186 lines
6.4 KiB
C
186 lines
6.4 KiB
C
/* FreeRTOS Real Time Stats Example
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This example code is in the Public Domain (or CC0 licensed, at your option.)
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Unless required by applicable law or agreed to in writing, this
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software is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR
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CONDITIONS OF ANY KIND, either express or implied.
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*/
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#include <stdio.h>
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#include <stdlib.h>
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#include "freertos/FreeRTOS.h"
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#include "freertos/task.h"
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#include "freertos/semphr.h"
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#include "esp_err.h"
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#define NUM_OF_SPIN_TASKS 6
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#define SPIN_ITER 500000 //Actual CPU cycles used will depend on compiler optimization
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#define SPIN_TASK_PRIO 2
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#define STATS_TASK_PRIO 3
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#define STATS_TICKS pdMS_TO_TICKS(1000)
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#define ARRAY_SIZE_OFFSET 5 //Increase this if print_real_time_stats returns ESP_ERR_INVALID_SIZE
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static char task_names[NUM_OF_SPIN_TASKS][configMAX_TASK_NAME_LEN];
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static SemaphoreHandle_t sync_spin_task;
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static SemaphoreHandle_t sync_stats_task;
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/**
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* @brief Function to print the CPU usage of tasks over a given duration.
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*
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* This function will measure and print the CPU usage of tasks over a specified
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* number of ticks (i.e. real time stats). This is implemented by simply calling
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* uxTaskGetSystemState() twice separated by a delay, then calculating the
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* differences of task run times before and after the delay.
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*
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* @note If any tasks are added or removed during the delay, the stats of
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* those tasks will not be printed.
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* @note This function should be called from a high priority task to minimize
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* inaccuracies with delays.
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* @note When running in dual core mode, each core will correspond to 50% of
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* the run time.
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*
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* @param xTicksToWait Period of stats measurement
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*
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* @return
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* - ESP_OK Success
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* - ESP_ERR_NO_MEM Insufficient memory to allocated internal arrays
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* - ESP_ERR_INVALID_SIZE Insufficient array size for uxTaskGetSystemState. Trying increasing ARRAY_SIZE_OFFSET
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* - ESP_ERR_INVALID_STATE Delay duration too short
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*/
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static esp_err_t print_real_time_stats(TickType_t xTicksToWait)
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{
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TaskStatus_t *start_array = NULL, *end_array = NULL;
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UBaseType_t start_array_size, end_array_size;
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uint32_t start_run_time, end_run_time;
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esp_err_t ret;
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//Allocate array to store current task states
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start_array_size = uxTaskGetNumberOfTasks() + ARRAY_SIZE_OFFSET;
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start_array = malloc(sizeof(TaskStatus_t) * start_array_size);
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if (start_array == NULL) {
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ret = ESP_ERR_NO_MEM;
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goto exit;
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}
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//Get current task states
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start_array_size = uxTaskGetSystemState(start_array, start_array_size, &start_run_time);
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if (start_array_size == 0) {
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ret = ESP_ERR_INVALID_SIZE;
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goto exit;
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}
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vTaskDelay(xTicksToWait);
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//Allocate array to store tasks states post delay
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end_array_size = uxTaskGetNumberOfTasks() + ARRAY_SIZE_OFFSET;
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end_array = malloc(sizeof(TaskStatus_t) * end_array_size);
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if (end_array == NULL) {
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ret = ESP_ERR_NO_MEM;
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goto exit;
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}
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//Get post delay task states
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end_array_size = uxTaskGetSystemState(end_array, end_array_size, &end_run_time);
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if (end_array_size == 0) {
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ret = ESP_ERR_INVALID_SIZE;
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goto exit;
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}
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//Calculate total_elapsed_time in units of run time stats clock period.
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uint32_t total_elapsed_time = (end_run_time - start_run_time);
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if (total_elapsed_time == 0) {
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ret = ESP_ERR_INVALID_STATE;
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goto exit;
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}
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printf("| Task | Run Time | Percentage\n");
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//Match each task in start_array to those in the end_array
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for (int i = 0; i < start_array_size; i++) {
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int k = -1;
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for (int j = 0; j < end_array_size; j++) {
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if (start_array[i].xHandle == end_array[j].xHandle) {
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k = j;
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//Mark that task have been matched by overwriting their handles
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start_array[i].xHandle = NULL;
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end_array[j].xHandle = NULL;
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break;
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}
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}
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//Check if matching task found
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if (k >= 0) {
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uint32_t task_elapsed_time = end_array[k].ulRunTimeCounter - start_array[i].ulRunTimeCounter;
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uint32_t percentage_time = (task_elapsed_time * 100UL) / (total_elapsed_time * portNUM_PROCESSORS);
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printf("| %s | %d | %d%%\n", start_array[i].pcTaskName, task_elapsed_time, percentage_time);
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}
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}
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//Print unmatched tasks
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for (int i = 0; i < start_array_size; i++) {
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if (start_array[i].xHandle != NULL) {
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printf("| %s | Deleted\n", start_array[i].pcTaskName);
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}
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}
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for (int i = 0; i < end_array_size; i++) {
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if (end_array[i].xHandle != NULL) {
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printf("| %s | Created\n", end_array[i].pcTaskName);
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}
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}
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ret = ESP_OK;
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exit: //Common return path
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free(start_array);
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free(end_array);
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return ret;
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}
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static void spin_task(void *arg)
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{
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xSemaphoreTake(sync_spin_task, portMAX_DELAY);
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while (1) {
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//Consume CPU cycles
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for (int i = 0; i < SPIN_ITER; i++) {
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__asm__ __volatile__("NOP");
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}
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vTaskDelay(pdMS_TO_TICKS(100));
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}
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}
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static void stats_task(void *arg)
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{
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xSemaphoreTake(sync_stats_task, portMAX_DELAY);
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//Start all the spin tasks
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for (int i = 0; i < NUM_OF_SPIN_TASKS; i++) {
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xSemaphoreGive(sync_spin_task);
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}
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//Print real time stats periodically
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while (1) {
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printf("\n\nGetting real time stats over %d ticks\n", STATS_TICKS);
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if (print_real_time_stats(STATS_TICKS) == ESP_OK) {
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printf("Real time stats obtained\n");
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} else {
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printf("Error getting real time stats\n");
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}
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vTaskDelay(pdMS_TO_TICKS(1000));
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}
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}
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void app_main(void)
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{
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//Allow other core to finish initialization
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vTaskDelay(pdMS_TO_TICKS(100));
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//Create semaphores to synchronize
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sync_spin_task = xSemaphoreCreateCounting(NUM_OF_SPIN_TASKS, 0);
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sync_stats_task = xSemaphoreCreateBinary();
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//Create spin tasks
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for (int i = 0; i < NUM_OF_SPIN_TASKS; i++) {
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snprintf(task_names[i], configMAX_TASK_NAME_LEN, "spin%d", i);
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xTaskCreatePinnedToCore(spin_task, task_names[i], 1024, NULL, SPIN_TASK_PRIO, NULL, tskNO_AFFINITY);
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}
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//Create and start stats task
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xTaskCreatePinnedToCore(stats_task, "stats", 4096, NULL, STATS_TASK_PRIO, NULL, tskNO_AFFINITY);
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xSemaphoreGive(sync_stats_task);
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}
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