/* * SPDX-FileCopyrightText: 2022 Espressif Systems (Shanghai) CO LTD * * SPDX-License-Identifier: Apache-2.0 */ #include #include #include "freertos/FreeRTOS.h" #include "freertos/task.h" #include "freertos/event_groups.h" #include "unity.h" #include "unity_test_utils.h" #include "soc/soc_caps.h" #include "esp_private/esp_clk.h" #include "driver/mcpwm_prelude.h" #include "driver/gpio.h" #include "test_mcpwm_utils.h" static bool IRAM_ATTR test_capture_callback_iram_safe(mcpwm_cap_channel_handle_t cap_channel, const mcpwm_capture_event_data_t *edata, void *user_data) { uint32_t *cap_value = (uint32_t *)user_data; if (edata->cap_edge == MCPWM_CAP_EDGE_NEG) { cap_value[1] = edata->cap_value; } else { cap_value[0] = edata->cap_value; } return false; } static void IRAM_ATTR test_simulate_input_post_cache_disable(void *args) { int gpio_sig = (int)args; gpio_set_level(gpio_sig, 1); esp_rom_delay_us(1000); gpio_set_level(gpio_sig, 0); } TEST_CASE("mcpwm_capture_iram_safe", "[mcpwm]") { printf("install mcpwm capture timer\r\n"); mcpwm_cap_timer_handle_t cap_timer = NULL; mcpwm_capture_timer_config_t cap_timer_config = { .clk_src = MCPWM_CAPTURE_CLK_SRC_DEFAULT, .group_id = 0, }; TEST_ESP_OK(mcpwm_new_capture_timer(&cap_timer_config, &cap_timer)); const int cap_gpio = 0; // put the GPIO into a preset state gpio_set_level(cap_gpio, 0); printf("install mcpwm capture channel\r\n"); mcpwm_cap_channel_handle_t pps_channel; mcpwm_capture_channel_config_t cap_chan_config = { .gpio_num = cap_gpio, .prescale = 1, .flags.pos_edge = true, .flags.neg_edge = true, .flags.io_loop_back = true, // so we can use GPIO functions to simulate the external capture signal .flags.pull_up = true, }; TEST_ESP_OK(mcpwm_new_capture_channel(cap_timer, &cap_chan_config, &pps_channel)); printf("install callback for capture channel\r\n"); mcpwm_capture_event_callbacks_t cbs = { .on_cap = test_capture_callback_iram_safe, }; uint32_t cap_value[2] = {0}; TEST_ESP_OK(mcpwm_capture_channel_register_event_callbacks(pps_channel, &cbs, cap_value)); printf("enable capture channel\r\n"); TEST_ESP_OK(mcpwm_capture_channel_enable(pps_channel)); printf("enable and start capture timer\r\n"); TEST_ESP_OK(mcpwm_capture_timer_enable(cap_timer)); TEST_ESP_OK(mcpwm_capture_timer_start(cap_timer)); printf("disable cache, simulate GPIO capture signal\r\n"); unity_utils_run_cache_disable_stub(test_simulate_input_post_cache_disable, (void *)cap_gpio); printf("capture value: Pos=%"PRIu32", Neg=%"PRIu32"\r\n", cap_value[0], cap_value[1]); // Capture timer is clocked from APB by default uint32_t clk_src_res = esp_clk_apb_freq(); TEST_ASSERT_UINT_WITHIN(2000, clk_src_res / 1000, cap_value[1] - cap_value[0]); printf("uninstall capture channel and timer\r\n"); TEST_ESP_OK(mcpwm_capture_channel_disable(pps_channel)); TEST_ESP_OK(mcpwm_del_capture_channel(pps_channel)); TEST_ESP_OK(mcpwm_capture_timer_disable(cap_timer)); TEST_ESP_OK(mcpwm_del_capture_timer(cap_timer)); } static bool IRAM_ATTR test_compare_on_reach(mcpwm_cmpr_handle_t cmpr, const mcpwm_compare_event_data_t *ev_data, void *user_data) { uint32_t cmp_val = ev_data->compare_ticks; cmp_val += 10; // compare ticks can't exceed the timer's period ticks if (cmp_val >= 50) { cmp_val = 0; } mcpwm_comparator_set_compare_value(cmpr, cmp_val); return false; } static void IRAM_ATTR test_delay_post_cache_disable(void *args) { esp_rom_delay_us(1000); } TEST_CASE("mcpwm_comparator_iram_safe", "[mcpwm]") { mcpwm_timer_handle_t timer; mcpwm_oper_handle_t oper; mcpwm_cmpr_handle_t comparator; mcpwm_gen_handle_t gen; mcpwm_timer_config_t timer_config = { .group_id = 0, .clk_src = MCPWM_TIMER_CLK_SRC_DEFAULT, .resolution_hz = 1 * 1000 * 1000, .period_ticks = 50, // 50us <-> 20KHz .count_mode = MCPWM_TIMER_COUNT_MODE_UP, }; mcpwm_operator_config_t operator_config = { .group_id = 0, }; mcpwm_comparator_config_t comparator_config = { .flags.update_cmp_on_tep = true, .flags.update_cmp_on_tez = true, }; printf("install timer, operator and comparator\r\n"); TEST_ESP_OK(mcpwm_new_timer(&timer_config, &timer)); TEST_ESP_OK(mcpwm_new_operator(&operator_config, &oper)); TEST_ESP_OK(mcpwm_new_comparator(oper, &comparator_config, &comparator)); printf("connect MCPWM timer and operators\r\n"); TEST_ESP_OK(mcpwm_operator_connect_timer(oper, timer)); TEST_ESP_OK(mcpwm_comparator_set_compare_value(comparator, 10)); printf("install MCPWM generator\r\n"); mcpwm_generator_config_t gen_config = { .gen_gpio_num = 0, }; TEST_ESP_OK(mcpwm_new_generator(oper, &gen_config, &gen)); printf("set generator actions on timer and compare events\r\n"); TEST_ESP_OK(mcpwm_generator_set_actions_on_timer_event(gen, MCPWM_GEN_TIMER_EVENT_ACTION(MCPWM_TIMER_DIRECTION_UP, MCPWM_TIMER_EVENT_EMPTY, MCPWM_GEN_ACTION_HIGH), MCPWM_GEN_TIMER_EVENT_ACTION_END())); TEST_ESP_OK(mcpwm_generator_set_actions_on_compare_event(gen, MCPWM_GEN_COMPARE_EVENT_ACTION(MCPWM_TIMER_DIRECTION_UP, comparator, MCPWM_GEN_ACTION_LOW), MCPWM_GEN_COMPARE_EVENT_ACTION_END())); printf("register compare event callback\r\n"); mcpwm_comparator_event_callbacks_t cbs = { .on_reach = test_compare_on_reach, }; TEST_ESP_OK(mcpwm_comparator_register_event_callbacks(comparator, &cbs, NULL)); printf("start timer\r\n"); TEST_ESP_OK(mcpwm_timer_enable(timer)); TEST_ESP_OK(mcpwm_timer_start_stop(timer, MCPWM_TIMER_START_NO_STOP)); printf("disable flash cache and check the compare events are still in working\r\n"); for (int i = 0; i < 50; i++) { unity_utils_run_cache_disable_stub(test_delay_post_cache_disable, NULL); } printf("uninstall timer, operator and comparator\r\n"); TEST_ESP_OK(mcpwm_timer_start_stop(timer, MCPWM_TIMER_STOP_EMPTY)); TEST_ESP_OK(mcpwm_timer_disable(timer)); TEST_ESP_OK(mcpwm_del_generator(gen)); TEST_ESP_OK(mcpwm_del_comparator(comparator)); TEST_ESP_OK(mcpwm_del_operator(oper)); TEST_ESP_OK(mcpwm_del_timer(timer)); }