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A dedicated performance counter for Cortex-M systick. It shares the SysTick with users' original SysTick function without interfering it. This library will bring new functionalities, such as performance counter, delay_us and clock() service defined in time.h

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perf_counter (v2.3.3)

A dedicated performance counter for Cortex-M Systick. It shares the SysTick with users' original SysTick function(s) without interfering with it. This library will bring new functionalities, such as performance counter, delay_us and clock() service defined in time.h.

Features:

  • Measure CPU cycles for specified code segment

  • Add Coremark 1.0

  • Provide Timer Service for EventRecorder automatically.

  • Enhanced measurement services for RTOS

    • Measures RAW / True cycles used for specified code segment inside a thread, i.e. scheduling cost are removed.
    • Measure RAW/True cycles used for a data-process-path across multiple threads.
  • Easy to use

    • Helper macros: __cycleof__() , __super_loop_monitor__() , __cpu_usage__(), __cpu_perf__() etc.
    • Helper functions: start_cycle_counter(), stop_cycle_counter() etc.
  • Enable a broader processor architecture support

    • Support ALL Cortex-M processors

      • SysTick
      • Performance Monitor Unit (PMU)
    • Easy to port to a different architecture with a porting template

  • Provide Free Services

    • Do NOT interfer with existing SysTick based applications
  • Support most of the arm compilers

    • Arm Compiler 5 (armcc), Arm Compiler 6 (armclang)
    • arm gcc
    • LLVM
    • IAR
  • Simplified Deployment

    • Drag-and-Drop deployment for Arm Compiler 5 and Arm Compiler 6.
    • CMSIS-Pack is available
    • RT-Thread package is avaialble
  • Time based services

    • delay_us() and delay_ms() with 64bit return value.
    • Provides Timestamp services via get_system_ticks(), get_system_us and get_system_ms().
  • Support both RTOS and bare-metal environments

    • Support SysTick Reconfiguration
    • Support changing System Frequency
    • Support stack-overflow detection in RTOS environment via perfc_check_task_stack_canary_safe()
  • Utilities for C language enhancement

    • Macros to detect compilers, e.g. __IS_COMPILER_ARM_COMPILER_6__, __IS_COMPILER_LLVM__ etc.
    • Macro to create atomicity for specified code block, i.e. __IRQ_SAFE{...}
    • Helper macros for C language extension:
      • VB like with()
      • foreach(), dimof(), CONNECT()
      • C# like using()
      • simple overload feature of OOPC made out of ANSI-C99, __PLOOC_VA_NUM_ARGS()
      • ...
    • [new] A dedicated macro __perfc_sync_barrier__() for code barrier.

1. How To Use

1.1 Measure CPU cycles for specified code segment

You can measure specified code segment with a macro helper __cycleof__(), it is a wrapper of get_system_ticks().

Syntax:

__cycleof__(<Description String for the target>, [User Code, see ref 1]) {
    //! target code segment of measurement
    ...
}

Here, [ref 1] is a small user code to read the measurement result via a local variable __cycle_count__ . This User Code is optional. If you don't put anything here, the measured result will be shown with a __perf_counter_printf__.

Example 1: Simple measurement with printf

    __cycleof__() {
        foreach(example_lv0_t, s_tItem, ptItem) {
            printf("Processing item with ID = %d\r\n", _->chID);
        }
    }

You will see the measured result in console:

image-20220509004258020

Example 2: Read measured result via __cycle_counter__

    int32_t iCycleResult = 0;

    /* measure cycles and store it in a dedicated variable without printf */
    __cycleof__("delay_us(1000ul)", 
        /* insert code to __cycleof__ body, "{}" can be omitted  */
        {
            iCycleResult = __cycle_count__;   /*< "__cycle_count__" stores the result */
        }) {
        delay_us(1000ul);
    }

    printf("\r\n delay_us(1000ul) takes %d cycles\r\n", (int)iCycleResult);

The result is read out from __cycle_count__and used in other place:

image-20220509004714845

1.2 Performance Analysis

1.2.1 CPU Usage

For both bare-metal and OS environment, you can measure the CPU Usage with macro __cpu_usage__() for a given code segment as long as it is executed repeatedly.

Syntax

__cycleof__(<Iteration Count before getting an average result>, [User Code, see ref 1]) {
    //! target code segment of measurement
    ...
}

Here, [ref 1] is a small user code to read the measurement result via a local variable __usage__. This User Code is optional. If you don't put anything here, the measured result will be shown with a __perf_counter_printf__.

Example 1: the following code will show 30% of CPU Usage:
void main(void)
{
    ...
    while (1) {
        __cpu_usage__(10) {
            delay_us(30000);
        }
        delay_us(70000);
    }
    ...
}
Example 2: Read measurement result via __usage__
void main(void)
{
    ...
    while (1) {
        
        float fUsage = 0.0f;
        __cpu_usage__(10, {
            fUsage = __usage__; /*< "__usage__" stores the result */
        }) {
            delay_us(30000);
        }
        printf("task 1 cpu usage %3.2f %%\r\n", (double)fUsage);

        delay_us(70000);
    }
    ...
}

NOTE: The __usage__ stores the percentage information.

1.2.2 Cycle per Instruction and L1 DCache Miss Rate

For Armv8.1-m processors that implement the PMU, it is easy to measure the CPI (Cycle per Instruction) and L1 DCache miss rate with the macro __cpu_perf__().

Syntax:

__cpu_perf__(<Description String for the target>, [User Code, see ref 1]) {
    //! target code segment of measurement
    ...
}

Here, [ref 1] is a small user code to read the measurement result via a local struct variable __PERF_INFO__ . This User Code is optional. If you don't put anything here, the measured result will be shown with a __perf_counter_printf__. The prototype of the __PERF_INFO__ is shown below:

struct {                                                                
    uint64_t dwNoInstr;                 /* number of instruction executed */        
    uint64_t dwNoMemAccess;             /* number of memory access */
    uint64_t dwNoL1DCacheRefill;        /* number of L1 DCache Refill */
    int64_t lCycles;                    /* number of CPU cycles */
    uint32_t wInstrCalib;                                               
    uint32_t wMemAccessCalib;                                           
    float fCPI;                         /* Cycle per Instruction */
    float fDCacheMissRate;              /* L1 DCache miss rate in percentage */
} __PERF_INFO__;

For example, when insert user code, you can read CPI from __PERF_INFO__.fCPI.

Example 1: measure the Coremark

void main(void)
{
    init_cycle_counter(false);

    printf("Run coremark\r\n");

#ifdef __PERF_COUNTER_COREMARK__
    __cpu_perf__("Coremark") {
        coremark_main();
    }
#endif

    while(1) {
        __NOP();
    }
}

The result might look like the following:

1.3 Timestamp

You can get the system timestamp (since the initialization of perf_counter service) via function get_system_ticks() and get_system_ms().

NOTE: The get_system_ms() is NOT a wrapper of the function get_system_ticks().

There are various way to take advantage of those functions.

Example 3: Use get_system_ms() as random seed

#include <stdio.h>
#include <stdlib.h>
#include "perf_counter.h"

int main (void) 
{
   int i, n;
   
   n = 5;
   
   /* Intializes random number generator */
   srand((unsigned) get_system_ticks());

   /* Print 5 random numbers from 0 to 1024 */
   for( i = 0 ; i < n ; i++ ) {
      printf("%d\n", rand() & 0x3FF);
   }
   
   return(0);
}

Example 4: Measure CPU cycles

    do {
        int64_t tStart = get_system_ticks();
        __IRQ_SAFE {
            printf("no interrupt \r\n");
        }
        printf("used clock cycle: %d", (int32_t)(get_system_ticks() - tStart));
    } while(0);

This example shows how to use the delta value of get_system_ticks() to measure the CPU cycles used by specified code segment. In fact, the __cycleof__() is implemented in the same way:

#define __cycleof__(__STR, ...)                                                 \
            using(int64_t _ = get_system_ticks(), __cycle_count__ = _,          \
                _=_, {                                                          \
                _ = get_system_ticks() - _;                                     \
                __cycle_count__ = _;                                            \
                if (__PLOOC_VA_NUM_ARGS(__VA_ARGS__) == 0) {                    \
                    printf("\r\n");                                             \
                    printf("-[Cycle Report]");                                  \
                    printf("--------------------------------------------\r\n"); \
                    printf(__STR " total cycle count: %d [%08x]\r\n",           \
                            (int)_, (int)_);                                    \
                } else {                                                        \
                    __VA_ARGS__                                                 \
                };                                                              \
            })

1.4 Timer Services

perf_counter provides the basic timer services for delaying a given period of time and polling-for-timeout. For example:

delay_ms(1000);   /* block the program for 1000ms */
delay_us(50);	  /* block the program for 50us */

while(1) {
    /* return true every 1000 ms */
    if (perfc_is_time_out_ms(1000)) {
        /* print hello world every 1000 ms */
        printf("\r\nHello world\r\n");
    }
}

1.5 Work with EventRecorder in MDK

If you are using EventRecorder in MDK, once you deployed the perf_counter, it will provide the timer service for EventRecorder by implenting the following functions: EventRecorderTimerSetup(), EventRecorderTimerGetFreq() and EventRecorderTimerGetCount().

If you have not modify anything in EventRecorderConf.h, you don't have to, and please keep the default configuration. If you see warnings like this:

Invalid Time Stamp Source selected in EventRecorderConf.h!

Please set the macro EVENT_TIMESTAMP_SOURCE to 3 to suppress it.

IMPORTANT: Please always make sure the macro EVENT_TIMESTAMP_FREQ is 0

By using perf_counter as the reference clock, EventRecorder can have the highest clock resolution on the target system without worring about the presence of DWT or any conflicting usage of SysTick.

1.6 On System Environment Changing

1.6.1 System Frequency Changing

If you want to change the System Frequency, after the change, make sure:

  1. The SystemCoreClock has been updated with the new system frequency. Usually, the HAL will update the SystemCoreClock automatically, but in some rare cases where SystemCoreClock is updated accordingly, you should do it yourself.

  2. please call update_perf_counter() to notify perf_counter.

1.6.2 Reconfigure the SysTick

Some systems (e.g. FreeRTOS) might reconfigure the systick timer to fulfil the requirement of their feature. To support this:

  1. Before the reconfiguration, please call function before_cycle_counter_reconfiguration().

    NOTE: This function will stop the SysTick, clear the pending bit, and set the Load register and the Current Value registers to zero.

  2. After the reconfiguration, please call update_perf_counter() to notify perf_counter the new changes.

2. How To Deploy

2.1 Generic(Default) method for all compilers

2.1.1 For Bare-metal:

  1. Clone the code to your local with following command lines:
git clone https://github.com/GorgonMeducer/perf_counter.git
  1. Add including path for perf_counter folder
  2. Add perf_counter.c to your compilation.

NOTE: Please do NOT add any assembly source files of this perf_counter library to your compilation, i.e. systick_wrapper_gcc.S, systick_wrapper_gnu.s or systick_wrapper_ual.s.

  1. Include perf_counter.h in corresponding c source file:
#include "perf_counter.h"
  1. Make sure your system contains the CMSIS (with a version 5.7.0 or above) as perf_counter.h includes cmsis_compiler.h.
  2. Call the function perfc_port_insert_to_system_timer_insert_ovf_handler() in your SysTick_Handler()
void SysTick_Handler(void)
{
    ...
    perfc_port_insert_to_system_timer_insert_ovf_handler();
    ...
}
  1. Make sure the SystemCoreClock is updated with the same value as CPU frequency.
  2. IMPORTANT: Make sure the SysTick_CTRL_CLKSOURCE_Msk bit ( bit 2) of SysTick->CTRL register is 1 that means SysTick runs with the same clock source as the target Cortex-M processor.
  3. Initialize the perf_counter with boolean value that indicates whether the user applications and/or RTOS have already occupied the SysTick.
void main(void)
{
    //! setup system clock 
    
    /*! \brief Update SystemCoreClock with the latest CPU frequency
     *!        If the function doesn't exist or doesn't work correctly,
     *!        Please update SystemCoreClock directly with the correct
     *!        system frequency in Hz.
     *!       
     *!        extern volatile uint32_t SystemCoreClock;
     */
    SystemCoreClockUpdate();
    
    /*! \brief initialize perf_counter() and pass true if SysTick is 
     *!        occupied by user applications or RTOS, otherwise pass
     *!        false. 
     */
    init_cycle_counter(true);
    
    ...
    while(1) {
        ...
    }
}
  1. IMPORTANT: Please enable GNU extension in your compiler. For GCC and CLANG, it is --std=gnu99 or --std=gnu11, and for other compilers, please check the user manual first. Failed to do so, you will not only trigger the warning in perf_counter.h, but also lose the function correctness of __cycleof__() and __super_loop_monitor__(), because __PLOOC_VA_NUM_ARGS() isn't report 0 when passed with no argument.
#if __PLOOC_VA_NUM_ARGS() != 0
#warning Please enable GNC extensions, it is required by __cycleof__() and \
__super_loop_monitor__()
#endif
  1. It is nice to add macro definition __PERF_COUNTER__ to your project GLOBALLY. It helps other module to detect the existence of perf_counter. For Example, LVGL lv_conf_cmsis.h use this macro to detect perf_counter and uses get_system_ms() to implement lv_tick_get().

Enjoy !

2.2 Use cmsis-pack in MDK

  1. Download the cmsis-pack from thecmsis-pack folder. It is a file with name GorgonMeducer.perf_counter.<version>.pack, for example GorgonMeducer.perf_counter.2.2.0.pack

  2. Double click it to install this cmsis-pack. Once finished, you can find it in your Pack-Installer:

    In the future, you can pull the latest version of perf_counter from the menu Packs->Check For Updates as shown below:

    image-20220509011327392

  3. Open the RTE management window, find the Utilities and select the Core inside perf_counter as shown below:

  1. Include perf_counter.h in corresponding c source file:
#include "perf_counter.h"
  1. Make sure your system contains the CMSIS (with a version 5.7.0 or above) as perf_counter.h includes cmsis_compiler.h. Usually, you should do this with RTE as shown below:

image-20220509012432408

  1. Make sure the SystemCoreClock is updated with the same value as CPU frequency.
  2. IMPORTANT: Make sure the SysTick_CTRL_CLKSOURCE_Msk bit ( bit 2) of SysTick->CTRL register is 1 that means SysTick runs with the same clock source as the target Cortex-M processor.
  3. Initialize the perf_counter with boolean value that indicates whether the user applications and/or RTOS have already occupied the SysTick.
void main(void)
{
    //! setup system clock 
    
    /*! \brief Update SystemCoreClock with the latest CPU frequency
     *!        If the function doesn't exist or doesn't work correctly,
     *!        Please update SystemCoreClock directly with the correct
     *!        system frequency in Hz.
     *!       
     *!        extern volatile uint32_t SystemCoreClock;
     */
    SystemCoreClockUpdate();
    
    /*! \brief initialize perf_counter() and pass true if SysTick is 
     *!        occupied by user applications or RTOS, otherwise pass
     *!        false. 
     */
    init_cycle_counter(true);
    
    ...
    while(1) {
        ...
    }
}
  1. IMPORTANT: Please enable GNU extension in your compiler.

    For Arm Compiler 5, please select both C99 mode and GNU extensions in the Option for target dialog as shown below:

image-20220509012752097

For Arm Compiler 6, please select gnu99 or gnu11 in Language C drop-list as shown below:

image-20220509012944724

Failed to do so, you will not only trigger the warning in perf_counter.h, but also lose the function correctness of __cycleof__() and __super_loop_monitor__(), because __PLOOC_VA_NUM_ARGS() isn't report 0 when passed with no argument.

#if __PLOOC_VA_NUM_ARGS() != 0
#warning Please enable GNC extensions, it is required by __cycleof__() and \
__super_loop_monitor__()
#endif

2.3 Use perf_counter in RT-Thread RTOS

perf_counter has registered as one of the RT-Thread software packages, which locats in system category. In ENV or RT-Thread Studio, you just need to simply enable cputime framework. RT-Thread will automatically enable perf_counter if you are using Cortex-M architecture.

rt-thread-settings

Enjoy !

3. FAQ

3.1 Why I see Undefined symbol $Super$$SysTick_Handler

This error usually pops up in Arm Compiler 5 and Arm Compiler 6. It is because you haven't implemented any non-weak SysTick_Handler(). Please provide an EMPTY one in any c source file to solve this problem:

void SysTick_Handler(void)
{
}

NOTE: If you deploy perf_counter using cmsis-pack and encounter this issue, please DO NOT call function user_code_insert_to_systick_handler() in this should-be-empty SysTick_Handler().

3.2 Why do I see perf_counter in red in the MDK project manager?

Since version v2.1.0 I removed the unnecessary bundle feature from the cmsis-pack. If you have used the older version, you will encounter this issue. To solve this problem:

  1. please unselect ALL the performance components in RTE, press OK and close the uVision.
  2. reopen the mdk project and select the perf_counter components in RTE

Sorry about this.

4. License

Performance Counter for Cortex-M, a.k.a. perf_counter is under Apache 2.0 license.

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A dedicated performance counter for Cortex-M systick. It shares the SysTick with users' original SysTick function without interfering it. This library will bring new functionalities, such as performance counter, delay_us and clock() service defined in time.h

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