/* ****************************************************************************** * @file HAL_UART_EX.c * @version V1.0.0 * @date 2021 * @brief LIN HAL module driver. * This file provides firmware functions to manage the following * functionalities of the extensional module: Local Interconnect Network Peripheral (LIN). * @ Initialization and de-initialization functions * @ IO operation functions * @ Peripheral Control functions ****************************************************************************** */ #include "ACM32Fxx_HAL.h" /************************************************************************ * function : HAL_UART_LIN_Master_Transmit * Description: Uart lin master transmit data * input :none * UART_HandleTypeDef *huart: Serial port number * uint8_t Lin_Version: LIN version ,should be UART_LIN_V1D3 or UART_LIN_V2DX. * uint8_t Lin_Id: LIN id * uint8_t *pData: point to the transmit data buffer. * uint8_t Size: Transmit buffer Size. * return: none ************************************************************************/ void HAL_UART_LIN_Master_Transmit(UART_HandleTypeDef *huart, uint8_t Lin_Version, uint8_t Lin_Id, uint8_t *pData, uint8_t Size) { uint8_t Lin_P0,Lin_P1,ucI; uint16_t Lin_Check_Sum = 0; if((Size>8)||(pData == 0)) return; CLEAR_BIT(huart->Instance->IE, UART_EX_IE_LBDI); huart->Instance->CR = 0x0101; //disable uart_rx MODIFY_REG(huart->Instance->BCNT, UART_EX_BCNT_VALUE_MASK, (13)<Instance->BCNT, UART_EX_BCNT_START); SET_BIT(huart->Instance->LCRH, UART_LCRH_BRK); while(!(READ_BIT(huart->Instance->RIS, UART_EX_RIS_BCNTI))){} //Check BCNTI. CLEAR_BIT(huart->Instance->LCRH, UART_LCRH_BRK); HAL_UART_Transmit(huart, (uint8_t*)"\x55", 1, 0); //Transmit sync field Lin_Id &= 0x3F; //Lin address check, 0-63. Lin_P0 = (Lin_Id^(Lin_Id>>1)^(Lin_Id>>2)^(Lin_Id>>4))&0x01; //P0 = ID0^ID1^ID2^ID4 Lin_P1 = (~((Lin_Id>>1)^(Lin_Id>>3)^(Lin_Id>>4)^(Lin_Id>>5)))&0x01; //P1 = ~(ID1^ID3^ID4^ID5) Lin_Id = Lin_Id | (Lin_P0<<6) | (Lin_P1<<7); HAL_UART_Transmit(huart, &Lin_Id, 1, 0); //Transmit pid field if(Lin_Version==UART_LIN_V2DX) Lin_Check_Sum = Lin_Id; //LIN 2.X check sum calc with PID. if(Size) { for(ucI=0;ucI0xFF) Lin_Check_Sum = ((Lin_Check_Sum>>8)+Lin_Check_Sum)&0xFF; } Lin_Check_Sum = (~Lin_Check_Sum) & 0xFF; HAL_UART_Transmit(huart, pData, Size, 0); //Transmit data field HAL_UART_Transmit(huart, (uint8_t*)&Lin_Check_Sum, 1, 0); //Transmit Lin_Check_Sum field } } /************************************************************************ * function : HAL_UART_LIN_Slave_Transmit * Description: Uart lin slave transmit data * input :none * UART_HandleTypeDef *huart: Serial port number * uint8_t Lin_Version: LIN version ,should be UART_LIN_V1D3 or UART_LIN_V2DX. * uint8_t Lin_Id: LIN id * uint8_t *pData: point to the transmit data buffer. * uint8_t Size: Transmit buffer Size. * return: none ************************************************************************/ void HAL_UART_LIN_Slave_Transmit(UART_HandleTypeDef *huart, uint8_t Lin_Version, uint8_t Lin_Id, uint8_t *pData, uint8_t Size) { uint8_t Lin_P0,Lin_P1,ucI; uint16_t Lin_Check_Sum = 0; if((Size>8)||(pData == 0)) return; CLEAR_BIT(huart->Instance->IE, UART_EX_IE_LBDI);//disable LBDI int huart->Instance->CR = 0x0101; //disable uart_rx if(Lin_Version==UART_LIN_V2DX) Lin_Check_Sum = Lin_Id; //LIN 2.X check sum calc with PID. for(ucI=0;ucI0xFF) Lin_Check_Sum = ((Lin_Check_Sum>>8)+Lin_Check_Sum)&0xFF; } Lin_Check_Sum = (~Lin_Check_Sum) & 0xFF; HAL_UART_Transmit(huart, pData, Size, 0); //Transmit data field HAL_UART_Transmit(huart, (uint8_t*)&Lin_Check_Sum, 1, 0); //Transmit Lin_Check_Sum field } /************************************************************************ * function : HAL_UART_LIN_Master_Receive * Description: Uart lin master receive data * input :none * UART_HandleTypeDef *huart: Serial port number * uint8_t Lin_Version: LIN version ,should be UART_LIN_V1D3 or UART_LIN_V2DX. * uint8_t Lin_Id: LIN id * uint8_t *pData: point to the data buffer. * return: uint8_t RxSize ************************************************************************/ uint8_t HAL_UART_LIN_Master_Receive(UART_HandleTypeDef *huart, uint8_t Lin_Version, uint8_t Lin_Id, uint8_t *pData, uint32_t Timeout) { uint8_t Lin_P0,Lin_P1,ucI,RxSize; uint8_t Lin_Rx_Buf[16]; uint8_t ucStatus; uint16_t Lin_Check_Sum = 0; uint32_t u32_Timeout; if(pData == 0) return 0; huart->Instance->CR = 0x0201; //disable uart_tx huart->Instance->ICR = 0xfff; //clear int huart->Instance->LCRH = 0x70; //8 data bit,1 stop bit,0 verify bit,enable FIFO huart->Instance->IFLS = 0x12; //FIFO send and receive number is 8 huart->Instance->IE = 0x00; //Disable all interrupt HAL_UART_Receive(huart, Lin_Rx_Buf, sizeof(Lin_Rx_Buf), Timeout); if(Lin_Version==UART_LIN_V2DX) Lin_Check_Sum = Lin_Id; //LIN 2.X check sum calc with PID. if(huart->lu32_RxCount) { for(ucI=0;ucI<(huart->lu32_RxCount-1);ucI++) { Lin_Check_Sum += Lin_Rx_Buf[ucI]; if(Lin_Check_Sum>0xFF) Lin_Check_Sum = ((Lin_Check_Sum>>8)+Lin_Check_Sum)&0xFF; } Lin_Check_Sum = (~Lin_Check_Sum) & 0xFF; if((uint8_t)Lin_Check_Sum == Lin_Rx_Buf[ucI]) { RxSize = huart->lu32_RxCount; memcpy(pData, (uint8_t*)Lin_Rx_Buf, RxSize); } else RxSize = 0xFF; } else RxSize = 0; return RxSize; } /************************************************************************ * function : HAL_UART_LIN_Slave_Receive * Description: Uart lin slave receive head * input :none * UART_HandleTypeDef *huart: Serial port number * uint8_t Lin_Version: LIN version ,should be UART_LIN_V1D3 or UART_LIN_V2DX. * uint8_t *pData: point to the data buffer. * return: uint8_t RxSize ************************************************************************/ uint8_t HAL_UART_LIN_Slave_Receive(UART_HandleTypeDef *huart, uint8_t Lin_Version, uint8_t *pData, uint32_t Timeout) { uint8_t Lin_P0,Lin_P1,ucI,RxSize; uint8_t Lin_Rx_Buf[16]; uint8_t ucStatus; uint16_t Lin_Check_Sum = 0; uint32_t u32_Timeout; if(pData == 0) return 0; huart->Instance->CR = 0x0201; //disable uart_tx huart->Instance->ICR = 0xfff; //clear int CLEAR_BIT(huart->Instance->IE, UART_EX_IE_LBDI); //Disable LBDI int if (Timeout == 0) { while(!READ_BIT(huart->Instance->RIS, UART_EX_RIS_LBDI)); } else { u32_Timeout = Timeout * 0xFF; while(!READ_BIT(huart->Instance->RIS, UART_EX_RIS_LBDI)) { if (u32_Timeout-- == 0) { return 0; } } } CLEAR_BIT(huart->Instance->RIS, UART_EX_RIS_LBDI); huart->Instance->LCRH = 0x70; //8 data bit,1 stop bit,0 verify bit,enable FIFO huart->Instance->IFLS = 0x12; //FIFO send and receive number is 8 huart->Instance->IE = 0x00; //Disable all interrupt HAL_UART_Receive(huart, Lin_Rx_Buf, sizeof(Lin_Rx_Buf), Timeout); //waitting rx completed. if(huart->lu32_RxCount > 3) { if(Lin_Version==UART_LIN_V2DX) Lin_Check_Sum = Lin_Rx_Buf[2]; //LIN 2.X check sum calc with PID. if(huart->lu32_RxCount) { for(ucI=3;ucI<(huart->lu32_RxCount-1);ucI++) { Lin_Check_Sum += Lin_Rx_Buf[ucI]; if(Lin_Check_Sum>0xFF) Lin_Check_Sum = ((Lin_Check_Sum>>8)+Lin_Check_Sum)&0xFF; } Lin_Check_Sum = (~Lin_Check_Sum) & 0xFF; if((uint8_t)Lin_Check_Sum == Lin_Rx_Buf[ucI]) { RxSize = huart->lu32_RxCount; memcpy(pData, (uint8_t*)Lin_Rx_Buf, RxSize); } else RxSize = 0xFF; } } else if(huart->lu32_RxCount<=3) { RxSize = huart->lu32_RxCount; memcpy(pData, (uint8_t*)Lin_Rx_Buf, RxSize); } else RxSize = 0; return RxSize; }