While running my program on a microchip ICD3 device, the exception handling looks weird. The program will stop response while exception occurs. While checking the code, I noticed that the default-general-exception-handler.c will create an infinite loop. It is really confusing because I cannot know where the error occurs and what is the reason. Does that mean Microchip doesn't support exception handling? Or is there a way to read the error message?

infinite loop:

---  \home\c11067\work\C32\builds\pic32-microchip-release-1.12-20101221-rc2-20101221\pic32-libs\libc\stubs\default-general-exception-handler.c
9D00DD28  1000FFFF   beq         zero,zero,0x9d00dd28
9D00DD2C  00000000   nop        

By defining a _general_exception_handler, it works!

// declared static in case exception condition would prevent
// auto variable being created
static enum {
    EXCEP_IRQ = 0,          // interrupt
    EXCEP_AdEL = 4,         // address error exception (load or ifetch)
    EXCEP_AdES,             // address error exception (store)
    EXCEP_IBE,              // bus error (ifetch)
    EXCEP_DBE,              // bus error (load/store)
    EXCEP_Sys,              // syscall
    EXCEP_Bp,               // breakpoint
    EXCEP_RI,               // reserved instruction
    EXCEP_CpU,              // coprocessor unusable
    EXCEP_Overflow,         // arithmetic overflow
    EXCEP_Trap,             // trap (possible divide by zero)
    EXCEP_IS1 = 16,         // implementation specfic 1
    EXCEP_CEU,              // CorExtend Unuseable
    EXCEP_C2E               // coprocessor 2
} _excep_code;

static unsigned int _epc_code;
static unsigned int _excep_addr;

// this function overrides the normal _weak_ generic handler
void _general_exception_handler(void)
    asm volatile("mfc0 %0,$13" : "=r" (_excep_code));
    asm volatile("mfc0 %0,$14" : "=r" (_excep_addr));

    _excep_code = (_excep_code & 0x0000007C) >> 2;

    while (1) {
        // Examine _excep_code to identify the type of exception
        // Examine _excep_addr to find the address that caused the exception

On most microcontrollers, there isn't any code beyond what you put there. In most cases, if an exception occurs and you haven't defined a handler for it, the processor would have no idea how to put up a "Sorry, a system error occurred" dialog box. Using two bytes for a "branch-to-self" instruction is enough to yield a predictable response to an exception; without particular knowledge of any better course of action, a branch-to-self or forced reset is probably as good a response as anything.

PS--Some compilers for various platforms will omit vectors for unused interrupts or exceptions; if such exceptions occur unexpectedly, weird and bizarre things can happen. Some compilers will produce code that will force an immediate reset (note that if watchdog timer is enabled, a jump-to-self will cause a reset, eventually). Some compilers generate an immediate return-from-interrupt (which on some CPU's may be useless, and on others can cause bad behavior). My favorite pattern would be to have all unused interrupts make a call (not a branch) to an UnexpectedInterrupt label, which in the absence of any explicit definition will point to a branch-to-self instruction. If one does that, an UnexpectedInterrupt handler can pop the stack and record what type of unexpected interrupt occurred. I've not seen such a pattern, though, outside my own manually-generated interrupt vector tables.


Just as a heads-up for further PIC32 exception debugging, the exception codes and all the bits in the 'CAUSE' register (the value you're reading into your _excep_code variable before and-ing all the other bits away) are defined in:

PIC32 Family Reference Manual, Section 2.12.9 CAUSE Register http://ww1.microchip.com/downloads/en/DeviceDoc/61113C.pdf

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