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While coding an assembly code, can I directly use the stack pointer to access function parameters and local variables without saving the base pointer into the stack and setting the new base pointer in the called function?

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In 32-bit (IA-32) and 64-bit code (x86-64) yes, in 16-bit code (8086 ... 80286) no. sp cannot be used in addressing in any way, esp and rsp can.

Wikipedia has a useful list of possible x86 and x86 addressing modes.

Using bp or some other register that can be used for addressing (bx, si, di) is only needed in 16-bit code.

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This does work for local variables. Not using BP doesn't preclude you from subtracting something from SP. – Alexey Frunze Jan 30 '13 at 12:18
@AlexeyFrunze You're right, but I think you can't know precisely how much stack the interrupt[s] will use. If you use the standard mov bp/ebp/rsp, sp/esp/rsp; sub sp/esp/rsp, something, then your local variables are safe independently of the number of interrupts triggered and independently of how much stack the interrupts use. – nrz Jan 30 '13 at 12:22
The first thing you do in the function is subtract from SP the cumulative size of all the local variables in the function. After that ISRs won't be able to overwrite them unless they're buggy or the CPU is buggy. When you're done with the locals, you add their size back to SP. Simple and safe. – Alexey Frunze Jan 30 '13 at 12:27
The stack size itself has nothing to do with using BP or not using BP. You should always have enough stack for ISRs. How much depends on your OS or whatever it is you have in its place. – Alexey Frunze Jan 30 '13 at 12:28
I don't think this part is necessary, it wasn't asked about. Further, there are 3 other registers that can be used instead of BP: BX, SI, DI. So, even BP may not be needed depending on how the code is structured. – Alexey Frunze Jan 30 '13 at 13:07

Yes, in 32 bit and 64 bit assembly you can use the stack pointer with ESP and RSP respectively to access local variables. The reason for using a base stack pointer to access variables is that it's always at a constant location versus the stack pointer which may change location on a push or pop. This would cause you to keep track of how many pushes and pops you do and adjust the variables location accordingly. Look at this for an example: (This is x64)

sub rsp, 16   ; Align stack

mov DWORD PTR[rsp], 4
mov DWORD PTR[rsp + 4], 20
mov QWORD PTR[rsp + 8], 175

push 25     ; Push 25 to the stack.
push 50     ; Push 8 to the stack.

Now if later in your code you wanted to access the variables you placed into the stack at the beginning, their locations have changed because of the push statement. A push statement is equivalent to:

sub rsp, 8
mov QWORD PTR[rsp], 45

If you tried to access the variables as you placed them in the stack, you will get the wrong number.

mov rax, QWORD PTR[rsp + 8]   ; This is not 175, since you did two pushes
                              ; and moved the stack pointer back another 16 bytes.
                              ; You will get 25 as the answer. 

Now your going to have to keep track manually of how many pushes you've done and adjust the variables location to access them. You can see how much of a problem this is going to cause when your project gets larger.

Now if you use a stack base pointer to access variables it's location is constant and you can access them at the same location everytime (As long as you don't modify the base pointer itself)

push rbp      ; Save the old value of RBP.
mov rbp, rsp
sub rsp, 16   ; Align stack

mov DWORD PTR[rbp - 4], 4
mov DWORD PTR[rbp - 8], 20
mov QWORD PTR[rbp - 16], 175

push 25     ; Push 25 to the stack.
push 50     ; Push 8 to the stack.

mov eax, DWORD PTR[rbp - 8]  ; This will give you 20 because the
                             ; stack base pointer's location is constant to
                             ; the variables in the stack. The push statements
                             ; only affect the stack pointers location, not the
                             ; base pointer.
mov rsp, rbp
pop rbp    ; After you pop the previous pushed values.
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You can do that if you use ESP or RSP, but not SP because there's no SP-relative memory addressing, only ESP-relative and RSP-relative.

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Also... [ebp + 8] will store the 8 as a signed byte. Due to an oddity in the instruction encoding, there's no signed byte form for [esp + 8] - it will take four bytes to store the 8. I suspect (guessing!) that the situation is worse for rsp. – Frank Kotler Jan 30 '13 at 21:38
@FrankKotler Displacements in ModR/M instructions are still limited to 32 bits in 64-bit mode. Only a handful of instructions like mov reg, imm have 64-bit integers encoded in them. – Alexey Frunze Jan 30 '13 at 21:51

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