Update 2016-12 There is now also a minimal example for this behavior: https://community.nxp.com/message/862676

I'm using a ARM Cortex M4 with freertos using freescales freedom Kinetis IDE (gnu arm toolchain). Problem is that

try {
    throw 4; // old scenario also not working: throw std::runtime_error("wut");
} catch (...) {

results in a halted CPU and code after the try or (when some is added) in the catch handler is not executed.

And assembly can be found here: https://gist.github.com/Superlokkus/3c4201893b4c51e154e2a0afdf78fef0

I ASSUMED that this results in an SVC interrupt, I'm sorry I got that wrong, Freertos tricked me into this, because when I throw something it halts in DefaultISR.

The throw indeeds jump to __cxa_throw then from there to ___Unwind_RaiseException __gnu_Unwind_RaiseException __cxa_begin_catch> <_ZSt9terminatev> So it looks like std::terminate is called, but the catch all block should not allow this. Or is my assumption wrong and this behavior is because the gcc C++ runtime exception support is a stub which always calls terminate?!

Update 2016-09: Because I saw that rand() tries to use malloc(), I also defined a working malloc()/freeRTOS function and et voilà: __cxa_allocate_exception uses malloc (I wonder how the toolchain expects me to handle a bad_alloc case). So now, it still crashes, but after exception allocation (I think): The excecution path is :

(throwing function after exception allocation)
   ...                        //(some intructions in __cxa_throw)
   __cxa_begin_catch  //I guess something went wrong here
    _ZSt9terminatev // Immediately after __cxa_begin_catch
         00016dfc: push {r3, lr}
         00016dfe: blx r0  //Goes directly to WDOG_EWM_IRQHandler or hard fault handler
         00016e00: bl 0x194ac <abort>

If you wonder or it might help: My debuggers say its the WDOG_EWM_IRQHandler I crash into, if I not define the hard_fault handler and an own default handler.

So I guess something went wrong in the stack unwinding, because I go thru some symbols with "finished stack unwinding" in the name in _throw, but I didn't catched the break point I set in a destructor of an object which should have been cleaned up. And that seems to motivate __cxa_begin_catch to call abort or something.

( Kinetis Design Studio 3.2.0. with the GNU ARM C/C++ Cross Compiler Version: for our FRDM-KV31F)

  • IMHO, for embedded device, c++ exception mechanism is a little bit to complex. Also FreeRTOS use SVC interruption, so if you do that, you have to be aware of what you do to avoid breaking FreeRTOS
    – Garf365
    Commented Sep 13, 2016 at 11:22
  • 1
    Are you talking about C++ exceptions or ARM core exceptions?
    – rjp
    Commented Sep 13, 2016 at 13:42
  • 2
    I don't know what gcc is expecting to have called from there, but you're going to have to insert your own SVC_Handler above FreeRTOS' that can check why it got there. SVC takes a parameter that ends up in R0 IIRC, and FreeRTOS by default calls SVC #0, so depending on what gcc is inserting for the SVC parameter you may be able to distinguish the source. It will block RTOS interrupts as you fear though.
    – rjp
    Commented Sep 13, 2016 at 14:38
  • 1
    All I can look at is how IAR EWARM handles it, and it handles it without using processor exceptions. Could you post the disassembly of an MCVE, please?
    – rjp
    Commented Sep 13, 2016 at 15:01
  • 1
    Do you have your watchdog setup and are you servicing it appropriately? I've also had an issue where I was dropping into the wrong vector, so if the vector you're dropping into doesn't make sense, double check that you have the alignment on your vector table correct.
    – rjp
    Commented Sep 22, 2016 at 13:35

3 Answers 3


By fault, most of your exceptions will execute the default handler, so the first thing you need to do is determine which exception is actually executing. You can see the "Determining Which Exception Handler is Executing" section on the following page: http://www.freertos.org/Debugging-Hard-Faults-On-Cortex-M-Microcontrollers.html

I would guess, since you are not using a peripheral in your code, that it will be a fault handler, probably the hard fault. The same page (see link above) gives instructions on debugging that too.

Other than that - ensure you do the normal FreeRTOS debug things, like ensure you have configASSERT() defined, and that you have stack overflow checking on. Info on those topics is found on this page: http://www.freertos.org/FAQHelp.html

  • It's the hard fault, since it stops there after throwing after I define an own HardFault_Handler. My biggest question at the moment is: Is C++ exception handling supposed to work out of the box, with freeRTOS or without an OS?! I'm asking since this is a brown field project I have been thrown into, and if you say "Yeah it should work, so it looks like wrong interrupt management" I know where to look. Commented Sep 15, 2016 at 13:31
  • 1
    @Superlokkus It should be work with or without freeRTOS. I think if you get a hard Fault it's probably because you don't catch a exception.... Or a bad pointer somewhere
    – Garf365
    Commented Sep 23, 2016 at 7:40
  • Thx @Garf365 !! Commented Sep 23, 2016 at 9:18

From the RTOS side of things, C++ exceptions are just a glorified jump. As long as they're jumping from one bit of your code to another, they don't interfere with the RTOS. So you can write a try { } catch(std::exception) { }.

When there is no C++ handler, the RTOS indeed will have to step in as your C++ code stops running.

  • You will never get to the catch part, since at this moment, whenever an C++ exception gets thrown, regardless if it's catched or not, an arm hardware exception is invoked but looks to be handled by the default excpetion handler, which means the CPU just halts, which it does actually. Commented Sep 13, 2016 at 14:19
  • @Superlokkus: Do you have a source for that claim? Because AFAICT, GCC follows the Itanium ABI on ARM and that does not use hardware exceptions.
    – MSalters
    Commented Sep 13, 2016 at 14:29
  • 2
    Processor exceptions != C++ Exceptions. This was why I asked earlier.
    – rjp
    Commented Sep 13, 2016 at 14:42
  • 1
    Here is a page that has some information about the Itanium ABI that @MSalters mentioned: wiki.osdev.org/C++_Exception_Support
    – rjp
    Commented Sep 13, 2016 at 14:47
  • 1
    @Superlokkus the link you posted was just the processor exception model and not a source that gcc isn't using the Itanium ABI for exceptions. Post some disassembly that shows your throw statement resulting in an svc instruction, and if it's not that, show us what it does result in.
    – rjp
    Commented Sep 13, 2016 at 14:52

After successfully creating a blank project with default settings in freescales Kinetis, and asking the same problem on the nxp community, Alice_Yang , an NXP engineer (assuming by the NXP badge), told me the answer:

By default new projects link to newlib-nano which has it exception support disabled.

The libstdc++ built along with newlib-nano have exception handling disabled.

So the solution is to link simply to newlib. This can be done by simply removing the line "-specs=nano.specs" in "other linker flags" and also make sure the check box which adds the same option is also disabled. Then everything works as expected. Only the code increased by 27 kB in ROM/text size and 2kB in RAM/data. enter image description here

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