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How could I determine the current stack and heap size of a running C program on an embedded system? Also, how could I discover the maximum stack and heap sizes that my embedded system will allow? I thought about linearly calling malloc() with an increasing size until it fails to find the heap size, however I am more interested in the size of the stack.

I am using an mbed NXP LPC1768, and I am using an offline compiler developed on GitHub called gcc4mbed.

Any better ideas? All help is greatly appreciated!

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1  
Read the specs ? – wildplasser Jul 28 '12 at 12:58
2  
this will all depend on the hardware, C library, and compiler toolchain, so, as told, read the hardware specs. – tbert Jul 28 '12 at 13:00
1  
What about programatically finding this information out? – CodeKingPlusPlus Jul 28 '12 at 13:03
    
What is your hardware and software system?? How do you compile? – Basile Starynkevitch Jul 28 '12 at 13:18
    
I am using an mbed NXP LPC1768, and I am using an offline compiler developed on GitHub called gcc4mbed. – CodeKingPlusPlus Jul 28 '12 at 13:39
up vote 10 down vote accepted

For this look at your linker script, this will define how much space you have allocated to each.

For stack size usage do this:

At startup (before C main()) during initialization of memory, init all your stack bytes to known values such as 0xAA, or 0xCD. Run your program, at any point you can stop and see how many magic values you have left. If you don't see any magic values then you have overflowed your stack and weirdness may start to happen.

At runtime you can also check the last 4 bytes or so (maybe last two words, this is really up to you). If they don't match your magic value then force a reset. This only works if your system is well behaved on reset and it is best if it starts up quick and isn't doing something "real time" or mission critical.

Here's a really helpful whitepaper from IAR on the subject.

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Thanks for the edit Kevin – Josh Petitt Jul 29 '12 at 3:07
    
NP; I too think that the Google redirect URLs are unsightly. – Kevin Vermeer Jul 29 '12 at 23:27

A crude way of measuring at runtime the current stack size is to declare

 static void* mainsp;

then start your main with e.g:

 int main(int argc, char**argv) {
    int here;
    mainsp = (void*) &here;

then inside some leaf routine, when the call stack is deep enough, do something similar to

    int local;
    printf ("stack size = %ld\n", 
            (long) ((intptr_t) &local - (intptr_t) mainsp));

Statically estimating from full source code of an application the required stack size is in general undecidable (think of recursion, function pointers), and in practice very difficult (even on a severely restricted class of applications). Look into Couverture. You might also consider customizing GCC with MELT for such purposes, but that won't be easy and will give you over-approximations.

If compiling with GCC, you might use the return address bultins to query the stack frame pointer at run time. On some architectures it is not available with some optimization flags.

As to how heap and stack spaces are distributed, this is system dependent. You might parse /proc/self/maps file on Linux.

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I suppose your &sp is actually &here. – ouah Jul 28 '12 at 13:10
    
Thanks, corrected! – Basile Starynkevitch Jul 28 '12 at 13:11
3  
You're using the fact that a function-scope variable is declared on the stack, so its address is the current stack pointer, but you can also do this with GCC's explicit register variables extension and write char *stack_ptr asm ("sp"); to get an alias to the current stack pointer. On an ARM Cortex-M3 like the mbed, 'sp' is the name of the stack pointer, but you'd need to change this for other architectures. This would be especially useful if you've got lots of local variables. – Kevin Vermeer Jul 28 '12 at 18:52
    
You also assume that there is a unified stack for data and function return addresses. I've worked on one nasty uP many years ago where this was not the case! – marko Aug 6 '12 at 14:02

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