/* * SPDX-FileCopyrightText: 2015-2024 Espressif Systems (Shanghai) CO LTD * * SPDX-License-Identifier: Apache-2.0 */ #include "sdkconfig.h" #include "freertos/FreeRTOS.h" #include "freertos/task.h" #include "freertos/queue.h" #include "freertos/semphr.h" #include "freertos/idf_additions.h" #include "esp_types.h" #include "esp_log.h" #include "esp_intr_alloc.h" #include "esp_pm.h" #include "esp_attr.h" #include "esp_heap_caps.h" #include "esp_clk_tree.h" #include "clk_ctrl_os.h" #include "driver/gpio.h" #include "esp_private/periph_ctrl.h" #include "esp_private/esp_clk.h" #include "driver/twai.h" #include "soc/soc_caps.h" #include "soc/soc.h" #include "soc/twai_periph.h" #include "soc/gpio_sig_map.h" #include "hal/twai_hal.h" #include "esp_rom_gpio.h" /* ---------------------------- Definitions --------------------------------- */ //Internal Macros #define TWAI_CHECK(cond, ret_val) ({ \ if (!(cond)) { \ return (ret_val); \ } \ }) #define TWAI_SET_FLAG(var, mask) ((var) |= (mask)) #define TWAI_RESET_FLAG(var, mask) ((var) &= ~(mask)) #ifdef CONFIG_TWAI_ISR_IN_IRAM #define TWAI_MALLOC_CAPS (MALLOC_CAP_INTERNAL | MALLOC_CAP_8BIT) #else #define TWAI_TAG "TWAI" #define TWAI_MALLOC_CAPS MALLOC_CAP_DEFAULT #endif //CONFIG_TWAI_ISR_IN_IRAM #define DRIVER_DEFAULT_INTERRUPTS 0xE7 //Exclude data overrun (bit[3]) and brp_div (bit[4]) #define ALERT_LOG_LEVEL_WARNING TWAI_ALERT_ARB_LOST //Alerts above and including this level use ESP_LOGW #define ALERT_LOG_LEVEL_ERROR TWAI_ALERT_TX_FAILED //Alerts above and including this level use ESP_LOGE #if !SOC_RCC_IS_INDEPENDENT #define TWAI_RCC_ATOMIC() PERIPH_RCC_ATOMIC() #else #define TWAI_RCC_ATOMIC() #endif #if SOC_PERIPH_CLK_CTRL_SHARED #define TWAI_PERI_ATOMIC() PERIPH_RCC_ATOMIC() #else #define TWAI_PERI_ATOMIC() #endif /* ------------------ Typedefs, structures, and variables ------------------- */ //Control structure for TWAI driver typedef struct twai_obj_t { int controller_id; twai_hal_context_t hal; // hal context //Control and status members twai_state_t state; twai_mode_t mode; uint32_t rx_missed_count; uint32_t rx_overrun_count; uint32_t tx_failed_count; uint32_t arb_lost_count; uint32_t bus_error_count; intr_handle_t isr_handle; //TX and RX QueueHandle_t tx_queue; QueueHandle_t rx_queue; int tx_msg_count; int rx_msg_count; //Alerts SemaphoreHandle_t alert_semphr; uint32_t alerts_enabled; uint32_t alerts_triggered; //Power Management Lock esp_pm_lock_handle_t pm_lock; portMUX_TYPE spinlock; } twai_obj_t; static twai_handle_t g_twai_objs[SOC_TWAI_CONTROLLER_NUM]; static portMUX_TYPE g_spinlock = portMUX_INITIALIZER_UNLOCKED; /* -------------------- Interrupt and Alert Handlers ------------------------ */ static void twai_alert_handler(twai_obj_t *p_twai_obj, uint32_t alert_code, int *alert_req) { if (p_twai_obj->alerts_enabled & alert_code) { //Signify alert has occurred TWAI_SET_FLAG(p_twai_obj->alerts_triggered, alert_code); *alert_req = 1; #ifndef CONFIG_TWAI_ISR_IN_IRAM //Only log if ISR is not in IRAM if (p_twai_obj->alerts_enabled & TWAI_ALERT_AND_LOG) { if (alert_code >= ALERT_LOG_LEVEL_ERROR) { ESP_EARLY_LOGE(TWAI_TAG, "Alert %" PRIu32, alert_code); } else if (alert_code >= ALERT_LOG_LEVEL_WARNING) { ESP_EARLY_LOGW(TWAI_TAG, "Alert %" PRIu32, alert_code); } else { ESP_EARLY_LOGI(TWAI_TAG, "Alert %" PRIu32, alert_code); } } #endif //CONFIG_TWAI_ISR_IN_IRAM } } static inline void twai_handle_rx_buffer_frames(twai_obj_t *p_twai_obj, BaseType_t *task_woken, int *alert_req) { #ifdef SOC_TWAI_SUPPORTS_RX_STATUS uint32_t msg_count = twai_hal_get_rx_msg_count(&p_twai_obj->hal); for (uint32_t i = 0; i < msg_count; i++) { twai_hal_frame_t frame; if (twai_hal_read_rx_buffer_and_clear(&p_twai_obj->hal, &frame)) { //Valid frame copied from RX buffer if (xQueueSendFromISR(p_twai_obj->rx_queue, &frame, task_woken) == pdTRUE) { p_twai_obj->rx_msg_count++; twai_alert_handler(p_twai_obj, TWAI_ALERT_RX_DATA, alert_req); } else { //Failed to send to queue p_twai_obj->rx_missed_count++; twai_alert_handler(p_twai_obj, TWAI_ALERT_RX_QUEUE_FULL, alert_req); } } else { //Failed to read from RX buffer because message is overrun p_twai_obj->rx_overrun_count++; twai_alert_handler(p_twai_obj, TWAI_ALERT_RX_FIFO_OVERRUN, alert_req); } } #else //SOC_TWAI_SUPPORTS_RX_STATUS uint32_t msg_count = twai_hal_get_rx_msg_count(&p_twai_obj->hal); bool overrun = false; //Clear all valid RX frames for (int i = 0; i < msg_count; i++) { twai_hal_frame_t frame; if (twai_hal_read_rx_buffer_and_clear(&p_twai_obj->hal, &frame)) { //Valid frame copied from RX buffer if (xQueueSendFromISR(p_twai_obj->rx_queue, &frame, task_woken) == pdTRUE) { p_twai_obj->rx_msg_count++; twai_alert_handler(p_twai_obj, TWAI_ALERT_RX_DATA, alert_req); } else { p_twai_obj->rx_missed_count++; twai_alert_handler(p_twai_obj, TWAI_ALERT_RX_QUEUE_FULL, alert_req); } } else { overrun = true; break; } } //All remaining frames are treated as overrun. Clear them all if (overrun) { p_twai_obj->rx_overrun_count += twai_hal_clear_rx_fifo_overrun(&p_twai_obj->hal); twai_alert_handler(p_twai_obj, TWAI_ALERT_RX_FIFO_OVERRUN, alert_req); } #endif //SOC_TWAI_SUPPORTS_RX_STATUS } static inline void twai_handle_tx_buffer_frame(twai_obj_t *p_twai_obj, BaseType_t *task_woken, int *alert_req) { //Handle previously transmitted frame if (twai_hal_check_last_tx_successful(&p_twai_obj->hal)) { twai_alert_handler(p_twai_obj, TWAI_ALERT_TX_SUCCESS, alert_req); } else { p_twai_obj->tx_failed_count++; twai_alert_handler(p_twai_obj, TWAI_ALERT_TX_FAILED, alert_req); } //Update TX message count p_twai_obj->tx_msg_count--; assert(p_twai_obj->tx_msg_count >= 0); //Sanity check //Check if there are more frames to transmit if (p_twai_obj->tx_msg_count > 0 && p_twai_obj->tx_queue != NULL) { twai_hal_frame_t frame; int res = xQueueReceiveFromISR(p_twai_obj->tx_queue, &frame, task_woken); if (res == pdTRUE) { twai_hal_set_tx_buffer_and_transmit(&p_twai_obj->hal, &frame); } else { assert(false && "failed to get a frame from TX queue"); } } else { //No more frames to transmit twai_alert_handler(p_twai_obj, TWAI_ALERT_TX_IDLE, alert_req); } } static void twai_intr_handler_main(void *arg) { twai_obj_t *p_twai_obj = (twai_obj_t *)arg; BaseType_t task_woken = pdFALSE; int alert_req = 0; uint32_t events; portENTER_CRITICAL_ISR(&p_twai_obj->spinlock); events = twai_hal_get_events(&p_twai_obj->hal); //Get the events that triggered the interrupt #if defined(CONFIG_TWAI_ERRATA_FIX_RX_FRAME_INVALID) || defined(CONFIG_TWAI_ERRATA_FIX_RX_FIFO_CORRUPT) if (events & TWAI_HAL_EVENT_NEED_PERIPH_RESET) { twai_hal_prepare_for_reset(&p_twai_obj->hal); TWAI_RCC_ATOMIC() { twai_ll_reset_register(p_twai_obj->controller_id); } twai_hal_recover_from_reset(&p_twai_obj->hal); p_twai_obj->rx_missed_count += twai_hal_get_reset_lost_rx_cnt(&p_twai_obj->hal); twai_alert_handler(p_twai_obj, TWAI_ALERT_PERIPH_RESET, &alert_req); } #endif if (events & TWAI_HAL_EVENT_RX_BUFF_FRAME) { //Note: This event will never occur if there is a periph reset event twai_handle_rx_buffer_frames(p_twai_obj, &task_woken, &alert_req); } if (events & TWAI_HAL_EVENT_TX_BUFF_FREE) { twai_handle_tx_buffer_frame(p_twai_obj, &task_woken, &alert_req); } //Handle events that only require alerting (i.e. no handler) if (events & TWAI_HAL_EVENT_BUS_OFF) { p_twai_obj->state = TWAI_STATE_BUS_OFF; twai_alert_handler(p_twai_obj, TWAI_ALERT_BUS_OFF, &alert_req); } if (events & TWAI_HAL_EVENT_BUS_RECOV_CPLT) { p_twai_obj->state = TWAI_STATE_STOPPED; twai_alert_handler(p_twai_obj, TWAI_ALERT_BUS_RECOVERED, &alert_req); } if (events & TWAI_HAL_EVENT_BUS_ERR) { p_twai_obj->bus_error_count++; twai_alert_handler(p_twai_obj, TWAI_ALERT_BUS_ERROR, &alert_req); } if (events & TWAI_HAL_EVENT_ARB_LOST) { p_twai_obj->arb_lost_count++; twai_alert_handler(p_twai_obj, TWAI_ALERT_ARB_LOST, &alert_req); } if (events & TWAI_HAL_EVENT_BUS_RECOV_PROGRESS) { //Bus-recovery in progress. TEC has dropped below error warning limit twai_alert_handler(p_twai_obj, TWAI_ALERT_RECOVERY_IN_PROGRESS, &alert_req); } if (events & TWAI_HAL_EVENT_ERROR_PASSIVE) { //Entered error passive twai_alert_handler(p_twai_obj, TWAI_ALERT_ERR_PASS, &alert_req); } if (events & TWAI_HAL_EVENT_ERROR_ACTIVE) { //Returned to error active twai_alert_handler(p_twai_obj, TWAI_ALERT_ERR_ACTIVE, &alert_req); } if (events & TWAI_HAL_EVENT_ABOVE_EWL) { //TEC or REC surpassed error warning limit twai_alert_handler(p_twai_obj, TWAI_ALERT_ABOVE_ERR_WARN, &alert_req); } if (events & TWAI_HAL_EVENT_BELOW_EWL) { //TEC and REC are both below error warning twai_alert_handler(p_twai_obj, TWAI_ALERT_BELOW_ERR_WARN, &alert_req); } portEXIT_CRITICAL_ISR(&p_twai_obj->spinlock); if (p_twai_obj->alert_semphr != NULL && alert_req) { //Give semaphore if alerts were triggered xSemaphoreGiveFromISR(p_twai_obj->alert_semphr, &task_woken); } if (task_woken == pdTRUE) { portYIELD_FROM_ISR(); } } /* -------------------------- Helper functions ----------------------------- */ static void twai_configure_gpio(int controller_id, gpio_num_t tx, gpio_num_t rx, gpio_num_t clkout, gpio_num_t bus_status) { // assert the GPIO number is not a negative number (shift operation on a negative number is undefined) assert(tx >= 0 && rx >= 0); // if TX and RX set to the same GPIO, which means we want to create a loop-back in the GPIO matrix bool io_loop_back = (tx == rx); gpio_config_t gpio_conf = { .intr_type = GPIO_INTR_DISABLE, .pull_down_en = false, .pull_up_en = false, }; //Set RX pin gpio_conf.mode = GPIO_MODE_INPUT | (io_loop_back ? GPIO_MODE_OUTPUT : 0); gpio_conf.pin_bit_mask = 1ULL << rx; gpio_config(&gpio_conf); esp_rom_gpio_connect_in_signal(rx, twai_controller_periph_signals.controllers[controller_id].rx_sig, false); //Set TX pin gpio_conf.mode = GPIO_MODE_OUTPUT | (io_loop_back ? GPIO_MODE_INPUT : 0); gpio_conf.pin_bit_mask = 1ULL << tx; gpio_config(&gpio_conf); esp_rom_gpio_connect_out_signal(tx, twai_controller_periph_signals.controllers[controller_id].tx_sig, false, false); //Configure output clock pin (Optional) if (clkout >= 0 && clkout < GPIO_NUM_MAX) { gpio_set_pull_mode(clkout, GPIO_FLOATING); esp_rom_gpio_connect_out_signal(clkout, twai_controller_periph_signals.controllers[controller_id].clk_out_sig, false, false); esp_rom_gpio_pad_select_gpio(clkout); } //Configure bus status pin (Optional) if (bus_status >= 0 && bus_status < GPIO_NUM_MAX) { gpio_set_pull_mode(bus_status, GPIO_FLOATING); esp_rom_gpio_connect_out_signal(bus_status, twai_controller_periph_signals.controllers[controller_id].bus_off_sig, false, false); esp_rom_gpio_pad_select_gpio(bus_status); } } static void twai_free_driver_obj(twai_obj_t *p_obj) { //Free driver object and any dependent SW resources it uses (queues, semaphores, interrupts, PM locks etc) #if CONFIG_PM_ENABLE if (p_obj->pm_lock != NULL) { ESP_ERROR_CHECK(esp_pm_lock_delete(p_obj->pm_lock)); } #endif //CONFIG_PM_ENABLE if (p_obj->isr_handle) { ESP_ERROR_CHECK(esp_intr_free(p_obj->isr_handle)); } //Delete queues and semaphores if (p_obj->tx_queue != NULL) { vQueueDeleteWithCaps(p_obj->tx_queue); } if (p_obj->rx_queue != NULL) { vQueueDeleteWithCaps(p_obj->rx_queue); } if (p_obj->alert_semphr != NULL) { vSemaphoreDeleteWithCaps(p_obj->alert_semphr); } heap_caps_free(p_obj); } static esp_err_t twai_alloc_driver_obj(const twai_general_config_t *g_config, twai_clock_source_t clk_src, int controller_id, twai_obj_t **p_twai_obj_ret) { //Allocate driver object and any dependent SW resources it uses (queues, semaphores, interrupts, PM locks etc) esp_err_t ret; //Create a TWAI driver object twai_obj_t *p_obj = heap_caps_calloc(1, sizeof(twai_obj_t), TWAI_MALLOC_CAPS); if (p_obj == NULL) { return ESP_ERR_NO_MEM; } if (g_config->tx_queue_len > 0) { p_obj->tx_queue = xQueueCreateWithCaps(g_config->tx_queue_len, sizeof(twai_hal_frame_t), TWAI_MALLOC_CAPS); } p_obj->rx_queue = xQueueCreateWithCaps(g_config->rx_queue_len, sizeof(twai_hal_frame_t), TWAI_MALLOC_CAPS); p_obj->alert_semphr = xSemaphoreCreateBinaryWithCaps(TWAI_MALLOC_CAPS); if ((g_config->tx_queue_len > 0 && p_obj->tx_queue == NULL) || p_obj->rx_queue == NULL || p_obj->alert_semphr == NULL) { ret = ESP_ERR_NO_MEM; goto err; } //Allocate interrupt ret = esp_intr_alloc(twai_controller_periph_signals.controllers[controller_id].irq_id, g_config->intr_flags | ESP_INTR_FLAG_INTRDISABLED, twai_intr_handler_main, p_obj, &p_obj->isr_handle); if (ret != ESP_OK) { goto err; } #if CONFIG_PM_ENABLE #if SOC_TWAI_CLK_SUPPORT_APB // DFS can change APB frequency. So add lock to prevent sleep and APB freq from changing if (clk_src == TWAI_CLK_SRC_APB) { // TODO: pm_lock name should also reflect the controller ID ret = esp_pm_lock_create(ESP_PM_APB_FREQ_MAX, 0, "twai", &(p_obj->pm_lock)); if (ret != ESP_OK) { goto err; } } #else // XTAL // XTAL freq can be closed in light sleep, so we need to create a lock to prevent light sleep ret = esp_pm_lock_create(ESP_PM_NO_LIGHT_SLEEP, 0, "twai", &(p_obj->pm_lock)); if (ret != ESP_OK) { goto err; } #endif //SOC_TWAI_CLK_SUPPORT_APB #endif //CONFIG_PM_ENABLE *p_twai_obj_ret = p_obj; return ESP_OK; err: twai_free_driver_obj(p_obj); return ret; } /* ---------------------------- Public Functions ---------------------------- */ esp_err_t twai_driver_install_v2(const twai_general_config_t *g_config, const twai_timing_config_t *t_config, const twai_filter_config_t *f_config, twai_handle_t *ret_twai) { //Check arguments TWAI_CHECK(g_config != NULL, ESP_ERR_INVALID_ARG); TWAI_CHECK(t_config != NULL, ESP_ERR_INVALID_ARG); TWAI_CHECK(f_config != NULL, ESP_ERR_INVALID_ARG); TWAI_CHECK(g_config->controller_id < SOC_TWAI_CONTROLLER_NUM, ESP_ERR_INVALID_ARG); TWAI_CHECK(g_config->rx_queue_len > 0, ESP_ERR_INVALID_ARG); TWAI_CHECK(GPIO_IS_VALID_OUTPUT_GPIO(g_config->tx_io), ESP_ERR_INVALID_ARG); TWAI_CHECK(GPIO_IS_VALID_GPIO(g_config->rx_io), ESP_ERR_INVALID_ARG); #ifndef CONFIG_TWAI_ISR_IN_IRAM TWAI_CHECK(!(g_config->intr_flags & ESP_INTR_FLAG_IRAM), ESP_ERR_INVALID_ARG); #endif int controller_id = g_config->controller_id; TWAI_CHECK(g_twai_objs[controller_id] == NULL, ESP_ERR_INVALID_STATE); //Get clock source resolution uint32_t clock_source_hz = 0; twai_clock_source_t clk_src = t_config->clk_src; //Fall back to default clock source if (clk_src == 0) { clk_src = TWAI_CLK_SRC_DEFAULT; } esp_clk_tree_src_get_freq_hz(clk_src, ESP_CLK_TREE_SRC_FREQ_PRECISION_CACHED, &clock_source_hz); //Check brp validation uint32_t brp = t_config->brp; if (t_config->quanta_resolution_hz) { TWAI_CHECK(clock_source_hz % t_config->quanta_resolution_hz == 0, ESP_ERR_INVALID_ARG); brp = clock_source_hz / t_config->quanta_resolution_hz; } TWAI_CHECK(twai_ll_check_brp_validation(brp), ESP_ERR_INVALID_ARG); esp_err_t ret; twai_obj_t *p_twai_obj; //Create a TWAI object (including queues, semaphores, interrupts, and PM locks) ret = twai_alloc_driver_obj(g_config, clk_src, controller_id, &p_twai_obj); if (ret != ESP_OK) { return ret; } //Initialize flags and variables. All other members are already set to zero by twai_alloc_driver_obj() portMUX_INITIALIZE(&p_twai_obj->spinlock); p_twai_obj->controller_id = controller_id; p_twai_obj->state = TWAI_STATE_STOPPED; p_twai_obj->mode = g_config->mode; p_twai_obj->alerts_enabled = g_config->alerts_enabled; //Assign the TWAI object portENTER_CRITICAL(&g_spinlock); if (g_twai_objs[controller_id] == NULL) { g_twai_objs[controller_id] = p_twai_obj; } else { //Check if driver is already installed portEXIT_CRITICAL(&g_spinlock); ret = ESP_ERR_INVALID_STATE; goto err; } portEXIT_CRITICAL(&g_spinlock); //Enable TWAI peripheral register clock TWAI_RCC_ATOMIC() { twai_ll_enable_bus_clock(controller_id, true); twai_ll_reset_register(controller_id); } TWAI_PERI_ATOMIC() { //Enable functional clock twai_ll_set_clock_source(p_twai_obj->controller_id, clk_src); twai_ll_enable_clock(p_twai_obj->controller_id, true); } //Initialize TWAI HAL layer twai_hal_config_t hal_config = { .clock_source_hz = clock_source_hz, .controller_id = controller_id, }; bool res = twai_hal_init(&p_twai_obj->hal, &hal_config); assert(res); twai_hal_configure(&p_twai_obj->hal, t_config, f_config, DRIVER_DEFAULT_INTERRUPTS, g_config->clkout_divider); //Assign GPIO and Interrupts twai_configure_gpio(controller_id, g_config->tx_io, g_config->rx_io, g_config->clkout_io, g_config->bus_off_io); #if CONFIG_PM_ENABLE //Acquire PM lock if (p_twai_obj->pm_lock) { ESP_ERROR_CHECK(esp_pm_lock_acquire(p_twai_obj->pm_lock)); //Acquire pm_lock during the whole driver lifetime } #endif //CONFIG_PM_ENABLE //Enable interrupt ESP_ERROR_CHECK(esp_intr_enable(p_twai_obj->isr_handle)); *ret_twai = p_twai_obj; return ESP_OK; //TWAI module is still in reset mode, users need to call twai_start() afterwards err: twai_free_driver_obj(p_twai_obj); return ret; } esp_err_t twai_driver_install(const twai_general_config_t *g_config, const twai_timing_config_t *t_config, const twai_filter_config_t *f_config) { // the handle-less driver API only supports one TWAI controller, i.e. the g_twai_objs[0] TWAI_CHECK(g_config->controller_id == 0, ESP_ERR_INVALID_ARG); return twai_driver_install_v2(g_config, t_config, f_config, &g_twai_objs[0]); } esp_err_t twai_driver_uninstall_v2(twai_handle_t handle) { TWAI_CHECK(handle != NULL, ESP_ERR_INVALID_ARG); int controller_id = handle->controller_id; twai_obj_t *p_twai_obj; portENTER_CRITICAL(&g_spinlock); //Check state if (g_twai_objs[controller_id] == NULL) { portEXIT_CRITICAL(&g_spinlock); return ESP_ERR_INVALID_STATE; } p_twai_obj = g_twai_objs[controller_id]; if (!(p_twai_obj->state == TWAI_STATE_STOPPED || p_twai_obj->state == TWAI_STATE_BUS_OFF)) { portEXIT_CRITICAL(&g_spinlock); return ESP_ERR_INVALID_STATE; } g_twai_objs[controller_id] = NULL; portEXIT_CRITICAL(&g_spinlock); //Clear registers by reading twai_hal_deinit(&p_twai_obj->hal); TWAI_PERI_ATOMIC() { twai_ll_enable_clock(controller_id, false); } TWAI_RCC_ATOMIC() { twai_ll_enable_bus_clock(controller_id, false); } #if CONFIG_PM_ENABLE if (p_twai_obj->pm_lock) { //Release and delete power management lock ESP_ERROR_CHECK(esp_pm_lock_release(p_twai_obj->pm_lock)); } #endif //CONFIG_PM_ENABLE //Disable interrupt ESP_ERROR_CHECK(esp_intr_disable(p_twai_obj->isr_handle)); //Free twai driver object twai_free_driver_obj(p_twai_obj); return ESP_OK; } esp_err_t twai_driver_uninstall(void) { // the handle-less driver API only support one TWAI controller, i.e. the g_twai_objs[0] return twai_driver_uninstall_v2(g_twai_objs[0]); } esp_err_t twai_start_v2(twai_handle_t handle) { TWAI_CHECK(handle != NULL, ESP_ERR_INVALID_ARG); twai_obj_t *p_twai_obj = handle; portENTER_CRITICAL(&handle->spinlock); if (p_twai_obj->state != TWAI_STATE_STOPPED) { portEXIT_CRITICAL(&handle->spinlock); return ESP_ERR_INVALID_STATE; } //Reset RX queue, RX message count, amd TX queue xQueueReset(p_twai_obj->rx_queue); if (p_twai_obj->tx_queue != NULL) { xQueueReset(p_twai_obj->tx_queue); } p_twai_obj->rx_msg_count = 0; p_twai_obj->tx_msg_count = 0; twai_hal_start(&p_twai_obj->hal, p_twai_obj->mode); p_twai_obj->state = TWAI_STATE_RUNNING; portEXIT_CRITICAL(&handle->spinlock); return ESP_OK; } esp_err_t twai_start(void) { // the handle-less driver API only support one TWAI controller, i.e. the g_twai_objs[0] return twai_start_v2(g_twai_objs[0]); } esp_err_t twai_stop_v2(twai_handle_t handle) { TWAI_CHECK(handle != NULL, ESP_ERR_INVALID_ARG); twai_obj_t *p_twai_obj = handle; portENTER_CRITICAL(&handle->spinlock); //Check state if (p_twai_obj->state != TWAI_STATE_RUNNING) { portEXIT_CRITICAL(&handle->spinlock); return ESP_ERR_INVALID_STATE; } twai_hal_stop(&p_twai_obj->hal); //Reset TX Queue and message count if (p_twai_obj->tx_queue != NULL) { xQueueReset(p_twai_obj->tx_queue); } p_twai_obj->tx_msg_count = 0; p_twai_obj->state = TWAI_STATE_STOPPED; portEXIT_CRITICAL(&handle->spinlock); return ESP_OK; } esp_err_t twai_stop(void) { // the handle-less driver API only support one TWAI controller, i.e. the g_twai_objs[0] return twai_stop_v2(g_twai_objs[0]); } esp_err_t twai_transmit_v2(twai_handle_t handle, const twai_message_t *message, TickType_t ticks_to_wait) { //Check arguments TWAI_CHECK(handle != NULL, ESP_ERR_INVALID_ARG); TWAI_CHECK(message != NULL, ESP_ERR_INVALID_ARG); TWAI_CHECK((message->data_length_code <= TWAI_FRAME_MAX_DLC) || message->dlc_non_comp, ESP_ERR_INVALID_ARG); twai_obj_t *p_twai_obj = handle; portENTER_CRITICAL(&handle->spinlock); //Check State if (p_twai_obj->mode == TWAI_MODE_LISTEN_ONLY) { portEXIT_CRITICAL(&handle->spinlock); return ESP_ERR_NOT_SUPPORTED; } if (p_twai_obj->state != TWAI_STATE_RUNNING) { portEXIT_CRITICAL(&handle->spinlock); return ESP_ERR_INVALID_STATE; } //Format frame esp_err_t ret = ESP_FAIL; twai_hal_frame_t tx_frame; twai_hal_format_frame(message, &tx_frame); //Check if frame can be sent immediately if (p_twai_obj->tx_msg_count == 0) { //No other frames waiting to transmit. Bypass queue and transmit immediately twai_hal_set_tx_buffer_and_transmit(&p_twai_obj->hal, &tx_frame); p_twai_obj->tx_msg_count++; ret = ESP_OK; } portEXIT_CRITICAL(&handle->spinlock); if (ret != ESP_OK) { if (p_twai_obj->tx_queue == NULL) { //TX Queue is disabled and TX buffer is occupied, message was not sent ret = ESP_FAIL; } else if (xQueueSend(p_twai_obj->tx_queue, &tx_frame, ticks_to_wait) == pdTRUE) { //Copied to TX Queue portENTER_CRITICAL(&handle->spinlock); if ((!twai_hal_check_state_flags(&p_twai_obj->hal, TWAI_HAL_STATE_FLAG_TX_BUFF_OCCUPIED)) && uxQueueMessagesWaiting(p_twai_obj->tx_queue) > 0) { //If the TX buffer is free but the TX queue is not empty. Check if we need to manually start a transmission if (twai_hal_check_state_flags(&p_twai_obj->hal, TWAI_HAL_STATE_FLAG_BUS_OFF) || !twai_hal_check_state_flags(&p_twai_obj->hal, TWAI_HAL_STATE_FLAG_RUNNING)) { //TX buffer became free due to bus-off or is no longer running. No need to start a transmission ret = ESP_ERR_INVALID_STATE; } else { //Manually start a transmission int res = xQueueReceive(p_twai_obj->tx_queue, &tx_frame, 0); assert(res == pdTRUE); (void)res; twai_hal_set_tx_buffer_and_transmit(&p_twai_obj->hal, &tx_frame); p_twai_obj->tx_msg_count++; ret = ESP_OK; } } else { //Frame was copied to queue, waiting to be transmitted p_twai_obj->tx_msg_count++; ret = ESP_OK; } portEXIT_CRITICAL(&handle->spinlock); } else { //Timed out waiting for free space on TX queue ret = ESP_ERR_TIMEOUT; } } return ret; } esp_err_t twai_transmit(const twai_message_t *message, TickType_t ticks_to_wait) { // the handle-less driver API only support one TWAI controller, i.e. the g_twai_objs[0] return twai_transmit_v2(g_twai_objs[0], message, ticks_to_wait); } esp_err_t twai_receive_v2(twai_handle_t handle, twai_message_t *message, TickType_t ticks_to_wait) { //Check arguments and state TWAI_CHECK(handle != NULL, ESP_ERR_INVALID_ARG); TWAI_CHECK(message != NULL, ESP_ERR_INVALID_ARG); twai_obj_t *p_twai_obj = handle; //Get frame from RX Queue or RX Buffer twai_hal_frame_t rx_frame; if (xQueueReceive(p_twai_obj->rx_queue, &rx_frame, ticks_to_wait) != pdTRUE) { return ESP_ERR_TIMEOUT; } portENTER_CRITICAL(&handle->spinlock); p_twai_obj->rx_msg_count--; portEXIT_CRITICAL(&handle->spinlock); //Decode frame twai_hal_parse_frame(&rx_frame, message); return ESP_OK; } esp_err_t twai_receive(twai_message_t *message, TickType_t ticks_to_wait) { // the handle-less driver API only support one TWAI controller, i.e. the g_twai_objs[0] return twai_receive_v2(g_twai_objs[0], message, ticks_to_wait); } esp_err_t twai_read_alerts_v2(twai_handle_t handle, uint32_t *alerts, TickType_t ticks_to_wait) { //Check arguments and state TWAI_CHECK(handle != NULL, ESP_ERR_INVALID_ARG); TWAI_CHECK(alerts != NULL, ESP_ERR_INVALID_ARG); twai_obj_t *p_twai_obj = handle; //Wait for an alert to occur if (xSemaphoreTake(p_twai_obj->alert_semphr, ticks_to_wait) == pdTRUE) { portENTER_CRITICAL(&handle->spinlock); *alerts = p_twai_obj->alerts_triggered; p_twai_obj->alerts_triggered = 0; //Clear triggered alerts portEXIT_CRITICAL(&handle->spinlock); return ESP_OK; } else { *alerts = 0; return ESP_ERR_TIMEOUT; } } esp_err_t twai_read_alerts(uint32_t *alerts, TickType_t ticks_to_wait) { // the handle-less driver API only support one TWAI controller, i.e. the g_twai_objs[0] return twai_read_alerts_v2(g_twai_objs[0], alerts, ticks_to_wait); } esp_err_t twai_reconfigure_alerts_v2(twai_handle_t handle, uint32_t alerts_enabled, uint32_t *current_alerts) { TWAI_CHECK(handle != NULL, ESP_ERR_INVALID_ARG); twai_obj_t *p_twai_obj = handle; portENTER_CRITICAL(&handle->spinlock); //Clear any unhandled alerts if (current_alerts != NULL) { *current_alerts = p_twai_obj->alerts_triggered; } p_twai_obj->alerts_triggered = 0; p_twai_obj->alerts_enabled = alerts_enabled; //Update enabled alerts portEXIT_CRITICAL(&handle->spinlock); return ESP_OK; } esp_err_t twai_reconfigure_alerts(uint32_t alerts_enabled, uint32_t *current_alerts) { // the handle-less driver API only support one TWAI controller, i.e. the g_twai_objs[0] return twai_reconfigure_alerts_v2(g_twai_objs[0], alerts_enabled, current_alerts); } esp_err_t twai_initiate_recovery_v2(twai_handle_t handle) { TWAI_CHECK(handle != NULL, ESP_ERR_INVALID_ARG); twai_obj_t *p_twai_obj = handle; portENTER_CRITICAL(&handle->spinlock); //Check state if (p_twai_obj->state != TWAI_STATE_BUS_OFF) { portEXIT_CRITICAL(&handle->spinlock); return ESP_ERR_INVALID_STATE; } //Reset TX Queue/Counters if (p_twai_obj->tx_queue != NULL) { xQueueReset(p_twai_obj->tx_queue); } p_twai_obj->tx_msg_count = 0; //Trigger start of recovery process twai_hal_start_bus_recovery(&p_twai_obj->hal); p_twai_obj->state = TWAI_STATE_RECOVERING; portEXIT_CRITICAL(&handle->spinlock); return ESP_OK; } esp_err_t twai_initiate_recovery(void) { // the handle-less driver API only support one TWAI controller, i.e. the g_twai_objs[0] return twai_initiate_recovery_v2(g_twai_objs[0]); } esp_err_t twai_get_status_info_v2(twai_handle_t handle, twai_status_info_t *status_info) { //Check parameters TWAI_CHECK(handle != NULL, ESP_ERR_INVALID_ARG); TWAI_CHECK(status_info != NULL, ESP_ERR_INVALID_ARG); twai_obj_t *p_twai_obj = handle; portENTER_CRITICAL(&handle->spinlock); if (p_twai_obj->mode == TWAI_MODE_LISTEN_ONLY) { //Error counters are frozen under listen only mode thus are meaningless. Simply return 0 in this case. status_info->tx_error_counter = 0; status_info->rx_error_counter = 0; } else { status_info->tx_error_counter = twai_hal_get_tec(&p_twai_obj->hal); status_info->rx_error_counter = twai_hal_get_rec(&p_twai_obj->hal); } status_info->msgs_to_tx = p_twai_obj->tx_msg_count; status_info->msgs_to_rx = p_twai_obj->rx_msg_count; status_info->tx_failed_count = p_twai_obj->tx_failed_count; status_info->rx_missed_count = p_twai_obj->rx_missed_count; status_info->rx_overrun_count = p_twai_obj->rx_overrun_count; status_info->arb_lost_count = p_twai_obj->arb_lost_count; status_info->bus_error_count = p_twai_obj->bus_error_count; status_info->state = p_twai_obj->state; portEXIT_CRITICAL(&handle->spinlock); return ESP_OK; } esp_err_t twai_get_status_info(twai_status_info_t *status_info) { // the handle-less driver API only support one TWAI controller, i.e. the g_twai_objs[0] return twai_get_status_info_v2(g_twai_objs[0], status_info); } esp_err_t twai_clear_transmit_queue_v2(twai_handle_t handle) { //Check parameters TWAI_CHECK(handle != NULL, ESP_ERR_INVALID_ARG); TWAI_CHECK(handle->tx_queue != NULL, ESP_ERR_NOT_SUPPORTED); twai_obj_t *p_twai_obj = handle; portENTER_CRITICAL(&handle->spinlock); //If a message is currently undergoing transmission, the tx interrupt handler will decrement tx_msg_count p_twai_obj->tx_msg_count = twai_hal_check_state_flags(&p_twai_obj->hal, TWAI_HAL_STATE_FLAG_TX_BUFF_OCCUPIED) ? 1 : 0; xQueueReset(p_twai_obj->tx_queue); portEXIT_CRITICAL(&handle->spinlock); return ESP_OK; } esp_err_t twai_clear_transmit_queue(void) { // the handle-less driver API only support one TWAI controller, i.e. the g_twai_objs[0] return twai_clear_transmit_queue_v2(g_twai_objs[0]); } esp_err_t twai_clear_receive_queue_v2(twai_handle_t handle) { //Check parameters TWAI_CHECK(handle != NULL, ESP_ERR_INVALID_ARG); twai_obj_t *p_twai_obj = handle; portENTER_CRITICAL(&handle->spinlock); p_twai_obj->rx_msg_count = 0; xQueueReset(p_twai_obj->rx_queue); portEXIT_CRITICAL(&handle->spinlock); return ESP_OK; } esp_err_t twai_clear_receive_queue(void) { // the handle-less driver API only support one TWAI controller, i.e. the g_twai_objs[0] return twai_clear_receive_queue_v2(g_twai_objs[0]); }