#include "board.h" #include "soft_can.h" #include "hard_can.h" #include "params.h" #include "rkfifo.h" #include "soft_gs.h" #include "soft_time.h" #include "ver_config.h" #include "soft_can_yy.h" #include "test.h" // 宏定义与hard can同步修改 #define CAN2 HPM_CAN2 #define CAN2_IRQ IRQn_CAN2 #define CAN2_CLK_NAME clock_can2 #define BAUD_1000k (1000000) #define BAUD_500k (500000) #define CAN_RX_FIFO_SIZE 16 #define CAN_TX_FIFO_SIZE 16 /* can 接收结构体 fifo */ static can_receive_buf_t canRxMsgBuffer[CAN_RX_FIFO_SIZE] = {0}; static rkfifo_t canRxFifo = {0}; /* can 发送结构体 FIFO */ static can_transmit_buf_t canTxMsgBuffer[CAN_TX_FIFO_SIZE] = {0}; static rkfifo_t canTxFifo = {0}; static void CAN_FilterConfig(void); /** * @brief can tx rx fifo 初始化 * */ static void canTxRxFifoInit(void) { rkfifo_init(&canRxFifo, &canRxMsgBuffer, sizeof(canRxMsgBuffer), sizeof(can_receive_buf_t)); rkfifo_init(&canTxFifo, &canTxMsgBuffer, sizeof(canTxMsgBuffer), sizeof(can_transmit_buf_t)); } /** * @brief CAN bus 总线初始化 * */ void CAN_BusInit(void) { canTxRxFifoInit(); uint32_t baudrate = 1000 * 1000; CAN1_Mode_Init(baudrate); CAN_FilterConfig(); } /** * @brief CAN 过滤器初始化 * */ void CAN_FilterConfig(void) { // 放在硬件CAN里去处理了 } int canSendMsg(can_transmit_buf_t *pTxMsg) { int ret = 0; if (can_send_message_nonblocking(CAN2, pTxMsg) != status_success ) // 发送失败 { if (rkfifo_in(&canTxFifo, pTxMsg, 1) != 1) { ret = -1; } } return ret; } int canSendVkMsg(unsigned char *data, unsigned char length, unsigned int extid, uint16_t time_out_ms) { // 计算总帧数 unsigned char frame_num = (length - 1) / 8 + 1; uint32_t start_time = micros(); uint8_t sequence = 0; int ret_val = 0; can_transmit_buf_t TxMessage; // 设置固定属性 TxMessage.extend_id = 1; // 扩展帧 TxMessage.remote_frame = 0; // 数据帧 TxMessage.canfd_frame = 0; // 标准CAN,不是CANFD while (sequence < frame_num) { // 基于原始extid计算当前帧的ID uint32_t current_id = extid; // 添加帧标志 if (sequence == 0) current_id |= CAN_MSG_STA; // 起始帧标志 if (sequence == frame_num - 1) current_id |= CAN_MSG_END; // 结束帧标志 // 添加序列号 (左移3位,保留3位空间给标志位) current_id = current_id | (sequence << 3); // 右移3位,去除标志位占用的低位 current_id = current_id >> 3; // 确保是29位扩展ID (0x1FFFFFFF = 29位全1) TxMessage.id = current_id & 0x1FFFFFFF; // 扩展ID帧未使用标准ID // TxMessage.StdId = TxMessage.ExtId & 0x07FF0000; // 设置数据长度 if (length - (sequence + 1) * 8 >= 0) TxMessage.dlc = 8; else TxMessage.dlc = length - sequence * 8; // 复制数据 for (int i = 0; i < TxMessage.dlc; i++) { TxMessage.data[i] = *(data + sequence * 8 + i); } // 发送消息 if (canSendMsg(&TxMessage) == 0) { sequence++; } // 超时检查 if (micros() - start_time > time_out_ms * 1000) { ret_val = -1; break; } // 等待发送完成(如果需要) // while (!has_sent_out && (micros() - start_time <= time_out_ms * 1000)); // has_sent_out = false; } return ret_val; } void CanTxRxServicePoll(void) { can_receive_buf_t msg; while (rkfifo_out(&canRxFifo, &msg, 1) == 1) { // YY_can_rx_decode(&msg); } YY_tx_loop(); } static volatile bool has_sent_out; #ifndef TEST_EN SDK_DECLARE_EXT_ISR_M(CAN2_IRQ, can2_isr) void can2_isr(void) { can_transmit_buf_t can_TxMessage; can_receive_buf_t can_RxMessage; uint8_t flags = can_get_tx_rx_flags(CAN2); /* 处理接收中断 */ if ((flags & CAN_EVENT_RECEIVE) != 0) { /* 直接读取到应用层消息结构(现在就是HPM格式) */ can_read_received_message(CAN2, &can_RxMessage); /* 存入FIFO */ rkfifo_in(&canRxFifo, &can_RxMessage, 1); } /* 处理发送完成中断 */ if ((flags & (CAN_EVENT_TX_PRIMARY_BUF | CAN_EVENT_TX_SECONDARY_BUF)) != 0) { /* 设置发送完成标志 */ has_sent_out = true; /* 检查发送FIFO中是否有待发送消息 */ if (rkfifo_out(&canTxFifo, &can_TxMessage, 1) == 1) { /* 直接发送(已经是HPM格式) */ can_send_message_nonblocking(CAN2, &can_TxMessage); } } /* 清除发送接收标志 */ can_clear_tx_rx_flags(CAN2, flags); /* 处理错误中断 */ uint8_t error_flags = can_get_error_interrupt_flags(CAN2); if (error_flags != 0) { // 可以在这里处理错误 can_clear_error_interrupt_flags(CAN2, error_flags); } } #endif