Fawwaz Nadzmy
mbed library sources. Supersedes mbed-src.
Fork of
mbed-dev
by 
mbed official
Diff: targets/TARGET_NUVOTON/TARGET_NUC472/device/StdDriver/nuc472_can.c
- Revision:
- 153:9398a535854b
- Parent:
- 152:9a67f0b066fc
--- a/targets/TARGET_NUVOTON/TARGET_NUC472/device/StdDriver/nuc472_can.c Thu Dec 15 11:48:27 2016 +0000
+++ /dev/null Thu Jan 01 00:00:00 1970 +0000
@@ -1,750 +0,0 @@
-/**************************************************************************//**
- * @file CAN.c
- * @version V1.00
- * $Revision: 14 $
- * $Date: 14/10/06 5:38p $
- * @brief NUC472/NUC442 CAN driver source file
- *
- * @note
- * Copyright (C) 2013 Nuvoton Technology Corp. All rights reserved.
-*****************************************************************************/
-
-#include "NUC472_442.h"
-/** @addtogroup NUC472_442_Device_Driver NUC472/NUC442 Device Driver
- @{
-*/
-
-/** @addtogroup NUC472_442_CAN_Driver CAN Driver
- @{
-*/
-
-
-/** @addtogroup NUC472_442_CAN_EXPORTED_FUNCTIONS CAN Exported Functions
- @{
-*/
-
-#include <stdio.h>
-
-
-/// @cond HIDDEN_SYMBOLS
-
-
-static uint32_t GetFreeIF(CAN_T *tCAN);
-
-
-//#define DEBUG_PRINTF printf
-#define DEBUG_PRINTF(...)
-
-/**
- * @brief Check if SmartCard slot is presented.
- * @param[in] tCAN The base address of can module.
- * @retval 0 IF0 is free
- * @retval 1 IF1 is free
- * @retval 2 No IF is free
- * @details Search the first free message interface, starting from 0.
- */
-static uint32_t GetFreeIF(CAN_T *tCAN)
-{
- if((tCAN->IF[0].CREQ & CAN_IF_CREQ_BUSY_Msk) == 0)
- return 0;
- else if((tCAN->IF[1].CREQ & CAN_IF_CREQ_BUSY_Msk) == 0)
- return 1;
- else
- return 2;
-}
-
-/**
- * @brief Enter initialization mode
- * @param[in] tCAN The base address of can module.
- * @return None
- * @details This function is used to set CAN to enter initialization mode and enable access bit timing
- * register. After bit timing configuration ready, user must call CAN_LeaveInitMode()
- * to leave initialization mode and lock bit timing register to let new configuration
- * take effect.
- */
-void CAN_EnterInitMode(CAN_T *tCAN)
-{
- tCAN->CON |= CAN_CON_INIT_Msk;
- tCAN->CON |= CAN_CON_CCE_Msk;
-}
-
-
-/**
- * @brief Leave initialization mode
- * @param[in] tCAN The base address of can module.
- * @return None
- * @details This function is used to set CAN to leave initialization mode to let
- * bit timing configuration take effect after configuration ready.
- */
-void CAN_LeaveInitMode(CAN_T *tCAN)
-{
- tCAN->CON &= (~(CAN_CON_INIT_Msk | CAN_CON_CCE_Msk));
-
- while(tCAN->CON & CAN_CON_INIT_Msk); /* Check INIT bit is released */
-}
-
-/**
- * @brief Wait message into message buffer in basic mode.
- * @param[in] tCAN The base address of can module.
- * @return None
- * @details This function is used to wait message into message buffer in basic mode. Please notice the
- * function is polling NEWDAT bit of MCON register by while loop and it is used in basic mode.
- */
-void CAN_WaitMsg(CAN_T *tCAN)
-{
- tCAN->STATUS = 0x0; /* clr status */
-
- while (1) {
- if(tCAN->IF[1].MCON & CAN_IF_MCON_NEWDAT_Msk) { /* check new data */
- DEBUG_PRINTF("New Data IN\n");
- break;
- }
- if(tCAN->STATUS & CAN_STATUS_RXOK_Msk)
- DEBUG_PRINTF("Rx OK\n");
-
- if(tCAN->STATUS & CAN_STATUS_LEC_Msk) {
- DEBUG_PRINTF("Error\n");
- }
- }
-}
-
-/**
- * @brief Get current bit rate
- * @param[in] tCAN The base address of can module.
- * @return Current Bit-Rate (kilo bit per second)
- * @details Return current CAN bit rate according to the user bit-timing parameter settings
- */
-uint32_t CAN_GetCANBitRate(CAN_T *tCAN)
-{
- uint8_t u8Tseg1,u8Tseg2;
- uint32_t u32Bpr;
-
- u8Tseg1 = (tCAN->BTIME & CAN_BTIME_TSEG1_Msk) >> CAN_BTIME_TSEG1_Pos;
- u8Tseg2 = (tCAN->BTIME & CAN_BTIME_TSEG2_Msk) >> CAN_BTIME_TSEG2_Pos;
- u32Bpr = (tCAN->BTIME & CAN_BTIME_BRP_Msk) | (tCAN->BRPE << 6);
-
- return (SystemCoreClock/(u32Bpr+1)/(u8Tseg1 + u8Tseg2 + 3));
-}
-
-/**
- * @brief Switch the CAN into test mode.
- * @param[in] tCAN The base address of can module.
- * @param[in] u8TestMask Specifies the configuration in test modes
- * CAN_TEST_BASIC_Msk : Enable basic mode of test mode
- * CAN_TESTR_SILENT_Msk : Enable silent mode of test mode
- * CAN_TESTR_LBACK_Msk : Enable Loop Back Mode of test mode
- * CAN_TESTR_TX0_Msk/CAN_TESTR_TX1_Msk: Control CAN_TX pin bit field
- * @return None
- * @details Switch the CAN into test mode. There are four test mode (BASIC/SILENT/LOOPBACK/
- * LOOPBACK combined SILENT/CONTROL_TX_PIN)could be selected. After setting test mode,user
- * must call CAN_LeaveInitMode() to let the setting take effect.
- */
-void CAN_EnterTestMode(CAN_T *tCAN, uint8_t u8TestMask)
-{
- tCAN->CON |= CAN_CON_TEST_Msk;
- tCAN->TEST = u8TestMask;
-}
-
-
-/**
- * @brief Leave the test mode
- * @param[in] tCAN The base address of can module.
- * @return None
- * @details This function is used to Leave the test mode (switch into normal mode).
- */
-void CAN_LeaveTestMode(CAN_T *tCAN)
-{
- tCAN->CON |= CAN_CON_TEST_Msk;
- tCAN->TEST &= ~(CAN_TEST_LBACK_Msk | CAN_TEST_SILENT_Msk | CAN_TEST_BASIC_Msk);
- tCAN->CON &= (~CAN_CON_TEST_Msk);
-}
-
-/**
- * @brief Get the waiting status of a received message.
- * @param[in] tCAN The base address of can module.
- * @param[in] u8MsgObj Specifies the Message object number, from 0 to 31.
- * @retval non-zero The corresponding message object has a new data bit is set.
- * @retval 0 No message object has new data.
- * @details This function is used to get the waiting status of a received message.
- */
-uint32_t CAN_IsNewDataReceived(CAN_T *tCAN, uint8_t u8MsgObj)
-{
- return (u8MsgObj < 16 ? tCAN->NDAT1 & (1 << u8MsgObj) : tCAN->NDAT2 & (1 << (u8MsgObj-16)));
-}
-
-
-/**
- * @brief Send CAN message in BASIC mode of test mode
- * @param[in] tCAN The base address of can module.
- * @param[in] pCanMsg Pointer to the message structure containing data to transmit.
- * @return TRUE: Transmission OK
- * FALSE: Check busy flag of interface 0 is timeout
- * @details The function is used to send CAN message in BASIC mode of test mode. Before call the API,
- * the user should be call CAN_EnterTestMode(CAN_TESTR_BASIC) and let CAN controller enter
- * basic mode of test mode. Please notice IF1 Registers used as Tx Buffer in basic mode.
- */
-int32_t CAN_BasicSendMsg(CAN_T *tCAN, STR_CANMSG_T* pCanMsg)
-{
- uint32_t i=0;
- while(tCAN->IF[0].CREQ & CAN_IF_CREQ_BUSY_Msk);
-
- tCAN->STATUS &= (~CAN_STATUS_TXOK_Msk);
-
- tCAN->IF[0].CMASK = CAN_IF_CMASK_WRRD_Msk;
-
- if (pCanMsg->IdType == CAN_STD_ID) {
- /* standard ID*/
- tCAN->IF[0].ARB1 = 0;
- tCAN->IF[0].ARB2 = (((pCanMsg->Id)&0x7FF)<<2) ;
- } else {
- /* extended ID*/
- tCAN->IF[0].ARB1 = (pCanMsg->Id)&0xFFFF;
- tCAN->IF[0].ARB2 = ((pCanMsg->Id)&0x1FFF0000)>>16 | CAN_IF_ARB2_XTD_Msk;
-
- }
-
- if(pCanMsg->FrameType)
- tCAN->IF[0].ARB2 |= CAN_IF_ARB2_DIR_Msk;
- else
- tCAN->IF[0].ARB2 &= (~CAN_IF_ARB2_DIR_Msk);
-
- tCAN->IF[0].MCON = (tCAN->IF[0].MCON & (~CAN_IF_MCON_DLC_Msk)) | pCanMsg->DLC;
- tCAN->IF[0].DAT_A1 = ((uint16_t)pCanMsg->Data[1]<<8) | pCanMsg->Data[0];
- tCAN->IF[0].DAT_A2 = ((uint16_t)pCanMsg->Data[3]<<8) | pCanMsg->Data[2];
- tCAN->IF[0].DAT_B1 = ((uint16_t)pCanMsg->Data[5]<<8) | pCanMsg->Data[4];
- tCAN->IF[0].DAT_B2 = ((uint16_t)pCanMsg->Data[7]<<8) | pCanMsg->Data[6];
-
- /* request transmission*/
- tCAN->IF[0].CREQ &= (~CAN_IF_CREQ_BUSY_Msk);
- if(tCAN->IF[0].CREQ & CAN_IF_CREQ_BUSY_Msk) {
- DEBUG_PRINTF("Cannot clear busy for sending ...\n");
- return FALSE;
- }
-
- tCAN->IF[0].CREQ |= CAN_IF_CREQ_BUSY_Msk; // sending
-
- for ( i=0; i<0xFFFFF; i++) {
- if((tCAN->IF[0].CREQ & CAN_IF_CREQ_BUSY_Msk) == 0) break;
- }
-
- if ( i >= 0xFFFFF ) {
- DEBUG_PRINTF("Cannot send out...\n");
- return FALSE;
- }
-
- return TRUE;
-}
-
-
-/**
- * @brief Get a message information in BASIC mode.
- *
- * @param[in] tCAN The base address of can module.
- * @param[out] pCanMsg Pointer to the message structure where received data is copied.
- *
- * @return FALSE No any message received. \n
- * TRUE Receive a message success.
- *
- */
-int32_t CAN_BasicReceiveMsg(CAN_T *tCAN, STR_CANMSG_T* pCanMsg)
-{
- if((tCAN->IF[1].MCON & CAN_IF_MCON_NEWDAT_Msk) == 0) { /* In basic mode, receive data always save in IF2 */
- return FALSE;
- }
-
- tCAN->STATUS &= (~CAN_STATUS_RXOK_Msk);
-
- tCAN->IF[1].CMASK = CAN_IF_CMASK_ARB_Msk
- | CAN_IF_CMASK_CONTROL_Msk
- | CAN_IF_CMASK_DATAA_Msk
- | CAN_IF_CMASK_DATAB_Msk;
-
- if((tCAN->IF[1].ARB2 & CAN_IF_ARB2_XTD_Msk) == 0) {
- /* standard ID*/
- pCanMsg->IdType = CAN_STD_ID;
- pCanMsg->Id = (tCAN->IF[1].ARB2 >> 2) & 0x07FF;
-
- } else {
- /* extended ID*/
- pCanMsg->IdType = CAN_EXT_ID;
- pCanMsg->Id = (tCAN->IF[1].ARB2 & 0x1FFF)<<16;
- pCanMsg->Id |= (uint32_t)tCAN->IF[1].ARB1;
- }
-
- pCanMsg->FrameType = !((tCAN->IF[1].ARB2 & CAN_IF_ARB2_DIR_Msk) >> CAN_IF_ARB2_DIR_Pos);
-
- pCanMsg->DLC = tCAN->IF[1].MCON & CAN_IF_MCON_DLC_Msk;
- pCanMsg->Data[0] = tCAN->IF[1].DAT_A1 & CAN_IF_DAT_A1_DATA0_Msk;
- pCanMsg->Data[1] = (tCAN->IF[1].DAT_A1 & CAN_IF_DAT_A1_DATA1_Msk) >> CAN_IF_DAT_A1_DATA1_Pos;
- pCanMsg->Data[2] = tCAN->IF[1].DAT_A2 & CAN_IF_DAT_A2_DATA2_Msk;
- pCanMsg->Data[3] = (tCAN->IF[1].DAT_A2 & CAN_IF_DAT_A2_DATA3_Msk) >> CAN_IF_DAT_A2_DATA3_Pos;
- pCanMsg->Data[4] = tCAN->IF[1].DAT_B1 & CAN_IF_DAT_B1_DATA4_Msk;
- pCanMsg->Data[5] = (tCAN->IF[1].DAT_B1 & CAN_IF_DAT_B1_DATA5_Msk) >> CAN_IF_DAT_B1_DATA5_Pos;
- pCanMsg->Data[6] = tCAN->IF[1].DAT_B2 & CAN_IF_DAT_B2_DATA6_Msk;
- pCanMsg->Data[7] = (tCAN->IF[1].DAT_B2 & CAN_IF_DAT_B2_DATA7_Msk) >> CAN_IF_DAT_B2_DATA7_Pos;
-
- return TRUE;
-}
-
-/**
- * @brief Set Rx message object
- * @param[in] tCAN The base address of can module.
- * @param[in] u8MsgObj Specifies the Message object number, from 0 to 31.
- * @param[in] u8idType Specifies the identifier type of the frames that will be transmitted
- * This parameter can be one of the following values:
- * CAN_STD_ID (standard ID, 11-bit)
- * CAN_EXT_ID (extended ID, 29-bit)
- * @param[in] u32id Specifies the identifier used for acceptance filtering.
- * @param[in] u8singleOrFifoLast Specifies the end-of-buffer indicator.
- * This parameter can be one of the following values:
- * TRUE: for a single receive object or a FIFO receive object that is the last one of the FIFO.
- * FALSE: for a FIFO receive object that is not the last one.
- * @retval TRUE SUCCESS
- * @retval FALSE No useful interface
- * @details The function is used to configure a receive message object.
- */
-int32_t CAN_SetRxMsgObj(CAN_T *tCAN, uint8_t u8MsgObj, uint8_t u8idType, uint32_t u32id, uint8_t u8singleOrFifoLast)
-{
- uint8_t u8MsgIfNum=0;
-
- if ((u8MsgIfNum = GetFreeIF(tCAN)) == 2) { /* Check Free Interface for configure */
- return FALSE;
- }
- /* Command Setting */
- tCAN->IF[u8MsgIfNum].CMASK = CAN_IF_CMASK_WRRD_Msk | CAN_IF_CMASK_MASK_Msk | CAN_IF_CMASK_ARB_Msk |
- CAN_IF_CMASK_CONTROL_Msk | CAN_IF_CMASK_DATAA_Msk | CAN_IF_CMASK_DATAB_Msk;
-
- if (u8idType == CAN_STD_ID) { /* According STD/EXT ID format,Configure Mask and Arbitration register */
- tCAN->IF[u8MsgIfNum].ARB1 = 0;
- tCAN->IF[u8MsgIfNum].ARB2 = CAN_IF_ARB2_MSGVAL_Msk | (u32id & 0x7FF)<< 2;
- } else {
- tCAN->IF[u8MsgIfNum].ARB1 = u32id & 0xFFFF;
- tCAN->IF[u8MsgIfNum].ARB2 = CAN_IF_ARB2_MSGVAL_Msk | CAN_IF_ARB2_XTD_Msk | (u32id & 0x1FFF0000)>>16;
- }
-
- tCAN->IF[u8MsgIfNum].MCON |= CAN_IF_MCON_UMASK_Msk | CAN_IF_MCON_RXIE_Msk;
- if(u8singleOrFifoLast)
- tCAN->IF[u8MsgIfNum].MCON |= CAN_IF_MCON_EOB_Msk;
- else
- tCAN->IF[u8MsgIfNum].MCON &= (~CAN_IF_MCON_EOB_Msk);
-
- tCAN->IF[u8MsgIfNum].DAT_A1 = 0;
- tCAN->IF[u8MsgIfNum].DAT_A2 = 0;
- tCAN->IF[u8MsgIfNum].DAT_B1 = 0;
- tCAN->IF[u8MsgIfNum].DAT_B2 = 0;
-
- tCAN->IF[u8MsgIfNum].CREQ = 1 + u8MsgObj;
-
- return TRUE;
-}
-
-
-/**
- * @brief Gets the message
- * @param[in] tCAN The base address of can module.
- * @param[in] u8MsgObj Specifies the Message object number, from 0 to 31.
- * @param[in] u8Release Specifies the message release indicator.
- * This parameter can be one of the following values:
- * TRUE: the message object is released when getting the data.
- * FALSE:the message object is not released.
- * @param[out] pCanMsg Pointer to the message structure where received data is copied.
- * @retval TRUE Success
- * @retval FALSE No any message received
- * @details Gets the message, if received.
- */
-int32_t CAN_ReadMsgObj(CAN_T *tCAN, uint8_t u8MsgObj, uint8_t u8Release, STR_CANMSG_T* pCanMsg)
-{
- if (!CAN_IsNewDataReceived(tCAN, u8MsgObj)) {
- return FALSE;
- }
-
- tCAN->STATUS &= (~CAN_STATUS_RXOK_Msk);
-
- /* read the message contents*/
- tCAN->IF[1].CMASK = CAN_IF_CMASK_MASK_Msk
- | CAN_IF_CMASK_ARB_Msk
- | CAN_IF_CMASK_CONTROL_Msk
- | CAN_IF_CMASK_CLRINTPND_Msk
- | (u8Release ? CAN_IF_CMASK_TXRQSTNEWDAT_Msk : 0)
- | CAN_IF_CMASK_DATAA_Msk
- | CAN_IF_CMASK_DATAB_Msk;
-
- tCAN->IF[1].CREQ = 1 + u8MsgObj;
-
- while (tCAN->IF[1].CREQ & CAN_IF_CREQ_BUSY_Msk) {
- /*Wait*/
- }
-
- if ((tCAN->IF[1].ARB2 & CAN_IF_ARB2_XTD_Msk) == 0) {
- /* standard ID*/
- pCanMsg->IdType = CAN_STD_ID;
- pCanMsg->Id = (tCAN->IF[1].ARB2 & CAN_IF_ARB2_ID_Msk) >> 2;
- } else {
- /* extended ID*/
- pCanMsg->IdType = CAN_EXT_ID;
- pCanMsg->Id = (((tCAN->IF[1].ARB2) & 0x1FFF)<<16) | tCAN->IF[1].ARB1;
- }
-
- pCanMsg->DLC = tCAN->IF[1].MCON & CAN_IF_MCON_DLC_Msk;
- pCanMsg->Data[0] = tCAN->IF[1].DAT_A1 & CAN_IF_DAT_A1_DATA0_Msk;
- pCanMsg->Data[1] = (tCAN->IF[1].DAT_A1 & CAN_IF_DAT_A1_DATA1_Msk) >> CAN_IF_DAT_A1_DATA1_Pos;
- pCanMsg->Data[2] = tCAN->IF[1].DAT_A2 & CAN_IF_DAT_A2_DATA2_Msk;
- pCanMsg->Data[3] = (tCAN->IF[1].DAT_A2 & CAN_IF_DAT_A2_DATA3_Msk) >> CAN_IF_DAT_A2_DATA3_Pos;
- pCanMsg->Data[4] = tCAN->IF[1].DAT_B1 & CAN_IF_DAT_B1_DATA4_Msk;
- pCanMsg->Data[5] = (tCAN->IF[1].DAT_B1 & CAN_IF_DAT_B1_DATA5_Msk) >> CAN_IF_DAT_B1_DATA5_Pos;
- pCanMsg->Data[6] = tCAN->IF[1].DAT_B2 & CAN_IF_DAT_B2_DATA6_Msk;
- pCanMsg->Data[7] = (tCAN->IF[1].DAT_B2 & CAN_IF_DAT_B2_DATA7_Msk) >> CAN_IF_DAT_B2_DATA7_Pos;
-
- return TRUE;
-}
-
-/// @endcond HIDDEN_SYMBOLS
-
-
-/**
- * @brief The function is used to set bus timing parameter according current clock and target baud-rate.
- *
- * @param[in] tCAN The base address of can module
- * @param[in] u32BaudRate The target CAN baud-rate. The range of u32BaudRate is 1~1000KHz
- *
- * @return u32CurrentBitRate Real baud-rate value
- */
-uint32_t CAN_SetBaudRate(CAN_T *tCAN, uint32_t u32BaudRate)
-{
- uint8_t u8Tseg1,u8Tseg2;
- uint32_t u32Brp;
- uint32_t u32Value;
-
- CAN_EnterInitMode(tCAN);
-
- SystemCoreClockUpdate();
-
-#if 0 // original implementation got 5% inaccuracy.
- u32Value = SystemCoreClock;
-
- if(u32BaudRate * 8 < (u32Value/2)) {
- u8Tseg1 = 2;
- u8Tseg2 = 3;
- } else {
- u8Tseg1 = 2;
- u8Tseg2 = 1;
- }
-#else
- u32Value = SystemCoreClock / u32BaudRate;
- /* Fix for most standard baud rates, include 125K */
-
- u8Tseg1 = 3;
- u8Tseg2 = 2;
- while(1)
- {
- if(((u32Value % (u8Tseg1 + u8Tseg2 + 3)) == 0) | (u8Tseg1 >= 15))
- break;
-
- u8Tseg1++;
-
- if((u32Value % (u8Tseg1 + u8Tseg2 + 3)) == 0)
- break;
-
- if(u8Tseg2 < 7)
- u8Tseg2++;
- }
-#endif
- u32Brp = SystemCoreClock/(u32BaudRate) / (u8Tseg1 + u8Tseg2 + 3) -1;
-
- u32Value = ((uint32_t)u8Tseg2 << CAN_BTIME_TSEG2_Pos) | ((uint32_t)u8Tseg1 << CAN_BTIME_TSEG1_Pos) |
- (u32Brp & CAN_BTIME_BRP_Msk) | (tCAN->BTIME & CAN_BTIME_SJW_Msk);
- tCAN->BTIME = u32Value;
- tCAN->BRPE = (u32Brp >> 6) & 0x0F;
-
- CAN_LeaveInitMode(tCAN);
-
- return (CAN_GetCANBitRate(tCAN));
-
-}
-
-/**
- * @brief The function is used to disable all CAN interrupt.
- *
- * @param[in] tCAN The base address of can module
- *
- * @return None
- */
-void CAN_Close(CAN_T *tCAN)
-{
- CAN_DisableInt(tCAN, (CAN_CON_IE_Msk|CAN_CON_SIE_Msk|CAN_CON_EIE_Msk));
-}
-
-/**
- * @brief The function is sets bus timing parameter according current clock and target baud-rate. And set CAN operation mode.
- *
- * @param[in] tCAN The base address of can module
- * @param[in] u32BaudRate The target CAN baud-rate. The range of u32BaudRate is 1~1000KHz
- * @param[in] u32Mode The CAN operation mode. ( \ref CAN_NORMAL_MODE / \ref CAN_BASIC_MODE)
- *
- * @return u32CurrentBitRate Real baud-rate value
- */
-uint32_t CAN_Open(CAN_T *tCAN, uint32_t u32BaudRate, uint32_t u32Mode)
-{
- uint32_t u32CurrentBitRate;
-
- u32CurrentBitRate = CAN_SetBaudRate(tCAN, u32BaudRate);
-
- if(u32Mode == CAN_BASIC_MODE)
- CAN_EnterTestMode(tCAN, CAN_TEST_BASIC_Msk);
-
- return u32CurrentBitRate;
-}
-
-/**
- * @brief The function is used to configure a transmit object.
- *
- * @param[in] tCAN The base address of can module.
- * @param[in] u32MsgNum Specifies the Message object number, from 0 to 31
- * @param[in] pCanMsg Pointer to the message structure where received data is copied.
- *
- * @return FALSE: No useful interface. \n
- * TRUE : Config message object success.
- *
- */
-int32_t CAN_SetTxMsg(CAN_T *tCAN, uint32_t u32MsgNum , STR_CANMSG_T* pCanMsg)
-{
- uint8_t u8MsgIfNum=0;
- uint32_t i=0;
-
- while((u8MsgIfNum = GetFreeIF(tCAN)) == 2) {
- i++;
- if(i > 0x10000000)
- return FALSE;
- }
-
- /* update the contents needed for transmission*/
- tCAN->IF[u8MsgIfNum].CMASK = 0xF3; /*CAN_CMASK_WRRD_Msk | CAN_CMASK_MASK_Msk | CAN_CMASK_ARB_Msk
- | CAN_CMASK_CONTROL_Msk | CAN_CMASK_DATAA_Msk | CAN_CMASK_DATAB_Msk ; */
-
- if (pCanMsg->IdType == CAN_STD_ID) {
- /* standard ID*/
- tCAN->IF[u8MsgIfNum].ARB1 = 0;
- tCAN->IF[u8MsgIfNum].ARB2 = (((pCanMsg->Id)&0x7FF)<<2) | CAN_IF_ARB2_DIR_Msk | CAN_IF_ARB2_MSGVAL_Msk;
- } else {
- /* extended ID*/
- tCAN->IF[u8MsgIfNum].ARB1 = (pCanMsg->Id)&0xFFFF;
- tCAN->IF[u8MsgIfNum].ARB2 = ((pCanMsg->Id)&0x1FFF0000)>>16 | CAN_IF_ARB2_DIR_Msk
- | CAN_IF_ARB2_XTD_Msk | CAN_IF_ARB2_MSGVAL_Msk;
- }
-
- if(pCanMsg->FrameType)
- tCAN->IF[u8MsgIfNum].ARB2 |= CAN_IF_ARB2_DIR_Msk;
- else
- tCAN->IF[u8MsgIfNum].ARB2 &= (~CAN_IF_ARB2_DIR_Msk);
-
- tCAN->IF[u8MsgIfNum].DAT_A1 = ((uint16_t)pCanMsg->Data[1]<<8) | pCanMsg->Data[0];
- tCAN->IF[u8MsgIfNum].DAT_A2 = ((uint16_t)pCanMsg->Data[3]<<8) | pCanMsg->Data[2];
- tCAN->IF[u8MsgIfNum].DAT_B1 = ((uint16_t)pCanMsg->Data[5]<<8) | pCanMsg->Data[4];
- tCAN->IF[u8MsgIfNum].DAT_B2 = ((uint16_t)pCanMsg->Data[7]<<8) | pCanMsg->Data[6];
-
- tCAN->IF[u8MsgIfNum].MCON = CAN_IF_MCON_NEWDAT_Msk | pCanMsg->DLC |CAN_IF_MCON_TXIE_Msk | CAN_IF_MCON_EOB_Msk;
- tCAN->IF[u8MsgIfNum].CREQ = 1 + u32MsgNum;
-
- return TRUE;
-}
-
-/**
- * @brief Set transmit request bit
- *
- * @param[in] tCAN The base address of can module.
- * @param[in] u32MsgNum Specifies the Message object number, from 0 to 31.
- *
- * @return TRUE: Start transmit message.
- */
-int32_t CAN_TriggerTxMsg(CAN_T *tCAN, uint32_t u32MsgNum)
-{
- STR_CANMSG_T rMsg;
- CAN_ReadMsgObj(tCAN, u32MsgNum,TRUE, &rMsg);
- tCAN->IF[0].CMASK = CAN_IF_CMASK_WRRD_Msk |CAN_IF_CMASK_TXRQSTNEWDAT_Msk;
- tCAN->IF[0].CREQ = 1 + u32MsgNum;
-
- return TRUE;
-}
-
-/**
- * @brief Enable CAN interrupt
- *
- * @param[in] tCAN The base address of can module.
- * @param[in] u32Mask Interrupt Mask. ( \ref CAN_CON_IE_Msk / \ref CAN_CON_SIE_Msk / \ref CAN_CON_EIE_Msk)
- *
- * @return None
- */
-void CAN_EnableInt(CAN_T *tCAN, uint32_t u32Mask)
-{
- CAN_EnterInitMode(tCAN);
-
- tCAN->CON = (tCAN->CON & 0xF1) | ((u32Mask & CAN_CON_IE_Msk )? CAN_CON_IE_Msk :0)
- | ((u32Mask & CAN_CON_SIE_Msk )? CAN_CON_SIE_Msk:0)
- | ((u32Mask & CAN_CON_EIE_Msk )? CAN_CON_EIE_Msk:0);
-
-
- CAN_LeaveInitMode(tCAN);
-}
-
-/**
- * @brief Disable CAN interrupt
- *
- * @param[in] tCAN The base address of can module.
- * @param[in] u32Mask Interrupt Mask. ( \ref CAN_CON_IE_Msk / \ref CAN_CON_SIE_Msk / \ref CAN_CON_EIE_Msk)
- *
- * @return None
- */
-void CAN_DisableInt(CAN_T *tCAN, uint32_t u32Mask)
-{
- CAN_EnterInitMode(tCAN);
-
- tCAN->CON = tCAN->CON & ~(CAN_CON_IE_Msk | ((u32Mask & CAN_CON_SIE_Msk)?CAN_CON_SIE_Msk:0)
- | ((u32Mask & CAN_CON_EIE_Msk)?CAN_CON_EIE_Msk:0));
-
- CAN_LeaveInitMode(tCAN);
-}
-
-
-/**
- * @brief The function is used to configure a receive message object
- *
- * @param[in] tCAN The base address of can module.
- * @param[in] u32MsgNum Specifies the Message object number, from 0 to 31
- * @param[in] u32IDType Specifies the identifier type of the frames that will be transmitted. ( \ref CAN_STD_ID / \ref CAN_EXT_ID)
- * @param[in] u32ID Specifies the identifier used for acceptance filtering.
- *
- * @return FALSE: No useful interface \n
- * TRUE : Configure a receive message object success.
- *
- */
-int32_t CAN_SetRxMsg(CAN_T *tCAN, uint32_t u32MsgNum , uint32_t u32IDType, uint32_t u32ID)
-{
- uint32_t u32TimeOutCount = 0;
-
- while(CAN_SetRxMsgObj(tCAN, u32MsgNum, u32IDType, u32ID, TRUE) == FALSE) {
- u32TimeOutCount++;
-
- if(u32TimeOutCount >= 0x10000000) return FALSE;
- }
-
- return TRUE;
-}
-
-/**
- * @brief The function is used to configure several receive message objects
- *
- * @param[in] tCAN The base address of can module.
- * @param[in] u32MsgNum The starting MSG RAM number. (0 ~ 31)
- * @param[in] u32MsgCount the number of MSG RAM of the FIFO.
- * @param[in] u32IDType Specifies the identifier type of the frames that will be transmitted. ( \ref CAN_STD_ID / \ref CAN_EXT_ID)
- * @param[in] u32ID Specifies the identifier used for acceptance filtering.
- *
- * @return FALSE: No useful interface \n
- * TRUE : Configure receive message objects success.
- *
- */
-int32_t CAN_SetMultiRxMsg(CAN_T *tCAN, uint32_t u32MsgNum , uint32_t u32MsgCount, uint32_t u32IDType, uint32_t u32ID)
-{
- uint32_t i = 0;
- uint32_t u32TimeOutCount;
- uint32_t u32EOB_Flag = 0;
-
- for(i= 1; i < u32MsgCount; i++) {
- u32TimeOutCount = 0;
-
- u32MsgNum += (i - 1);
-
- if(i == u32MsgCount) u32EOB_Flag = 1;
-
- while(CAN_SetRxMsgObj(tCAN, u32MsgNum, u32IDType, u32ID, u32EOB_Flag) == FALSE) {
- u32TimeOutCount++;
-
- if(u32TimeOutCount >= 0x10000000) return FALSE;
- }
- }
-
- return TRUE;
-}
-
-
-/**
- * @brief Send CAN message.
- * @param[in] tCAN The base address of can module.
- * @param[in] u32MsgNum Specifies the Message object number, from 0 to 31
- * @param[in] pCanMsg Pointer to the message structure where received data is copied.
- *
- * @return FALSE: When operation in basic mode: Transmit message time out, or when operation in normal mode: No useful interface. \n
- * TRUE : Transmit Message success.
- */
-int32_t CAN_Transmit(CAN_T *tCAN, uint32_t u32MsgNum , STR_CANMSG_T* pCanMsg)
-{
- if((tCAN->CON & CAN_CON_TEST_Msk) && (tCAN->TEST & CAN_TEST_BASIC_Msk)) {
- return (CAN_BasicSendMsg(tCAN, pCanMsg));
- } else {
- if(CAN_SetTxMsg(tCAN, u32MsgNum, pCanMsg) == FALSE)
- return FALSE;
- CAN_TriggerTxMsg(tCAN, u32MsgNum);
- }
-
- return TRUE;
-}
-
-
-/**
- * @brief Gets the message, if received.
- * @param[in] tCAN The base address of can module.
- * @param[in] u32MsgNum Specifies the Message object number, from 0 to 31
- * @param[out] pCanMsg Pointer to the message structure where received data is copied.
- *
- * @return FALSE: No any message received. \n
- * TRUE : Receive Message success.
- */
-int32_t CAN_Receive(CAN_T *tCAN, uint32_t u32MsgNum , STR_CANMSG_T* pCanMsg)
-{
- if((tCAN->CON & CAN_CON_TEST_Msk) && (tCAN->TEST & CAN_TEST_BASIC_Msk)) {
- return (CAN_BasicReceiveMsg(tCAN, pCanMsg));
- } else {
- return CAN_ReadMsgObj(tCAN, u32MsgNum, TRUE, pCanMsg);
- }
-}
-
-/**
- * @brief Clear interrupt pending bit.
- * @param[in] tCAN The base address of can module.
- * @param[in] u32MsgNum Specifies the Message object number, from 0 to 31
- *
- * @return None
- *
- */
-void CAN_CLR_INT_PENDING_BIT(CAN_T *tCAN, uint8_t u32MsgNum)
-{
- uint32_t u32MsgIfNum = 0;
- uint32_t u32IFBusyCount = 0;
-
- while(u32IFBusyCount < 0x10000000) {
- if((tCAN->IF[0].CREQ & CAN_IF_CREQ_BUSY_Msk) == 0) {
- u32MsgIfNum = 0;
- break;
- } else if((tCAN->IF[1].CREQ & CAN_IF_CREQ_BUSY_Msk) == 0) {
- u32MsgIfNum = 1;
- break;
- }
-
- u32IFBusyCount++;
- }
-
- tCAN->IF[u32MsgIfNum].CMASK = CAN_IF_CMASK_CLRINTPND_Msk | CAN_IF_CMASK_TXRQSTNEWDAT_Msk;
- tCAN->IF[u32MsgIfNum].CREQ = 1 + u32MsgNum;
-
-}
-
-
-/*@}*/ /* end of group NUC472_442_CAN_EXPORTED_FUNCTIONS */
-
-/*@}*/ /* end of group NUC472_442_CAN_Driver */
-
-/*@}*/ /* end of group NUC472_442_Device_Driver */
-
-/*** (C) COPYRIGHT 2013 Nuvoton Technology Corp. ***/
-
-