I am new to ARMv8 architecture. I have following basic questions on my mind:

  1. How do I know what is the current execution mode AArch32 or AArch64? Should I read CPSR or SPSR to ascertain this?

  2. What is the current Exception level, EL0/1/2/3?

  3. Once an exception comes, can i read any register to determine whether I am in Serror/Synchronous/IRQ/FIQ exception handler.


  • 2
    "How do I know what is the current execution mode AArch32 or AArch64?" - I figure if the the code trying to check the mode is compiled for 64-bit, the mode is 64-bit; if it's compiled for 32-bit the mode is 32-bit. – JimmyB Aug 3 '15 at 12:59
  1. The assembly instructions and their binary encoding are entirely different for 32 and 64 bit. So the information what mode you are currently in is something that you/ the compiler already needs to know during compilation. checking for them at runtime doesn't make sense. For C, C++ checking can be done at compile time (#ifdef) through compiler provided macros like the ones provided by armclang: __aarch64__ for 64 bit, __arm__ for 32 bit
  2. depends on the execution mode:
    • aarch32: MRS <Rn>, CPSR read the current state into register number n. Then extract bits 3:0 that contain the current mode.
    • aarch64: MRS <Xn>, CurrentEL read the current EL into register number n
  3. short answer: you can't. long answer: the assumption is that by the structure of the code and the state of any user defined variables, you already know what you are doing. i.e. whether you came to a position in code through regular code or through an exception.
  • For the 2nd point I am able to find the current mode when I am in EL1, EL2, or EL3 mode by reading through CPSR register. However, if I am in EL0 mode reading cpsr causes exception. – chetan May 4 '16 at 9:00
  • @chetan: "if I am in EL0 mode reading cpsr causes exception." AFAIK, that of course is the whole point! EL0 is the unprivileged 'app' mode; apps cannot/must not have access to info like this..So, my understanding is, write a kernel module to read register values. It should work as it runs in EL1, if not EL2. – kaiwan Jul 27 '17 at 6:30

aarch64 C code:

register uint64_t x0 __asm__ ("x0");
__asm__ ("mrs x0, CurrentEL;" : : : "%x0");
printf("EL = %" PRIu64 "\n", x0 >> 2);

arm C code:

register uint32_t r0 __asm__ ("r0");
__asm__ ("mrs r0, CPSR" : : : "%r0");
printf("EL = %" PRIu32 "\n", r0 & 0x1F);

Those registers are normally (always?) protected in userland though, so you must to this from the Linux kernel or a baremetal example.

Tested on QEMU and gem5 with this setup.

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