rtt-f030/bsp/CME_M7/StdPeriph_Driver/src/cmem7_can.c

387 lines
11 KiB
C

/**
*****************************************************************************
* @file cmem7_can.c
*
* @brief CMEM7 CAN source file
*
*
* @version V1.0
* @date 3. September 2013
*
* @note
*
*****************************************************************************
* @attention
*
* THE PRESENT FIRMWARE WHICH IS FOR GUIDANCE ONLY AIMS AT PROVIDING CUSTOMERS
* WITH CODING INFORMATION REGARDING THEIR PRODUCTS IN ORDER FOR THEM TO SAVE
* TIME. AS A RESULT, CAPITAL-MICRO SHALL NOT BE HELD LIABLE FOR ANY DIRECT,
* INDIRECT OR CONSEQUENTIAL DAMAGES WITH RESPECT TO ANY CLAIMS ARISING
* FROM THE CONTENT OF SUCH FIRMWARE AND/OR THE USE MADE BY CUSTOMERS OF THE
* CODING INFORMATION CONTAINED HEREIN IN CONNECTION WITH THEIR PRODUCTS.
*
* <h2><center>&copy; COPYRIGHT 2013 Capital-micro </center></h2>
*****************************************************************************
*/
#include "cmem7_can.h"
typedef struct {
union {
__IO uint8_t FI; /*!< Transmit Frame Information if writting or Receive Frame Information
if reading, ACR[0] if reset mode */
struct {
__IO uint8_t DLC : 4; /*!< byte number in the data */
uint8_t : 2;
__IO uint8_t RTR : 1; /*!< 1 indicates a remote frame; 0 indicates a data frame */
__IO uint8_t FF : 1; /*!< 1 selects Extended Frame Format (EFF); 0 selects Standard Frame
Format (SFF) */
} FI_b; /*!< BitSize */
} U;
} CAN_FRAME_INFO;
typedef struct {
union {
uint16_t ID; /*!< ID */
struct {
uint16_t ID28_21 : 8; /*!< ID28 to ID21 */
uint16_t : 4;
uint16_t RTR : 1; /*!< if remote frame */
uint16_t ID20_18 : 3; /*!< ID20 to ID18 */
} ID_b; /*!< BitSize */
} U;
} CAN_STANDARD_ID;
typedef struct {
union {
uint32_t ID; /*!< ID */
struct {
uint32_t ID28_21 : 8; /*!< ID28 to ID21 */
uint32_t ID20_13 : 8; /*!< ID20 to ID13 */
uint32_t ID12_5 : 8; /*!< ID12 to ID5 */
uint32_t : 2;
uint32_t RTR : 1; /*!< if remote frame */
uint32_t ID4_0 : 5; /*!< ID4 to ID0 */
} ID_b; /*!< BitSize */
} U;
} CAN_EXTENDED_ID;
#define CAN_MODE_NORMAL 0x00000000
#define CAN_MODE_RESET 0x00000001
#define CAN_MODE_LISTEN_ONLY 0x00000002
#define CAN_MODE_SELF_TEST 0x00000004
#define CAN_MODE_SINGLE_FILTER 0x00000008
#define CAN_MODE_SLEEP 0x00000010
#define CAN_OCR_NORMAL 0x02
#define CAN_OCR_CLOCK 0x03
static BOOL can_SetFilter(CAN0_Type* CANx, CAN_FILTER *f1, CAN_FILTER *f2) {
if (!f1) {
return FALSE;
}
if (!IS_CAN_FLT_TYPE(f1->type)) {
return FALSE;
}
if(IS_CAN_FLT_DUAL(f1->type)) {
if (!f2 || IS_CAN_FLT_SINGLE(f2->type)) {
return FALSE;
}
}
if (f1->type == CAN_FLT_STANDARD_SINGLE) {
CANx->FI_OR_ACR0 = f1->ACCEPT.sf.ID28_18 >> 3;
CANx->DI0_OR_ACR1 = (f1->ACCEPT.sf.ID28_18 & 0x07) << 5;
CANx->DI0_OR_ACR1 |= f1->ACCEPT.sf.RTR << 4;
CANx->DI1_OR_ACR2 = f1->ACCEPT.sf.data1;
CANx->DI2_OR_ACR3 = f1->ACCEPT.sf.data2;
CANx->DI3_OR_AMR0 = f1->MASK.sf.ID28_18 >> 3;
CANx->DI4_OR_AMR1 = (f1->MASK.sf.ID28_18 & 0x07) << 5;
CANx->DI4_OR_AMR1 |= f1->MASK.sf.RTR << 4;
CANx->DI5_OR_AMR2 = f1->MASK.sf.data1;
CANx->DI6_OR_AMR3 = f1->MASK.sf.data2;
} else if (f1->type == CAN_FLT_STANDARD_DUAL) {
CANx->FI_OR_ACR0 = f1->ACCEPT.sf.ID28_18 >> 3;
CANx->DI0_OR_ACR1 = (f1->ACCEPT.sf.ID28_18 & 0x07) << 5;
CANx->DI0_OR_ACR1 |= f1->ACCEPT.sf.RTR << 4;
CANx->DI0_OR_ACR1 |= f1->ACCEPT.sf.data1 >> 4;
CANx->DI2_OR_ACR3 = f1->ACCEPT.sf.data1 & 0x0F;
CANx->DI3_OR_AMR0 = f1->MASK.sf.ID28_18 >> 3;
CANx->DI4_OR_AMR1 = (f1->MASK.sf.ID28_18 & 0x07) << 5;
CANx->DI4_OR_AMR1 |= f1->MASK.sf.RTR << 4;
CANx->DI4_OR_AMR1 = f1->MASK.sf.data1 >> 4;
CANx->DI6_OR_AMR3 = f1->MASK.sf.data1 & 0x0F;
} else if (f1->type == CAN_FLT_EXTENDED_SINGLE) {
CANx->FI_OR_ACR0 = f1->ACCEPT.ef.ID28_13 >> 8;
CANx->DI0_OR_ACR1 = f1->ACCEPT.ef.ID28_13 & 0xFF;
CANx->DI1_OR_ACR2 = f1->ACCEPT.ef.ID12_0 >> 5;
CANx->DI2_OR_ACR3 = (f1->ACCEPT.ef.ID12_0 & 0x1F) << 3;
CANx->DI2_OR_ACR3 |= f1->ACCEPT.ef.RTR << 2;
CANx->DI3_OR_AMR0 = f1->MASK.ef.ID28_13 >> 8;
CANx->DI4_OR_AMR1 = f1->MASK.ef.ID28_13 & 0xFF;
CANx->DI5_OR_AMR2 = f1->MASK.ef.ID12_0 >> 5;
CANx->DI6_OR_AMR3 = (f1->MASK.ef.ID12_0 & 0x1F) << 3;
CANx->DI6_OR_AMR3 |= f1->MASK.ef.RTR << 2;
} else {
CANx->FI_OR_ACR0 = f1->ACCEPT.ef.ID28_13 >> 8;
CANx->DI0_OR_ACR1 = f1->ACCEPT.ef.ID28_13 & 0xFF;
CANx->DI3_OR_AMR0 = f1->MASK.ef.ID28_13 >> 8;
CANx->DI4_OR_AMR1 = f1->MASK.ef.ID28_13 & 0xFF;
}
if (IS_CAN_FLT_DUAL(f1->type)) {
if (f2->type == CAN_FLT_STANDARD_DUAL) {
CANx->DI1_OR_ACR2 = f2->ACCEPT.sf.ID28_18 >> 3;
CANx->DI2_OR_ACR3 |= (f2->ACCEPT.sf.ID28_18 & 0x07) << 5;
CANx->DI2_OR_ACR3 |= f2->ACCEPT.sf.RTR << 4;
CANx->DI5_OR_AMR2 = f2->MASK.sf.ID28_18 >> 3;
CANx->DI6_OR_AMR3 |= (f2->MASK.sf.ID28_18 & 0x07) << 5;
CANx->DI6_OR_AMR3 |= f2->MASK.sf.RTR << 4;
} else {
CANx->DI1_OR_ACR2 = f2->ACCEPT.ef.ID28_13 >> 8;
CANx->DI2_OR_ACR3 = f2->ACCEPT.ef.ID28_13 & 0xFF;
CANx->DI5_OR_AMR2 = f2->MASK.ef.ID28_13 >> 8;
CANx->DI6_OR_AMR3 = f2->MASK.ef.ID28_13 & 0xFF;
}
}
if (IS_CAN_FLT_SINGLE(f1->type)) {
CANx->MODE_b.AFM = 1;
} else {
CANx->MODE_b.AFM = 0;
}
return TRUE;
}
BOOL CAN_Init(CAN0_Type* CANx, CAN_InitTypeDef* Init,
CAN_FILTER *f1, CAN_FILTER *f2) {
assert_param(IS_CAN_ALL_PERIPH(CANx));
assert_param(Init);
assert_param(IS_CAN_CDR_DIV(Init->CAN_ClockDiv));
/* Quit to sleep mode in operation mode */
if (CANx->MODE_b.SM) {
CANx->MODE_b.RM = FALSE;
CANx->MODE_b.SM = FALSE;
}
/* switch to reset mode to set parameter */
CANx->MODE_b.RM = TRUE;
/* disable all interrupts and clear except receive interrupt */
{
uint8_t tmp;
CANx->INT_EN &= ~CAN_INT_All;
tmp = CANx->INT;
tmp = tmp;
}
CANx->MODE_b.LOM = (Init->CAN_TxEn) ? FALSE : TRUE;
CANx->MODE_b.STM = Init->CAN_Loopback;
CANx->CDR_b.OFF = FALSE;
CANx->CDR_b.DIVIDER = Init->CAN_ClockDiv;
CANx->BTR0_b.BRP = Init->CAN_Prescaler;
CANx->BTR0_b.SJW = Init->CAN_SJW;
CANx->BTR1_b.TSEG1 = Init->CAN_TSEG1;
CANx->BTR1_b.TSEG2 = Init->CAN_TSEG2;
CANx->BTR1_b.SAM = !Init->CAN_HighSpeed;
CANx->OCR_b.MODE = CAN_OCR_CLOCK;
if (!can_SetFilter(CANx, f1, f2)) {
return FALSE;
}
/* switch to operation mode */
CANx->MODE_b.RM = FALSE;
return TRUE;
}
void CAN_SetSleepMode(CAN0_Type* CANx, BOOL enable) {
assert_param(IS_CAN_ALL_PERIPH(CANx));
/* switch to operation mode */
CANx->MODE_b.RM = FALSE;
CANx->MODE_b.SM = enable;
}
void CAN_EnableInt(CAN0_Type* CANx, uint32_t Int, BOOL enable) {
assert_param(IS_CAN_ALL_PERIPH(CANx));
assert_param(IS_CAN_INT(Int));
if (enable) {
CANx->INT_EN |= CAN_INT_All;
} else {
CANx->INT_EN &= ~CAN_INT_All;
}
}
uint8_t CAN_GetIntStatus(CAN0_Type* CANx) {
assert_param(IS_CAN_ALL_PERIPH(CANx));
return CANx->INT;
}
BOOL CAN_Transmit(CAN0_Type* CANx, CAN_Frame* frame) {
assert_param(IS_CAN_ALL_PERIPH(CANx));
if (!frame) {
return FALSE;
}
if (CANx->MODE_b.LOM) {
return FALSE;
}
if (CANx->MODE_b.SM) {
CANx->MODE_b.RM = FALSE;
CANx->MODE_b.SM = FALSE;
}
{
CAN_FRAME_INFO fi;
fi.U.FI_b.FF = !frame->SFF;
fi.U.FI_b.RTR = frame->RTR;
fi.U.FI_b.DLC = frame->DLC;
CANx->FI_OR_ACR0 = fi.U.FI;
}
if (frame->SFF) {
CAN_STANDARD_ID id;
id.U.ID_b.ID28_21 = frame->Id >> 3;
id.U.ID_b.RTR = frame->RTR;
id.U.ID_b.ID20_18 = frame->Id & 0x07;
CANx->DI0_OR_ACR1 = id.U.ID & 0xFF;
CANx->DI1_OR_ACR2 = id.U.ID >> 8;
CANx->DI2_OR_ACR3 = frame->Data[0];
CANx->DI3_OR_AMR0 = frame->Data[1];
CANx->DI4_OR_AMR1 = frame->Data[2];
CANx->DI5_OR_AMR2 = frame->Data[3];
CANx->DI6_OR_AMR3 = frame->Data[4];
CANx->DI7 = frame->Data[5];
CANx->DI8 = frame->Data[6];
CANx->DI9 = frame->Data[7];
} else {
CAN_EXTENDED_ID id;
id.U.ID_b.ID28_21 = frame->Id >> 21;
id.U.ID_b.ID20_13 = (frame->Id >> 13) & 0xFF;
id.U.ID_b.ID12_5 = (frame->Id >> 5) & 0xFF;
id.U.ID_b.RTR = frame->RTR;
id.U.ID_b.ID4_0 = frame->Id & 0x1F;
CANx->DI0_OR_ACR1 = id.U.ID & 0xFF;
CANx->DI1_OR_ACR2 = (id.U.ID >> 8) & 0xFF;
CANx->DI2_OR_ACR3 = (id.U.ID >> 16) & 0xFF;
CANx->DI3_OR_AMR0 = (id.U.ID >> 24) & 0xFF;
CANx->DI4_OR_AMR1 = frame->Data[0];
CANx->DI5_OR_AMR2 = frame->Data[1];
CANx->DI6_OR_AMR3 = frame->Data[2];
CANx->DI7 = frame->Data[3];
CANx->DI8 = frame->Data[4];
CANx->DI9 = frame->Data[5];
CANx->DI10 = frame->Data[6];
CANx->DI11 = frame->Data[7];
}
if (CANx->MODE_b.STM) {
CANx->CMD_b.SSR = TRUE;
} else {
CANx->CMD_b.TR = TRUE;
}
return TRUE;
}
BOOL CAN_Receive(CAN0_Type* CANx, CAN_Frame* frame) {
assert_param(IS_CAN_ALL_PERIPH(CANx));
if (!frame) {
return FALSE;
}
if (CANx->MODE_b.SM) {
CANx->MODE_b.RM = FALSE;
CANx->MODE_b.SM = FALSE;
}
{
CAN_FRAME_INFO fi;
fi.U.FI = CANx->FI_OR_ACR0;
frame->SFF = fi.U.FI_b.FF ? FALSE : TRUE;
frame->RTR = fi.U.FI_b.RTR ? TRUE : FALSE;
frame->DLC = fi.U.FI_b.DLC;
}
if (frame->SFF) {
CAN_STANDARD_ID id;
id.U.ID = CANx->DI0_OR_ACR1;
id.U.ID |= CANx->DI1_OR_ACR2 << 8;
frame->Id = id.U.ID_b.ID28_21 << 3;
frame->Id |= id.U.ID_b.ID20_18;
frame->Data[0] = CANx->DI2_OR_ACR3;
frame->Data[1] = CANx->DI3_OR_AMR0;
frame->Data[2] = CANx->DI4_OR_AMR1;
frame->Data[3] = CANx->DI5_OR_AMR2;
frame->Data[4] = CANx->DI6_OR_AMR3;
frame->Data[5] = CANx->DI7;
frame->Data[6] = CANx->DI8;
frame->Data[7] = CANx->DI9;
} else {
CAN_EXTENDED_ID id;
id.U.ID = CANx->DI0_OR_ACR1;
id.U.ID |= CANx->DI1_OR_ACR2 << 8;
id.U.ID |= CANx->DI2_OR_ACR3 << 16;
id.U.ID |= CANx->DI3_OR_AMR0 << 24;
frame->Id = id.U.ID_b.ID28_21 << 21;
frame->Id |= id.U.ID_b.ID20_13 << 13;
frame->Id |= id.U.ID_b.ID12_5 << 5;
frame->Id |= id.U.ID_b.ID4_0;
frame->Data[0] = CANx->DI4_OR_AMR1;
frame->Data[1] = CANx->DI5_OR_AMR2;
frame->Data[2] = CANx->DI6_OR_AMR3;
frame->Data[3] = CANx->DI7;
frame->Data[4] = CANx->DI8;
frame->Data[5] = CANx->DI9;
frame->Data[6] = CANx->DI10;
frame->Data[7] = CANx->DI11;
}
CANx->CMD_b.RRB = TRUE;
return TRUE;
}