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I'm working on a C project using IAR Embedded Workbench IDE and the TI CC2540 Bluetooth Low Energy 8051 chip.

I seem to be getting tons of XData stack and Idata stack overflows while working on the project, and it has been very difficult for me to determine where the overflows are coming from. I am working with a significant amount of strings via the UART ports.

I was wondering if anyone had any tips on how to ensure that I am deallocating memory after I've allocated, and ensure that I stay within the boundaries of my stack and heap.

Thanks

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Know your stack size, check the code to see if you're using any non-static large arrays or structs in your function, which is likely to cause stack overflow. –  Mine Nov 6 '12 at 6:25
    
Are you using the stack view to monitor your stack usage? It will tell you which items are on your stack, and how full it is. –  JesperE Nov 6 '12 at 8:14
    
so right now, I have a large struct that I dynamically alloc and dealloc as necessary and passing as a pointer. I never really have more than one of these structs created at a time. The struct also contains a pointer to a string which I also alloc and dealloc. Is there a difference between statically creating this struct or not? I can't see how you can have a static declaration of this struct and also pass it by reference. –  Jonathan Nov 6 '12 at 14:17
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2 Answers

Well, in order to avoid stack overflow you should avoid the following things:

1)Recursion (it's not a good idea to use recursion in embedded systems)

2)Try to avoid dynamic allocation. In most cases you do not need it.

In automotive, there are several rules for programming ECUs called the MISRA rules which advise against the use of dynamically allocated memory and recursion. Here's a link

IAR Embedded Workbench is one of the few IDEs that have supports MISRA C. Try to enable the MISRA C option (this may indicate where your problems lay). See how it's done here.

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I agree with you about dynamic allocation. I removed all instances where arrays were allocated dynamically and the problems seem to have minimized a bit –  Jonathan Nov 20 '12 at 13:47
    
You can also try to modify the stack segment size from your linker. Search your linker file and modify the length of STACK_SEGMENT (from what I recall). This way, you will probably have no more stack overflow problems. –  IsKernel Nov 21 '12 at 16:35
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You can change the stack and heap sizes in your linker configuration (.icf) file. Project-> Options-> Linker-> Config. Minor changes can be made built-in editor but it is so pathetic that you should just use a text editor.

There you'll see something like:

define block CSTACK with alignment = 8, size = 0x0400 {};
define block HEAP with alignment = 8, size = 0x0200 {};
place in MY_RAM_region {block CSTACK, block HEAP};

and you can change as appropriate. I think it is ok to set HEAP size to zero. Then all malloc calls will fail at runtime, but the cool kids don't use dynamic memory in embedded systems anyway.

How to estimate the stack size? The EWB manual suggests adding this to your .icf:

check that size(block CSTACK) >= 
      maxstack("Program Entry") + totalstack("interrupt") + 100;

This is suppose to throw an error if CSTACK is too small (100 is just a fudge factor.) In my case the linker just threw the error "I can't figure out your stack size".

IAR's .icf format reminds me of AppleScript (not in a good way).

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