Author Topic: Section .bss  (Read 11963 times)

Offline Medussa

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Section .bss
« on: November 13, 2013, 07:15:49 PM »
hello  ;) i want to know if there is any chance to make a buffer with dynamic amount of bytes

Thanks

Offline encryptor256

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Re: Section .bss
« Reply #1 on: November 13, 2013, 07:23:20 PM »
Hi!

You can allocate memory using C function, like malloc.

Demo:
Code: [Select]
section .bss use32
      pointer: resd 1


section .code use32

; ...

      push dword 2048
      call malloc
      cmp eax,dword (0)
      jne .gotMemory
; ...
.gotMemory:
      mov dword [pointer],eax

; use your pointer

Example code allocates 2048 bytes of mem.

Encryptor256!
« Last Edit: November 13, 2013, 07:26:08 PM by encryptor256 »
Encryptor256's Investigation \ Research Department.

Offline Rob Neff

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Re: Section .bss
« Reply #2 on: November 13, 2013, 07:29:12 PM »
The .bss section is used to contain uninitialized data.  The sizes of data and buffers contained there will not make the on-disk size of your executable larger as the memory is allocated by the OS when your program is loaded.

However, you mention dynamically sized memory buffers.  This is the function of the heap routines which you can call into the OS to obtain or use such library functions as malloc() and friends .  They will provide you dynamic memory allocations from the free heap space that you can then read from and write to.

Offline encryptor256

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Re: Section .bss
« Reply #3 on: November 15, 2013, 07:13:05 PM »
Hi!

Right now, im programming something, so,
few seconds ago, i created a procedure that allocates dynamic (zero) buffer.

x64

; -----------------------------------------------------------;
;
; Procedure: sysAllocateMemory
;
; Usage:
;           mov rcx,qword (2048)
;           call sysAllocateMemory
;           jc .quitError
;
;           mov rcx,rax
;           call free
;
;
; Returns a pointer to buffer into RAX.
; Set's carry flag on error.
; Clear's carry flag on success.
;
; -----------------------------------------------------------;

Code: [Select]
sysAllocateMemory:

      ; Check incoming argument
      cmp rcx,qword (0)
      jg .goodArg
      stc
      ret
.goodArg:

      ; Create stack
      push rbp
      mov rbp,rsp
      push rbx
      lea rsp,[rsp-(8*5)]

      ; Save "byte count" into RBX
      mov rbx,rcx

      ; Allocate memory
      ; rcx remains set
      call malloc

      ; Check for error
      cmp rax,qword (0)
      jne .gotMemory
      stc
      jmp .quit

.gotMemory:

      ; Restore "byte count" into r8
      mov r8,rbx

      ; Save mem pointer into RBX
      mov rbx,rax

      ; Init memory
      mov rcx,rax
      xor rdx,rdx
      ; r8 remains set
      call memset

      ; Set return value, restore mem pointer from RBX
      mov rax,rbx

      ; Set success
      clc

      ; Clean stack n quit
.quit:
      lea rsp,[rsp+(8*5)]
      pop rbx
      pop rbp
      ret

Byte!
Encryptor256!!!
Encryptor256's Investigation \ Research Department.

Offline Frank Kotler

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Re: Section .bss
« Reply #4 on: November 15, 2013, 08:36:36 PM »
Neat! Thanks, Encryptor256! I think Medussa is using Linux. The 32-bit version should work pretty much the same - push the size and call malloc. The 64-bit version, however... at a minimum, we need to use rdi for the size, not rcx. Stack management may differ, too. Bless their little black hearts that they did that to us!

We also have the option of sys_brk or sys_mmap (sys_mmap2 ?) to do it with system calls. We can get as big a buffer as we want in section .bss, but it'll be a fixed size - determined at assemble-time, not dynamic. Depends on what you need to do...

Best,
Frank