#include "can.h" #include "esp_log.h" #include "freertos/projdefs.h" #include "sdkconfig.h" #include #include #include #include "freertos/ringbuf.h" #include "xvprintf.h" bool is_error_passive = false; SemaphoreHandle_t can_mutex; volatile can_status_t curr_can_state = { 0 }; static can_status_t get_can_state() { can_status_t result; twai_status_info_t status = { 0 }; esp_err_t res = twai_get_status_info(&status); if (res != ESP_OK) { result.state = CAN_NOT_INSTALLED; return result; } result.msgs_to_rx = status.msgs_to_rx; result.msgs_to_tx = status.msgs_to_tx; result.arb_lost_count = status.arb_lost_count; result.bus_error_count = status.bus_error_count; result.tx_error_counter = status.tx_error_counter; result.rx_error_counter = status.rx_error_counter; result.tx_failed_count = status.tx_failed_count; result.rx_missed_count = status.rx_missed_count; result.rx_overrun_count = status.rx_overrun_count; switch (status.state) { case TWAI_STATE_STOPPED: result.state = CAN_STOPPED; break; case TWAI_STATE_BUS_OFF: result.state = CAN_BUF_OFF; break; case TWAI_STATE_RECOVERING: result.state = CAN_RECOVERING; break; default: if (is_error_passive) result.state = CAN_ERROR_PASSIVE; else result.state = CAN_ERROR_ACTIVE; break; } return result; } void can_msg_to_str(twai_message_t *can_msg, char *start_str, char *out_str) { char byte_str[3]; out_str[0] = '\0'; sprintf(out_str, "%scan frame: ID: %08X dlc: %d ", start_str, (int) can_msg->identifier, can_msg->data_length_code); if (can_msg->data_length_code == 0) { strcat(out_str, "(no data)"); } else { strcat(out_str, "data: "); for (int i = 0; i < can_msg->data_length_code; i++) { sprintf(byte_str, "%02X", can_msg->data[i]); strcat(out_str, byte_str); } } } // TODO: add software filtering void can_task(void* arg) { static const TickType_t can_task_timeout = pdMS_TO_TICKS(10); uint32_t alerts = 0; can_mutex = xSemaphoreCreateMutex(); twai_message_t rx_msg; char data_bytes_str[70]; for (;;) { // A Task shall never return or exit. if (twai_read_alerts(&alerts, 0) == ESP_OK) { if (alerts & TWAI_ALERT_ERR_ACTIVE) { is_error_passive = false; } if (alerts & TWAI_ALERT_ERR_PASS) { is_error_passive = true; } if (alerts & TWAI_ALERT_BUS_ERROR) { print_w_clr_time("CAN error!", LOG_COLOR_RED, false); } if (alerts & TWAI_ALERT_BUS_OFF) { print_w_clr_time("CAN went bus-off!", LOG_COLOR_RED, false); // ESP_ERROR_CHECK(twai_initiate_recovery()); } if (alerts & TWAI_ALERT_BUS_RECOVERED) { print_w_clr_time("CAN recovered!", LOG_COLOR_BLUE, false); // ESP_ERROR_CHECK(twai_start()); } } curr_can_state = get_can_state(); if (xSemaphoreTake(can_mutex, 0) == pdTRUE) { while (twai_receive(&rx_msg, 0) == ESP_OK) { can_msg_to_str(&rx_msg, "recv ", data_bytes_str); print_w_clr_time(data_bytes_str, LOG_COLOR_BLUE, false); } xSemaphoreGive(can_mutex); } vTaskDelay(can_task_timeout); } }