I know that call
and ret
will modify the value of esp
and that push
and pop
have a number of variants, but are there other instructions that will affect the stack pointer ?
2 Answers
The following instructions modify the stack pointer as an implicit operand1:
call
enter
int n/into/int 3
iret/iretd
leave
pop
push
ret/retf
sysenter
sysexit
pusha
popa
pushf/pushfd/pushfq
popf/popfd/popfq
vmlaunch/vmresume
eexit
Every instruction that can write an arbitrary general-purpose regiser (like imul reg, r/m32, imm8
or add / sub) can write ESP if you want, but it's only interesting to list one where the stack pointer is an operand even if you don't mention it explicitly. I leave to you the burden of telling primary and side effects apart.
Keep in mind that any instruction capable of generating an exception can potentially modify the stack pointer, at least the kernel stack pointer if not user-space.
I've not considered such instructions in order to avoid trivializing your question.
Those are all the instructions I can find by searching the Intel manuals at the time of creation of this answer.
While I did my best scrutinizing the manuals I wouldn't swear to that list.
1 Either SP
, ESP
or RSP
.
-
Listing
pusha/pushad
like that is odd becausepusha
(at least for NASM and my insref based on it) can, depending on the code segment's default bitness, mean eitherpushaw
orpushad
(whichever form it is handled as when occurring withoutosize
prefix). Your choice of wording appears to default to 16-bit CS wherepusha
meanspushaw
.– ecmOct 21, 2021 at 11:36 -
1@ecm MASM also does that IIRC. I use the mnemonics Intel uses in their manuals. Oct 21, 2021 at 14:54
-
Re: the footnote: SP vs. ESP vs. RSP is determined by the stack address size in the SS descriptor, right? I 64-bit is the only option in 64-bit mode, but in protected mode you can have 16-bit address/operand size as the default with a 32-bit stack-address size, I think. (I guess that's getting a bit off topic for this question.) Oct 21, 2021 at 23:18
The push(a/ad/f)
and pop(a/ad/f)
instruction groups are modifying the stack pointer (e)sp
. Interrupt calls int
also modify it. The instruction call
will push the return address to the stack and ret
removes it. In the form of ret NUMBER
additionally that number of bytes are removed from the stack to clean it.
Of course you can use (e)sp
in other instructions, like mov
or arithmetic instructions like add
or sub
. It will be represented in the REG, R/M, or BASE fields in the opcode-byte, modR/M-byte, and/or sib-byte.
-
5
ENTER
,LEAVE
are modifying stack pointer too, but it's not exactly "side effect", more like the "main effect".– Ped7gMay 23, 2017 at 21:19 -
1@Ped7g: I think the point is having [ER]SP as an implicit operand, whether it's the main effect or not. ESP is one of the 8 general-purpose registers, so every instruction that can write a GPR can modify it, including weird examples like
imul esp, edx, 1
to set ESP = EDX in a convoluted way. Oct 21, 2021 at 22:30 -
@PeterCordes: I once wrote some code that used SP as a scribble register. Clearly interrupts must be disabled to do that.– JoshuaOct 21, 2021 at 22:57
INT
andINTO
andIRET
and many others that control that register directly as with other registers, such asADD ESP,8
.ESP ←
?