For my project I must use inline assembly instructions such as rdtsc to calculate the execution time of some C/C++ instructions.

The following code seems to work on Intel but not on ARM processors:

{unsigned a, d;asm volatile("rdtsc" : "=a" (a), "=d" (d)); t0 = ((unsigned long)a) | (((unsigned long)d) << 32);}
//The C++ statement to measure its execution time
{unsigned a, d;asm volatile("rdtsc" : "=a" (a), "=d" (d)); t1 = ((unsigned long)a) | (((unsigned long)d) << 32);}
time = t1-t0;

My question is:

How to write an inline assembly code similar to the above (to calculate the execution elapsed time of an instruction) to work on ARM processors?

  • 3
    rdtsc on multi-core processors can have issues. see msdn.microsoft.com/en-us/library/ee417693(VS.85).aspx – Richard Critten Nov 6 '16 at 20:33
  • Single instructions will have variable timings based on cache etc. Better to loop thousands of times over it/them and use the perf_events() common functionality to make it work on all supported CPUs. – BitBank Nov 6 '16 at 21:39

You should read the PMCCNTR register of a co-processor p15 (not an actual co-processor, just an entry point for CPU functions) to obtain a cycle count. Note that it is available to an unprivileged app only if:

  1. Unprivileged PMCCNTR reads are alowed:

    Bit 0 of PMUSERENR register must be set to 1 (official docs)

  2. PMCCNTR is actually counting cycles:

    Bit 31 of PMCNTENSET register must be set to 1 (official docs)

This is a real-world example of how it`s done.

  • @Curious Note that the answer above is valid for ARMv6 and above. Older arch versions might have their own methods of getting this data (specific to a partcular chip - so the info is to be found in the datasheet for the chip), while some ARM-based chips don't provide such data at all. – tum_ Nov 6 '16 at 22:25
  • My ARM CPU is ARM7A, confirmed that by using the compiler Macro__ARM_ARCH_7A__, however, when I try to use the instruction asm volatile("mrc p15, 0, %0, c9, c13, 0" : "=r"(pmccntr));, the compiler gives the error message: Error “no such instruction” asm volatile("mrc p15, 0, %eax, c9, c13, 0" : "=r"(pmccntr)); – Curious Nov 11 '16 at 3:07
  • My Build Environment= PLATFORM_VERSION_CODENAME=REL PLATFORM_VERSION=4.3 TARGET_PRODUCT=full_manta TARGET_BUILD_VARIANT=eng TARGET_BUILD_TYPE=release TARGET_BUILD_APPS= TARGET_ARCH=arm TARGET_ARCH_VARIANT=armv7-a-neon TARGET_CPU_VARIANT=cortex-a15 HOST_ARCH=x86 HOST_OS=linux HOST_OS_EXTRA=Linux-3.16.0-70-generic-x86_64-with-Ubuntu-14.04-trusty HOST_BUILD_TYPE=release BUILD_ID=JWR66V OUT_DIR=out – Curious Nov 11 '16 at 3:17
  • @hidefromkgb: This is the code that I used but it gives the above error. {uint32_t pmccntr;asm volatile("mrc p15, 0, %0, c9, c13, 0" : "=r"(pmccntr));t0=static_cast<int64_t>(pmccntr) * 64;} //The C++ statement to measure its execution time {uint32_t pmccntr;asm volatile("mrc p15, 0, %0, c9, c13, 0" : "=r"(pmccntr));t1=static_cast<int64_t>(pmccntr) * 64;} time = t1-t0; – Curious Nov 11 '16 at 3:39
  • @Curious You are, most probably, using the wrong binutils, since as is definitely trying to assemble X86 instead of ARM7A. And, BTW, * 64 is equivalent to << 6, and the result does not have to be either promoted to uint64_t or multiplied until (T1 – T0) is calculated. As the difference is typically way smaller than 2²⁶, multiplying it to 64 won`t require promotion to a 64-bit type. – hidefromkgb Nov 11 '16 at 13:03

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