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[I'm confused about the CPU registers and I haven't found any truly clear and coherent explanation of them across the whole internet. If anyone has a link to something useful I'd really appreciate it if you'd post it in a comment or answer.]

The primary reason I'm here now is because I have been looking at sample NASM programs in a [thus far vain] attempt to learn the language. The program always ends by placing a system call code in eax and then calling int 0x80 (which I would love if someone could explain as well). However, from what I understand, eax is a 32 bit register - why do you need 32 bits to store system calls (I'm sure there aren't 2^32 worth). Also, sometimes I see other values and strings moved into eax during the program itself. Does that mean eax only has a special use when you finally want to perform a system call but for the rest of the time you can do with it as you please?

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Read tldp.org/HOWTO/Assembly-HOWTO –  Basile Starynkevitch Feb 26 '13 at 6:45
@BasileStarynkevitch What is useful at this link? –  Imray Feb 26 '13 at 13:37
In Linux on i?86, system calls used to be called by stashing the call number in eax and causing an interrupt 0x80. Windows does it differently, current Linux uses the sysenter instruction. So this is intimately operating system related. –  vonbrand Feb 26 '13 at 20:24
On most modern 32-bit architectures, using sizes other than the native register size may cause inefficient. That why temporaries, except very large arrays that may not fit in cache, should be 32-bit. On x86_64 some operations remain 32-bit mostly for memory bandwidth preserving –  Lưu Vĩnh Phúc Dec 18 '13 at 0:42

2 Answers 2

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All bits of eax are used because that's how the system call interface is implemented. It's true there aren't 232 system calls, not even 216. But that's how it is. It allows for easy extension of the set of the system calls. You don't need to think hard about it, just accept it as a fact and live on.

eax is a general purpose register and you can do with it anything you please. The fact that it's used to contain the system call ID is just an established convention and nothing else. eax is not anyhow forbidden for other uses.

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But I'm bothered by why we need such a large register to store system calls, why can't there be a special 8 bit system call register? –  Imray Feb 26 '13 at 13:36
The 80386 CPU appeared long before Linux, in 1986, so the CPU couldn't "know" about Linux and reserve a special register for it. Further, parameters are typically passed as an integral number of machine words (in the registers or on the stack) and truncating and zero-extending an 8-bit integer multiple times in the process of handling of system call requests is probably a not a very reasonable thing to do (you'd need more instructions and CPU cycles for that). Think about it... If the system call ID is used to index a table containing pointers to functions, the index has to be 32-bit anyway. –  Alexey Frunze Feb 26 '13 at 13:44
...the index has to be 32-bit because the CPU does not support accessing memory operands indirectly using 8-bit registers, e.g. AL. It does support 16-bit registers here, but the resulting address is then limited to 16 bits that limits the location of the table of pointers to only the lower 64K of the address space, and yet you have 4G of it in 32-bit mode. So, 32-bit registers are a natural choice. –  Alexey Frunze Feb 26 '13 at 13:49
Thanks for great explanation - now I understand. –  Imray Feb 26 '13 at 18:06

eax is a general purpose register, you can put whatever you want in it. int 0x80 is the interrupt for a system call... that interrupt looks at the value in eax and calls that system routine.

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