Get watts 3---------------------------------------------------

    push qword 0
    mov qword rax, 0
    mov rdi, floatfmt
    mov rsi, rsp
    call scanf

;---------------------------------Prompt for watts 4--------------------------------------------

    mov qword rax, 0
    mov rdi, string
    mov rsi, fourth 
    call printf 

;---------------------------------Get watts 4---------------------------------------------------

    push qword 0
    mov qword rax, 0
    mov rdi, floatfmt
    mov rsi, rsp
    call scanf

    ;dumpstack 50, 10, 10

;---------------------------------Move data into correct registers------------------------------

    vmovupd ymm14, [rsp]                ; move all 4 numbers from the stack to ymm14

    pop rax
    pop rax
    pop rax
    pop rax

    ;dumpstack 55, 10, 10       

    vextractf128 xmm10, ymm14, 0        ; get lower half
    vextractf128 xmm11, ymm14, 1        ; get upper half

;---------------------------------Move data into low xmm registers------------------------------

    movsd xmm1, xmm11                   ; move ymm[128-191] (3rd value) into xmm1
    movhlps xmm0, xmm11                 ; move from highest value from xmm11 to xmm0

    movsd xmm3, xmm10
    movhlps xmm2, xmm10

    ;showymmregisters 999

;---------------------------------Output results-------------------------------------------------

    ;dumpstack 60, 10, 10

    mov rax, 4
    mov rdi, fourfloat
    push qword 0
    call printf
    pop rax

ret
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1 Reply

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by (71.8m points)

The problem is with your stack usage.

First, the ABI docs mandate rsp be 16 byte aligned before a call.

Since a call will push an 8 byte return address on the stack, you need to adjust rsp by a multiple of 16 plus 8 to get back to 16-byte alignment. The 16 * n + 8 is including any push instructions or other changes to RSP, not just sub rsp, 24. This is the immediate cause of the segfault, because printf will use aligned SSE instructions which will fault for unaligned addresses.

If you fix that, your stack is still unbalanced, because you keep pushing values but never pop them. It's hard to understand what you want to do with the stack.

The usual way is to allocate space for the locals in the beginning of your function (the prologue) and free this at the end (epilogue). As discussed above, this amount (including any pushes) should be a multiple of 16 plus 8 because RSP on function entry (after the caller's call) is 8 bytes away from a 16-byte boundary.


In most builds of glibc, printf will only care about 16-byte stack alignment when AL != 0. (Because that means there are FP args, so it dumps all the XMM registers to the stack so it can index them for %f conversions.)

It's still a bug if you call it with a misaligned stack even if it happens to work on your system; a future glibc version could include code that depends on 16-byte stack alignment even without FP args. For example, scanf already does crash on misaligned stacks even with AL=0 on most GNU/Linux distros.


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