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The OS Dosent display the upper and lower memory for some reason. As you can see here in Detecting Memory Wiki : http://wiki.osdev.org/Detecting_Memory_(x86)#Memory_Map_Via_GRUB , it says

Refer to mbd->mem_lower for conventional memory (e.g. physical addresses ranging between 0 and 640KB) and mbd->mem_upper for high memory (e.g. from 1MB). Both are given in kibibytes

Well i am exactly doing so here:

kernel.c++ :

#include "types.h"
#include "gdt.h"
#include "stdio.h"
#include "serial.h"
#include "mem.h"
#include "idt.h"
#include "timer.h"
#include "isr.h"
#include "kbd.h"
#include "mouse.h"
#include "irq.h"
#include "string.h"
#include "terminal.h"
#include "multiboot.h"
#include "pmm.h"
#include "heap.h"




//Call all class constructor
//for global objects before
//calling the kernel
typedef void (*constructor)();
extern "C" constructor start_ctors;
extern "C" constructor end_ctors;
extern "C" void callConstructors()
{
    for(constructor* i = &start_ctors; i != &end_ctors; i++)
       (*i)();
}




extern "C" void kernelMain(uint32_t kernel_virtual_end,
        uint32_t placeholder,
        uint32_t  kernel_physical_end,
        uint32_t kernel_physical_start, uint32_t  kernel_virtual_start,
        multiboot_info_t multiboot_structure,uint32_t magicnumber
        )
{


       cls();
       printf("******KERNEL INFO********\n");
       printf("KERNEL START VIRTUAL 0x%x\n" , kernel_virtual_start);
       printf("KERNEL START PHYSICAL 0x%x\n" , kernel_physical_start);
       printf("KERNEL END VIRTUAL 0x%x\n" , kernel_virtual_end);
       printf("KERNEL END PHYSICAL 0x%x\n" , kernel_physical_end);
       printf("*************************\n\n");
       printf("********RAM INFO*********\n");
       printf("LOWER MEMORY : %x \n" , (uint32_t)multiboot_structure.mem_lower);
       printf("UPPER MEMORY : %x \n" , (uint32_t)multiboot_structure.mem_upper);
       printf("*************************\n");
       gdt gt;
       IDT idt;
       ISR isr;
       IRQ irq;
       SerialPort sp;
       isr.install_isrs();
       irq.install_irqs();
        Timer timer;
        timer.install_timer();
        KBD kbd;
        kbd.install_kbd_driver();


        MOUSE mouse;
        mouse.install_mouse_driver();
        __asm__ __volatile__ ("sti");




   while(1);
   err:
       while(1);
}

boot.asm:

;Global MultiBoot Kernel Recongnzatio

; setting up the Multiboot header - see GRUB docs for details
MODULEALIGN equ  1<<0             ; align loaded modules on page boundaries
MEMINFO     equ  1<<1             ; provide memory map
FLAGS       equ  MODULEALIGN | MEMINFO  ; this is the Multiboot 'flag' field
MAGIC       equ    0x1BADB002     ; 'magic number' lets bootloader find the header
CHECKSUM    equ -(MAGIC + FLAGS)  ; checksum required


;Putting in object file
section .multiboot

    dd MAGIC
    dd FLAGS
    dd CHECKSUM

section .data

KERNEL_VIRTUAL_BASE equ 0xC0000000                  ; 3GB
KERNEL_PAGE_NUMBER equ (KERNEL_VIRTUAL_BASE >> 22)  ; Page directory index of kernel's 4MB PTE.

align 0x1000
BootPageDirectory:
    ; This page directory entry identity-maps the first 4MB of the 32-bit physical address space.
    ; All bits are clear except the following:
    ; bit 7: PS The kernel page is 4MB.
    ; bit 1: RW The kernel page is read/write.
    ; bit 0: P  The kernel page is present.
    ; This entry must be here -- otherwise the kernel will crash immediately after paging is
    ; enabled because it can't fetch the next instruction! It's ok to unmap this page later.
    dd 0x00000083
    times (KERNEL_PAGE_NUMBER - 1) dd 0                 ; Pages before kernel space.
    ; This page directory entry defines a 4MB page containing the kernel.
    dd 0x00000083
    times (1024 - KERNEL_PAGE_NUMBER - 1) dd 0  ; Pages after the kernel image.


section .text
    ; reserve initial kernel stack space -- that's 16k.
    STACKSIZE equ 0x4000
    global loader
    global BootPageDirectory

        loader:

                    ;Enable Paging START

                    ; NOTE: Until paging is set up, the code must be position-independent and use physical
                    ; addresses, not virtual ones!
                    mov ecx, (BootPageDirectory - KERNEL_VIRTUAL_BASE)
                    mov cr3, ecx                                        ; Load Page Directory Base Register.

                    mov ecx, cr4
                    or ecx, 0x00000010                          ; Set PSE bit in CR4 to enable 4MB pages.
                    mov cr4, ecx

                    mov ecx, cr0
                    or ecx, 0x80000000                          ; Set PG bit in CR0 to enable paging.
                    mov cr0, ecx


                    lea ebx, [higherhalf]
                    jmp ebx ; Absolute Jump

        higherhalf:
            extern kernelMain
            extern callConstructors

                ; Unmap the identity-mapped first 4MB of physical address space. It should not be needed
                ; anymore.
                mov dword [BootPageDirectory], 0
                invlpg [0]

                mov esp, stack + STACKSIZE            ; set up the stack
                call callConstructors



              extern kernel_virtual_start
              extern kernel_virtual_end
              extern kernel_physical_start
              extern kernel_physical_end


                push kernel_virtual_end ; 2
                push 5
                push kernel_virtual_start ; 1
                push kernel_physical_start ; 3
                push kernel_physical_end ; 4
                push eax ; 5
                push ebx ; 6
                call kernelMain


                jmp _eof

        _eof:
             cli
             hlt 
             jmp _eof


section .bss
align 32
stack:
    resb STACKSIZE      ; reserve 16k stack on a uint64_t boundary

When i complete above i get these wierd characters when i print low and high memory (which give you ), as you can see here: https://www.youtube.com/watch?v=nDxSOkKd_NI . You can see full source code here: https://raw.githubusercontent.com/amanuel2/OS_Mirror . Help Would Be Appreciated.

58
  • I see the code above still has that stack issue a warned you about previously. Aug 22, 2016 at 4:04
  • In your video the physical end of memory is the multiboot magic number as well. That seems a bit odd too Aug 22, 2016 at 4:14
  • @MichaelPetch that sometimes happenes.. I dont know why either.
    – amanuel2
    Aug 22, 2016 at 4:27
  • Ok now that error is gone @MichaelPetch . but the Upper and Lower memory still exists . my printf function cant be wrong.. i have done tons of printing and didnt notice a single error.. also when i print the memory as a Hex %x , i get C010CA00
    – amanuel2
    Aug 22, 2016 at 4:35
  • Well clearly the order you pass things to kernelMain is not the same as what boot.asm passes on the stack just prior to calling kernelMain. Also realize that EAX, ECX, and EDX will be clobbered when calling C/C++ function calls. It would appear EAX may be destroyed before you push it as a parameter when calling kernelMain. Parameters pushed on the stack are reverse of the order they appear in the function declaration. Aug 22, 2016 at 4:57

1 Answer 1

-1

Your code seems to have multiple errors -

1. Destruction of register values on calling static object constructors - When you execute the following code -

MOV ESP, stack + STACKSIZE
CALL callConstructors

then you need to save the register values that you are dependent on, and here EAX & EBX are crucial for holding the multiboot-related values. If any other registers are used before the call, they should be saved & you should read your ABI specification for caller/callee saved registers.

2. Parameters pushed in reverse order - This may seem awkward to you that your arguments to

push kernel_virtual_end ; 2
push 5
push kernel_virtual_start ; 1
push kernel_physical_start ; 3
push kernel_physical_end ; 4
push eax ; 5
push ebx ; 6
call kernelMain

call kernelMain are in reverse order, although you see them straight in code. You should have written your assembly-calling code as

push ebx ;6
push eax ; 5
push kernel_physical_end ; 4
push kernel_physical_start ; 3
push kernel_virtual_start ; 1
push 5
push kernel_virtual_end ; 2
call kernelMain

To understand why this is required, you should know that the IA32 stack grows downward. This means the value in ESP (address of processor stack) reduces by 4 (for 32-bit platform, otherwise 8 in 64-bit platform) on every

push <REG>

but in C, the first argument is the one at the lowest-address, or the one which is pushed last. Thus, you must push the arguments in a reverse-fashion in assembly code.

3
  • Maybe because you're answering a year old question? (Btw i didn't downvote your question). And ive been past this by the way lol, check out my OS github.com/amanuel2/BoneOS
    – amanuel2
    Nov 13, 2017 at 0:24
  • Ok. You could also see CircuitKernel at github. Nov 13, 2017 at 12:03
  • Also, you could have answered your own answer. Nov 13, 2017 at 12:14

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