#include "at32f403a_407.h" #include "output.h" #include "FreeRTOS.h" #include "task.h" #include "settings_api.h" #include "io_utils.h" #include out_t outputs[DO_NUMBER] = { {GPIOC, GPIO_PINS_12, 0, 0, 0, false, 0, 0}, // - {GPIOD, GPIO_PINS_2, 0, 0, 0, false, 0, 0}, // - {GPIOE, GPIO_PINS_6, 0, 0, 0, false, 0, 0}, // TMR9_CH2 (remap) {GPIOC, GPIO_PINS_1, 0, 0, 0, false, 0, 0}, // - {GPIOC, GPIO_PINS_11, 0, 0, 0, false, 0, 0}, // - {GPIOD, GPIO_PINS_3, 0, 0, 0, false, 0, 0}, // - {GPIOE, GPIO_PINS_5, 0, 0, 0, false, 0, 0}, // TMR9_CH1 (remap) {GPIOC, GPIO_PINS_2, 0, 0, 0, false, 0, 0} // - }; simple_gpio_t load_sens[DO_NUMBER] = { {GPIOD, GPIO_PINS_0}, {GPIOD, GPIO_PINS_1}, {GPIOC, GPIO_PINS_13}, {GPIOC, GPIO_PINS_0}, {GPIOC, GPIO_PINS_10}, {GPIOD, GPIO_PINS_4}, {GPIOE, GPIO_PINS_4}, {GPIOC, GPIO_PINS_3} }; // void out_gpio_init(out_t *out, uint8_t index) { gpio_init_type gpio_init_struct; // Выход if (out->mode == 0) { gpio_default_para_init(&gpio_init_struct); gpio_init_struct.gpio_out_type = GPIO_OUTPUT_PUSH_PULL; gpio_init_struct.gpio_pull = GPIO_PULL_NONE; gpio_init_struct.gpio_mode = GPIO_MODE_OUTPUT; gpio_init_struct.gpio_drive_strength = GPIO_DRIVE_STRENGTH_STRONGER; gpio_init_struct.gpio_pins = out->pin; gpio_init(out->port, &gpio_init_struct); } do_update(out, index) ; } // void do_set_common(void) { bool flag = false; for (int i = 0; i < DO_NUMBER; i++) { // if ((settings.do_bits & (1 << i)) != (output_state_bit & (1 << i))) { settings.do_bits = output_state_bit; flag = true; } else if ((settings.do_mode_bits & (1 << i)) != (output_mode_bit & (1 << i))) { settings.do_mode_bits ^= (1 << i); settings.do_mode_bits = output_mode_bit; flag = true; } else if (settings.do_pwm[i] != output_pwm[i]) { settings.do_pwm[i] = output_pwm[i]; flag = true; } else if (settings.do_pwm_save[i] != output_pwm_save[i]) { settings.do_pwm_save[i] = output_pwm_save[i]; flag = true; } else if (settings.do_pwm_period [i] != output_pwm_period[i]) { settings.do_pwm_period[i] = output_pwm_period[i]; flag = true; } else if (settings.do_pwm_period_save[i] != output_pwm_period_save[i]) { settings.do_pwm_period_save[i] = output_pwm_period_save[i]; flag = true; } if (flag) do_update(&outputs[i], i); } } // void do_set(void) { if (output_state_bit == settings.do_bits) return; // Состояние выхода/выходов изменилось for (int i = 0; i < DO_NUMBER; i++) { if ((settings.do_bits & (1 << i)) != (output_state_bit & (1 << i))) { do_update(&outputs[i], i); } } // Сохраним новое значение выходов в настройках settings.do_bits = output_state_bit; } // Установка значения на выходе void do_update(out_t *out, uint8_t i) { // Режим ШИМ if (settings.do_mode_bits & (1 << i)) { // Безопасный режим включен if (save_mode_get()) do_set_pwm(settings.do_pwm_period_save[i], settings.do_pwm_save[i], i); else do_set_pwm(settings.do_pwm_period[i], settings.do_pwm[i], i); } // Режим обычного выхода else { out->mode = 0; // Безопасный режим включен if (save_mode_get()) do_set_out(out, settings.do_save_bits & (1 << i)); else do_set_out(out, settings.do_bits & (1 << i)); } } // void do_set_mode(void) { if (output_mode_bit == settings.do_mode_bits) return; // Состояние выхода/выходов изменилось for (int i = 0; i < DO_NUMBER; i++) { if ((settings.do_mode_bits & (1 << i)) != (output_mode_bit & (1 << i))) { settings.do_mode_bits ^= (1 << i); do_update(&outputs[i], i); } } settings.do_mode_bits = output_mode_bit; } //#define PWM_PERIOD_TEST 20 //#define PWM_DUTY_TEST 10 void do_set_pwm(uint16_t period, uint16_t duty, uint8_t index) { uint16_t duty_calc; if (duty == 0) duty_calc = 0; else duty_calc = (duty*period/100 < 1) ? 1 : duty*period/100; outputs[index].pwm_flag = false; outputs[index].pwm_period_cnt = 0; outputs[index].pwm_duty_cnt = 0; outputs[index].pwm_period = period; outputs[index].pwm_duty = duty_calc; outputs[index].mode = 1; } // void do_set_out(out_t *out, uint8_t val) { if (val) { gpio_bits_set(GPIOB, GPIO_PINS_15); gpio_bits_set(out->port, out->pin); } else { gpio_bits_reset(GPIOB, GPIO_PINS_15); gpio_bits_reset(out->port, out->pin); } } // void out_as_pwm(void) { uint32_t timer_period; uint16_t pwm_pulse; crm_clocks_freq_type crm_clocks_freq_struct = {0}; tmr_output_config_type tmr_output_struct; crm_periph_clock_enable(CRM_TMR9_PERIPH_CLOCK, TRUE); crm_clocks_freq_get(&crm_clocks_freq_struct); //timer_period = (crm_clocks_freq_struct.sclk_freq / 10 ) - 1; timer_period = 24000 - 1; pwm_pulse = 125*timer_period/1000; tmr_base_init(TMR9, 24000 - 1, 1000 - 1); tmr_cnt_dir_set(TMR9, TMR_COUNT_UP); tmr_output_default_para_init(&tmr_output_struct); tmr_output_struct.oc_mode = TMR_OUTPUT_CONTROL_PWM_MODE_A; tmr_output_struct.oc_output_state = TRUE; tmr_output_struct.oc_polarity = TMR_OUTPUT_ACTIVE_HIGH; tmr_output_struct.oc_idle_state = TRUE; tmr_output_channel_config(TMR9, TMR_SELECT_CHANNEL_1, &tmr_output_struct); tmr_channel_value_set(TMR9, TMR_SELECT_CHANNEL_1, pwm_pulse); tmr_flag_clear(TMR9, TMR_OVF_FLAG); nvic_priority_group_config(NVIC_PRIORITY_GROUP_4); nvic_irq_enable(TMR1_BRK_TMR9_IRQn, 5, 0); //tmr_interrupt_enable(TMR9, TMR_OVF_INT, TRUE); tmr_interrupt_enable(TMR9, TMR_C1_INT, TRUE); tmr_counter_enable(TMR9, TRUE); } // Таймер для выходов в режиме PWM. Частота 10Гц. void out_pwm_tim_init(void) { uint16_t prescaler_value = 0; uint16_t timer_period = 1000 - 1; gpio_init_type gpio_init_struct; gpio_default_para_init(&gpio_init_struct); gpio_init_struct.gpio_pins = GPIO_PINS_15; gpio_init_struct.gpio_out_type = GPIO_OUTPUT_PUSH_PULL; gpio_init_struct.gpio_pull = GPIO_PULL_NONE; gpio_init_struct.gpio_mode = GPIO_MODE_OUTPUT; gpio_init_struct.gpio_drive_strength = GPIO_DRIVE_STRENGTH_STRONGER; gpio_init(GPIOB, &gpio_init_struct); crm_periph_clock_enable(CRM_TMR9_PERIPH_CLOCK, TRUE); prescaler_value = (uint16_t)(system_core_clock / 10000) - 1; tmr_base_init(TMR9, timer_period, prescaler_value); tmr_cnt_dir_set(TMR9, TMR_COUNT_UP); tmr_clock_source_div_set(TMR9, TMR_CLOCK_DIV1); nvic_irq_enable(TMR1_BRK_TMR9_IRQn, 5, 0); tmr_interrupt_enable(TMR9, TMR_OVF_INT, TRUE); tmr_counter_enable(TMR9, TRUE); } inline void pwm_proc(void) { for (int i = 0; i < DO_NUMBER; i++) { if (outputs[i].mode) // режим PWM { if (outputs[i].pwm_period_cnt == outputs[i].pwm_period /*PWM_PERIOD_TEST*/) { outputs[i].pwm_period_cnt = 0; } if (outputs[i].pwm_period_cnt == 0) { outputs[i].pwm_flag = false; gpio_bits_set(outputs[i].port, outputs[i].pin); //gpio_bits_set(GPIOB, GPIO_PINS_15); } if (outputs[i].pwm_duty_cnt == outputs[i].pwm_duty /*PWM_DUTY_TEST*/) { outputs[i].pwm_duty_cnt = 0; gpio_bits_reset(outputs[i].port, outputs[i].pin); //gpio_bits_reset(GPIOB, GPIO_PINS_15); outputs[i].pwm_flag = true; } outputs[i].pwm_period_cnt++; if (outputs[i].pwm_flag == false) { outputs[i].pwm_duty_cnt++; } } } } // void load_sens_init(simple_gpio_t *sens) { gpio_init_type gpio_init_struct; gpio_default_para_init(&gpio_init_struct); gpio_init_struct.gpio_pull = GPIO_PULL_NONE; gpio_init_struct.gpio_mode = GPIO_MODE_INPUT; gpio_init_struct.gpio_drive_strength = GPIO_DRIVE_STRENGTH_STRONGER; gpio_init_struct.gpio_pins = sens->pin; gpio_init(sens->port, &gpio_init_struct); } // void out_test(void) { for (int i = 0; i < DO_NUMBER; i++) { outputs[i].port->odt ^= outputs[i].pin; printf("LOAD_1: %u LOAD_2: %u LOAD_3: %u LOAD_4: %u LOAD_5: %u LOAD_6: %u LOAD_7: %u LOAD_8: %u\r\n", gpio_input_data_bit_read(load_sens[0].port, load_sens[0].pin), gpio_input_data_bit_read(load_sens[1].port, load_sens[1].pin), gpio_input_data_bit_read(load_sens[2].port, load_sens[2].pin), gpio_input_data_bit_read(load_sens[3].port, load_sens[3].pin), gpio_input_data_bit_read(load_sens[4].port, load_sens[4].pin), gpio_input_data_bit_read(load_sens[5].port, load_sens[5].pin), gpio_input_data_bit_read(load_sens[6].port, load_sens[6].pin), gpio_input_data_bit_read(load_sens[7].port, load_sens[7].pin)); vTaskDelay(500); } } // void load_test(void) { printf("LOAD_1: %u LOAD_2: %u LOAD_3: %u LOAD_4: %u LOAD_5: %u LOAD_6: %u LOAD_7: %u LOAD_8: %u\r\n", gpio_input_data_bit_read(load_sens[0].port, load_sens[0].pin), gpio_input_data_bit_read(load_sens[1].port, load_sens[1].pin), gpio_input_data_bit_read(load_sens[2].port, load_sens[2].pin), gpio_input_data_bit_read(load_sens[3].port, load_sens[3].pin), gpio_input_data_bit_read(load_sens[4].port, load_sens[4].pin), gpio_input_data_bit_read(load_sens[5].port, load_sens[5].pin), gpio_input_data_bit_read(load_sens[6].port, load_sens[6].pin), gpio_input_data_bit_read(load_sens[7].port, load_sens[7].pin)); } // void TMR1_BRK_TMR9_IRQHandler(void) { if(tmr_flag_get(TMR9, TMR_OVF_FLAG) != RESET) { tmr_flag_clear(TMR9, TMR_OVF_FLAG); //GPIOB->odt ^= GPIO_PINS_15; pwm_proc(); } } #if 0 void TMR1_BRK_TMR9_IRQHandler(void) { static uint32_t cnt1 = 0; static uint32_t cnt2 = 0; if (tmr_flag_get(TMR9, TMR_OVF_FLAG) != RESET) { tmr_flag_clear(TMR9, TMR_OVF_FLAG); cnt1++; printf("Cnt1 %u\r\n", cnt1); } else if (tmr_flag_get(TMR9, TMR_C1_INT) != RESET) { tmr_flag_clear(TMR9, TMR_C1_INT); cnt2++; printf("Cnt2 %u\r\n", cnt2); } } #endif