517 lines
12 KiB
C
517 lines
12 KiB
C
/*
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* Copyright (c) 2019 Vestas Wind Systems A/S
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*
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* SPDX-License-Identifier: Apache-2.0
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*/
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#include <zephyr/kernel.h>
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#include <zephyr/drivers/can.h>
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#include <zephyr/init.h>
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#include <zephyr/sys/util.h>
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#include <canopennode.h>
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#define LOG_LEVEL CONFIG_CANOPEN_LOG_LEVEL
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#include <zephyr/logging/log.h>
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LOG_MODULE_REGISTER(canopen_driver);
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K_KERNEL_STACK_DEFINE(canopen_tx_workq_stack,
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CONFIG_CANOPENNODE_TX_WORKQUEUE_STACK_SIZE);
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struct k_work_q canopen_tx_workq;
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struct canopen_tx_work_container {
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struct k_work work;
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CO_CANmodule_t *CANmodule;
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};
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struct canopen_tx_work_container canopen_tx_queue;
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K_MUTEX_DEFINE(canopen_send_mutex);
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K_MUTEX_DEFINE(canopen_emcy_mutex);
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K_MUTEX_DEFINE(canopen_co_mutex);
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inline void canopen_send_lock(void)
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{
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k_mutex_lock(&canopen_send_mutex, K_FOREVER);
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}
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inline void canopen_send_unlock(void)
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{
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k_mutex_unlock(&canopen_send_mutex);
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}
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inline void canopen_emcy_lock(void)
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{
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k_mutex_lock(&canopen_emcy_mutex, K_FOREVER);
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}
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inline void canopen_emcy_unlock(void)
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{
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k_mutex_unlock(&canopen_emcy_mutex);
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}
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inline void canopen_od_lock(void)
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{
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k_mutex_lock(&canopen_co_mutex, K_FOREVER);
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}
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inline void canopen_od_unlock(void)
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{
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k_mutex_unlock(&canopen_co_mutex);
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}
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static void canopen_detach_all_rx_filters(CO_CANmodule_t *CANmodule)
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{
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uint16_t i;
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if (!CANmodule || !CANmodule->rx_array || !CANmodule->configured) {
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return;
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}
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for (i = 0U; i < CANmodule->rx_size; i++) {
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if (CANmodule->rx_array[i].filter_id != -ENOSPC) {
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can_remove_rx_filter(CANmodule->dev,
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CANmodule->rx_array[i].filter_id);
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CANmodule->rx_array[i].filter_id = -ENOSPC;
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}
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}
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}
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static void canopen_rx_callback(const struct device *dev, struct can_frame *frame, void *arg)
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{
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CO_CANrx_t *buffer = (CO_CANrx_t *)arg;
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CO_CANrxMsg_t rxMsg;
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ARG_UNUSED(dev);
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if (!buffer || !buffer->pFunct) {
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LOG_ERR("failed to process CAN rx callback");
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return;
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}
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rxMsg.ident = frame->id;
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rxMsg.DLC = frame->dlc;
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memcpy(rxMsg.data, frame->data, frame->dlc);
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buffer->pFunct(buffer->object, &rxMsg);
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}
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static void canopen_tx_callback(const struct device *dev, int error, void *arg)
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{
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CO_CANmodule_t *CANmodule = arg;
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ARG_UNUSED(dev);
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if (!CANmodule) {
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LOG_ERR("failed to process CAN tx callback");
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return;
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}
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if (error == 0) {
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CANmodule->first_tx_msg = false;
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}
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k_work_submit_to_queue(&canopen_tx_workq, &canopen_tx_queue.work);
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}
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static void canopen_tx_retry(struct k_work *item)
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{
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struct canopen_tx_work_container *container =
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CONTAINER_OF(item, struct canopen_tx_work_container, work);
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CO_CANmodule_t *CANmodule = container->CANmodule;
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struct can_frame frame;
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CO_CANtx_t *buffer;
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int err;
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uint16_t i;
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memset(&frame, 0, sizeof(frame));
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CO_LOCK_CAN_SEND();
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for (i = 0; i < CANmodule->tx_size; i++) {
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buffer = &CANmodule->tx_array[i];
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if (buffer->bufferFull) {
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frame.id = buffer->ident;
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frame.dlc = buffer->DLC;
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frame.flags |= (buffer->rtr ? CAN_FRAME_RTR : 0);
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memcpy(frame.data, buffer->data, buffer->DLC);
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err = can_send(CANmodule->dev, &frame, K_NO_WAIT,
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canopen_tx_callback, CANmodule);
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if (err == -EAGAIN) {
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break;
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} else if (err != 0) {
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LOG_ERR("failed to send CAN frame (err %d)",
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err);
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CO_errorReport(CANmodule->em,
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CO_EM_GENERIC_SOFTWARE_ERROR,
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CO_EMC_COMMUNICATION, 0);
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}
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buffer->bufferFull = false;
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}
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}
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CO_UNLOCK_CAN_SEND();
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}
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void CO_CANsetConfigurationMode(void *CANdriverState)
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{
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struct canopen_context *ctx = (struct canopen_context *)CANdriverState;
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int err;
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err = can_stop(ctx->dev);
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if (err != 0 && err != -EALREADY) {
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LOG_ERR("failed to stop CAN interface (err %d)", err);
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}
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}
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void CO_CANsetNormalMode(CO_CANmodule_t *CANmodule)
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{
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int err;
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err = can_start(CANmodule->dev);
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if (err != 0 && err != -EALREADY) {
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LOG_ERR("failed to start CAN interface (err %d)", err);
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return;
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}
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CANmodule->CANnormal = true;
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}
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CO_ReturnError_t CO_CANmodule_init(CO_CANmodule_t *CANmodule,
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void *CANdriverState,
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CO_CANrx_t rxArray[], uint16_t rxSize,
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CO_CANtx_t txArray[], uint16_t txSize,
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uint16_t CANbitRate)
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{
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struct canopen_context *ctx = (struct canopen_context *)CANdriverState;
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uint16_t i;
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int err;
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int max_filters;
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LOG_DBG("rxSize = %d, txSize = %d", rxSize, txSize);
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if (!CANmodule || !rxArray || !txArray || !CANdriverState) {
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LOG_ERR("failed to initialize CAN module");
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return CO_ERROR_ILLEGAL_ARGUMENT;
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}
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max_filters = can_get_max_filters(ctx->dev, false);
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if (max_filters != -ENOSYS) {
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if (max_filters < 0) {
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LOG_ERR("unable to determine number of CAN RX filters");
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return CO_ERROR_SYSCALL;
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}
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if (rxSize > max_filters) {
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LOG_ERR("insufficient number of concurrent CAN RX filters"
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" (needs %d, %d available)", rxSize, max_filters);
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return CO_ERROR_OUT_OF_MEMORY;
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} else if (rxSize < max_filters) {
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LOG_DBG("excessive number of concurrent CAN RX filters enabled"
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" (needs %d, %d available)", rxSize, max_filters);
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}
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}
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canopen_detach_all_rx_filters(CANmodule);
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canopen_tx_queue.CANmodule = CANmodule;
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CANmodule->dev = ctx->dev;
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CANmodule->rx_array = rxArray;
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CANmodule->rx_size = rxSize;
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CANmodule->tx_array = txArray;
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CANmodule->tx_size = txSize;
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CANmodule->CANnormal = false;
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CANmodule->first_tx_msg = true;
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CANmodule->errors = 0;
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CANmodule->em = NULL;
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for (i = 0U; i < rxSize; i++) {
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rxArray[i].ident = 0U;
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rxArray[i].pFunct = NULL;
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rxArray[i].filter_id = -ENOSPC;
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}
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for (i = 0U; i < txSize; i++) {
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txArray[i].bufferFull = false;
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}
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err = can_set_bitrate(CANmodule->dev, KHZ(CANbitRate));
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if (err) {
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LOG_ERR("failed to configure CAN bitrate (err %d)", err);
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return CO_ERROR_ILLEGAL_ARGUMENT;
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}
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err = can_set_mode(CANmodule->dev, CAN_MODE_NORMAL);
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if (err) {
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LOG_ERR("failed to configure CAN interface (err %d)", err);
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return CO_ERROR_ILLEGAL_ARGUMENT;
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}
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CANmodule->configured = true;
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return CO_ERROR_NO;
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}
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void CO_CANmodule_disable(CO_CANmodule_t *CANmodule)
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{
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int err;
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if (!CANmodule || !CANmodule->dev) {
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return;
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}
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canopen_detach_all_rx_filters(CANmodule);
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err = can_stop(CANmodule->dev);
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if (err != 0 && err != -EALREADY) {
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LOG_ERR("failed to disable CAN interface (err %d)", err);
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}
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}
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uint16_t CO_CANrxMsg_readIdent(const CO_CANrxMsg_t *rxMsg)
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{
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return rxMsg->ident;
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}
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CO_ReturnError_t CO_CANrxBufferInit(CO_CANmodule_t *CANmodule, uint16_t index,
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uint16_t ident, uint16_t mask, bool_t rtr,
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void *object,
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CO_CANrxBufferCallback_t pFunct)
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{
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struct can_filter filter;
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CO_CANrx_t *buffer;
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if (CANmodule == NULL) {
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return CO_ERROR_ILLEGAL_ARGUMENT;
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}
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if (!pFunct || (index >= CANmodule->rx_size)) {
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LOG_ERR("failed to initialize CAN rx buffer, illegal argument");
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CO_errorReport(CANmodule->em, CO_EM_GENERIC_SOFTWARE_ERROR,
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CO_EMC_SOFTWARE_INTERNAL, 0);
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return CO_ERROR_ILLEGAL_ARGUMENT;
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}
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buffer = &CANmodule->rx_array[index];
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buffer->object = object;
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buffer->pFunct = pFunct;
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filter.flags = (rtr ? CAN_FILTER_RTR : CAN_FILTER_DATA);
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filter.id = ident;
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filter.mask = mask;
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if (buffer->filter_id != -ENOSPC) {
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can_remove_rx_filter(CANmodule->dev, buffer->filter_id);
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}
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buffer->filter_id = can_add_rx_filter(CANmodule->dev,
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canopen_rx_callback,
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buffer, &filter);
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if (buffer->filter_id == -ENOSPC) {
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LOG_ERR("failed to add CAN rx callback, no free filter");
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CO_errorReport(CANmodule->em, CO_EM_MEMORY_ALLOCATION_ERROR,
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CO_EMC_SOFTWARE_INTERNAL, 0);
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return CO_ERROR_OUT_OF_MEMORY;
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}
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return CO_ERROR_NO;
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}
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CO_CANtx_t *CO_CANtxBufferInit(CO_CANmodule_t *CANmodule, uint16_t index,
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uint16_t ident, bool_t rtr, uint8_t noOfBytes,
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bool_t syncFlag)
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{
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CO_CANtx_t *buffer;
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if (CANmodule == NULL) {
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return NULL;
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}
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if (index >= CANmodule->tx_size) {
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LOG_ERR("failed to initialize CAN rx buffer, illegal argument");
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CO_errorReport(CANmodule->em, CO_EM_GENERIC_SOFTWARE_ERROR,
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CO_EMC_SOFTWARE_INTERNAL, 0);
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return NULL;
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}
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buffer = &CANmodule->tx_array[index];
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buffer->ident = ident;
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buffer->rtr = rtr;
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buffer->DLC = noOfBytes;
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buffer->bufferFull = false;
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buffer->syncFlag = syncFlag;
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return buffer;
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}
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CO_ReturnError_t CO_CANsend(CO_CANmodule_t *CANmodule, CO_CANtx_t *buffer)
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{
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CO_ReturnError_t ret = CO_ERROR_NO;
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struct can_frame frame;
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int err;
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if (!CANmodule || !CANmodule->dev || !buffer) {
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return CO_ERROR_ILLEGAL_ARGUMENT;
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}
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memset(&frame, 0, sizeof(frame));
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CO_LOCK_CAN_SEND();
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if (buffer->bufferFull) {
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if (!CANmodule->first_tx_msg) {
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CO_errorReport(CANmodule->em, CO_EM_CAN_TX_OVERFLOW,
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CO_EMC_CAN_OVERRUN, buffer->ident);
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}
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buffer->bufferFull = false;
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ret = CO_ERROR_TX_OVERFLOW;
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}
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frame.id = buffer->ident;
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frame.dlc = buffer->DLC;
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frame.flags = (buffer->rtr ? CAN_FRAME_RTR : 0);
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memcpy(frame.data, buffer->data, buffer->DLC);
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err = can_send(CANmodule->dev, &frame, K_NO_WAIT, canopen_tx_callback,
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CANmodule);
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if (err == -EAGAIN) {
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buffer->bufferFull = true;
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} else if (err != 0) {
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LOG_ERR("failed to send CAN frame (err %d)", err);
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CO_errorReport(CANmodule->em, CO_EM_GENERIC_SOFTWARE_ERROR,
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CO_EMC_COMMUNICATION, 0);
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ret = CO_ERROR_TX_UNCONFIGURED;
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}
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CO_UNLOCK_CAN_SEND();
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return ret;
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}
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void CO_CANclearPendingSyncPDOs(CO_CANmodule_t *CANmodule)
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{
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bool_t tpdoDeleted = false;
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CO_CANtx_t *buffer;
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uint16_t i;
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if (!CANmodule) {
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return;
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}
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CO_LOCK_CAN_SEND();
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for (i = 0; i < CANmodule->tx_size; i++) {
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buffer = &CANmodule->tx_array[i];
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if (buffer->bufferFull && buffer->syncFlag) {
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buffer->bufferFull = false;
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tpdoDeleted = true;
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}
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}
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CO_UNLOCK_CAN_SEND();
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if (tpdoDeleted) {
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CO_errorReport(CANmodule->em, CO_EM_TPDO_OUTSIDE_WINDOW,
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CO_EMC_COMMUNICATION, 0);
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}
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}
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void CO_CANverifyErrors(CO_CANmodule_t *CANmodule)
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{
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CO_EM_t *em = (CO_EM_t *)CANmodule->em;
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struct can_bus_err_cnt err_cnt;
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enum can_state state;
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uint8_t rx_overflows;
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uint32_t errors;
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int err;
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/*
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* TODO: Zephyr lacks an API for reading the rx mailbox
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* overflow counter.
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*/
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rx_overflows = 0;
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err = can_get_state(CANmodule->dev, &state, &err_cnt);
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if (err != 0) {
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LOG_ERR("failed to get CAN controller state (err %d)", err);
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return;
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}
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errors = ((uint32_t)err_cnt.tx_err_cnt << 16) |
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((uint32_t)err_cnt.rx_err_cnt << 8) |
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rx_overflows;
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if (errors != CANmodule->errors) {
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CANmodule->errors = errors;
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if (state == CAN_STATE_BUS_OFF) {
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/* Bus off */
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CO_errorReport(em, CO_EM_CAN_TX_BUS_OFF,
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CO_EMC_BUS_OFF_RECOVERED, errors);
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} else {
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/* Bus not off */
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CO_errorReset(em, CO_EM_CAN_TX_BUS_OFF, errors);
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if ((err_cnt.rx_err_cnt >= 96U) ||
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(err_cnt.tx_err_cnt >= 96U)) {
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/* Bus warning */
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CO_errorReport(em, CO_EM_CAN_BUS_WARNING,
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CO_EMC_NO_ERROR, errors);
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} else {
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/* Bus not warning */
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CO_errorReset(em, CO_EM_CAN_BUS_WARNING,
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errors);
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}
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if (err_cnt.rx_err_cnt >= 128U) {
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/* Bus rx passive */
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CO_errorReport(em, CO_EM_CAN_RX_BUS_PASSIVE,
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CO_EMC_CAN_PASSIVE, errors);
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} else {
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/* Bus not rx passive */
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CO_errorReset(em, CO_EM_CAN_RX_BUS_PASSIVE,
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errors);
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}
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if (err_cnt.tx_err_cnt >= 128U &&
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!CANmodule->first_tx_msg) {
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/* Bus tx passive */
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CO_errorReport(em, CO_EM_CAN_TX_BUS_PASSIVE,
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CO_EMC_CAN_PASSIVE, errors);
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} else if (CO_isError(em, CO_EM_CAN_TX_BUS_PASSIVE)) {
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/* Bus not tx passive */
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CO_errorReset(em, CO_EM_CAN_TX_BUS_PASSIVE,
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errors);
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CO_errorReset(em, CO_EM_CAN_TX_OVERFLOW,
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errors);
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}
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}
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/* This code can be activated if we can read the overflows*/
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if (false && rx_overflows != 0U) {
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CO_errorReport(em, CO_EM_CAN_RXB_OVERFLOW,
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CO_EMC_CAN_OVERRUN, errors);
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}
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}
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}
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static int canopen_init(const struct device *dev)
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{
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ARG_UNUSED(dev);
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k_work_queue_start(&canopen_tx_workq, canopen_tx_workq_stack,
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K_KERNEL_STACK_SIZEOF(canopen_tx_workq_stack),
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CONFIG_CANOPENNODE_TX_WORKQUEUE_PRIORITY, NULL);
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k_thread_name_set(&canopen_tx_workq.thread, "canopen_tx_workq");
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k_work_init(&canopen_tx_queue.work, canopen_tx_retry);
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return 0;
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}
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SYS_INIT(canopen_init, APPLICATION, CONFIG_KERNEL_INIT_PRIORITY_DEFAULT);
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