I'm new to assembly , and I'm really confused , i read several articles , and books but i couldn't understand what does this mean

in assembly x86 we have different registers each register has specific size , example

EAX : 32bit

Q1- Well what does really mean 32bit ? does it mean , i can only store a value of 32bit size ?

if Yes

Q2 - If i have very long string how i can mov this string to my register ?

Q3 - i want to know exactly when i should push and pop from stack ?

Q4 i can store my values in my registers without stack ,Why we have a stack ? to solve which problem ?

if we take example here is my C code :


    printf("Hello World");


Here we pass Hello world to the printf function , and i can pass anythings big or small no matter , if i translate this code to assembly , first things i have to mov system call args to the registers and then call the system call and then int 0x80 . how about if instate of hello world i have a paragraph ?

Q5 - also when i mov any data to registers , how i can choose which register i should mov the data on it ?

Thanks .

closed as too broad by Hans Passant, Michael Petch, Peter Cordes, Ross Ridge, Cody Gray Aug 21 '16 at 17:41

Please edit the question to limit it to a specific problem with enough detail to identify an adequate answer. Avoid asking multiple distinct questions at once. See the How to Ask page for help clarifying this question. If this question can be reworded to fit the rules in the help center, please edit the question.

  • 1
    Read some more, you'll figure it out. Most of what you asked is "not answerable", it's just too confused or based on incorrect premises to do anything with. But yes, eax is indeed exactly 32 bits, always. Strings are usually passed referred to by their starting address. – harold Aug 20 '16 at 16:40
  • Q1. Yes. Q2. Piece by piece if you change it, as a pointer if you pass it around. Q3. When ever you need it. E.g. you want to use a register that must be restored at the end: push it, use it, pop it. Q4. Yes. We need to store an ubound number of items, interacting always with the last one. Function calls. Paragraph char (?) is not different from 'H' char. Q5 Make a guess, use the first register that come in mind. As you further develop the code, refine that choice to minimize your target metric (speed, spill/fill, size, complexity). – Margaret Bloom Aug 20 '16 at 17:02
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    possible duplicate of stackoverflow.com/questions/1773249/assembly-and-system-calls/… re: passing strings by pointer. I know it's tempting to ask 5 things in one question, but they're not all even related. e.g. Q5 is nothing to do with the others. See the x86 tag wiki for lots of info. – Peter Cordes Aug 20 '16 at 17:42
  • I disagree with the "too broad" close recs. These are pretty sensible questions that a person with only high level language experience will often ask when seeing assembly for the first time, especially the fragmented way it's usually presented in Internet sources. I wouldn't close this question. There are short answers that will get a new assembly programmer over the hump and on to further progress. @JohnBurger did fine. – Gene Aug 21 '16 at 16:24
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    Aside from the fact that you'd literally need to write a book in order to address all of the confusion, there are five different questions being asked here. The rule is one question per question. This is a textbook case of "too broad" (pardon the pun). – Cody Gray Aug 21 '16 at 17:42

Registers store numbers. That's it. That's all they do. It's how you, as the programmer, use and interpret those numbers that makes the program work.

  • Each register is 8, 16, 32 or 64 bits in size. They can store either signed or unsigned numbers - that is, whether their top bit is interpreted as a sign bit, or just as part of the number. Note that those numbers could be the address of a variable in memory - signed-ness isn't a factor then.

  • You can add, subtract or do many other things to numbers.
    Put one in one register, another in another, use the ADD or SUB instruction, and you get a result:

            MOV  EAX, 0x12345678
            MOV  EBX, 0x12345677
            SUB  EAX, EBX        ; EAX now holds the value 1
  • You can point to values in memory. Store the address of a variable in a register, and you can read and write those values:

    xValue  DD   42       ; Save xValue here
            MOV  EAX, [xValue]         ; Get the current xValue into EAX
            INC  EAX                   ; Add one to it
            MOV  [xValue], EAX         ; Save it back
            INC  [xValue]              ; One line to do the above three
            MOV  EBX, OFFSET xValue    ; Point to xValue with EBX
            MOV  EAX, [EBX]            ; Get the current value
            INC  EAX                   ; Add one to it
            MOV  [EBX], EAX            ; Save it back
            INC DWORD PTR [EBX]        ; One line to do the above three
  • How do you pass strings?
    You don't. You pass the memory address of the string, and the receiving function just knows that the value in the register is the address of the string in memory.

  • Why do you PUSH and POP from the stack?

    • There are only a limited number of registers, so to do processes that have a lot of different values you need to store some in memory, swapping values in and out of registers to work on them.
    • You can use reserved areas of memory for each variable; or you can save the values temporarily onto the stack, rather than reserving specific locations in memory for them.
    • Note that if you have a recursive function, having reserved areas of memory won't work - each time through the recursion you need new memory for the next iteration. The stack is perfect for this.
    • Some functions expect their parameters to be stored on the stack, rather than in global variables.
  • How do you know which register to use?
    It depends:

    • If you're writing the code, you can use any registers you like - except SP/ESP/RSP, which is reserved for pointing to the stack!
      • There are some architecture conventions:
        • If you're going to use the REP or LOOP instructions, then you need to use CX/ECX/RCX to hold the count;
        • If you're going to use the LODS, STOS, CMPS and MOVS instructions, then you need to use AL/AX/EAX/RAX, SI/ESI/RSI and/or DI/EDI/RDI.
      • There are some historic conventions, but these are no longer necessary in 32- and 64-bit programming:
        • BX, SI, DI and BP were the only registers that could index memory, so that's what they were used for;
    • If you didn't write the code that you're calling, then it should specify (or use a common standard) which registers hold which parameters, and which register(s) it uses for the return value(s).
  • You are really amazing , Thank you . the picture become clear for me now . – Mr.Mark Aug 22 '16 at 15:28

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