I'm working on an ARM target, more specifically a Cortex-M4F microcontroller from ST. When working on such platforms (microcontrollers in general), there's obviously no OS; in order to get a working C/C++ "environment" (moreover, to be standard compliant in regard to initialization of variables) there must be some kind of startup code run at reset that does the minimum setup required before explicitly calling
main. Such startup code, as I hinted, must initialize initialized global and static variables (such as
int foo = 42;at global scope) and zero-out the other globals (such as
int bar; at global scope). Then, if necessary, global "ctors" are called.
On a microcontroller, that simply means that the startup code has to copy data from flash to ram for every initialized global (all in section '.data') and clear the others (all in '.bss'). Because I use GCC, I must supply such a startup code and I happily analyzed several startup codes (and its associated linker script!) bundled with numerous examples I've found on the Internet, all using the same demo board I'm developing on.
As stated, I've seen numerous startup codes, and they initialize globals in different ways, some more efficient in term of space and time than others. But they all have something odd in common: they didn't use
memcpy, resorting instead to hand-written loops to do the job. As it appears natural to me to use standard functions when possible (simple "DRY principle"), I tried the following in lieu of the initial hand-written loops:
/* Initialize .data section */ ldr r0, DATA_LOAD ldr r1, DATA_START ldr r2, DATA_SIZE bl memcpy /* memcpy(DATA_LOAD, DATA_START, DATA_SIZE); */ /* Initialize .bss section */ ldr r0, BSS_START mov r1, #0 ldr r2, BSS_SIZE bl memset /* memset(BSS_START, 0, BSS_SIZE); */
... and it worked perfectly. The space saving are negligible, but it is clearly dead simple now.
So, I thought about it, and I see no reason to do hand-written loops in this case:
memsetare very likely to be linked in the executable anyway, because the programmer would use it directly, or indirectly through another library;
- It is smaller;
- Speed is not a very important factor for startup code, but nevertheless it is likely faster;
- It's nearly impossible to get it wrong.
Any idea why one wouldn't rely on
memset for startup code?