AnsweredAssumed Answered

5748G CANFD

Question asked by yp chang on May 29, 2018
Latest reply on Jun 7, 2018 by Petr Stancik

I  encounter a problem in debugging CANFD of 5748G. I  transmit CANFD message by MCU , receive CAN FD message by  Canalyer. The trace window is showed as followes

The ID and the data is right, why there is a stuff err?   please help me, thank you!

My code is as followes:

void initCAN_0(void) {         /* General init. No MB IDs iniialized */

uint8_t   i;

 

CAN_0.MCR.B.MDIS = 1;          /* Disable module before selecting clock source*/

CAN_0.CTRL1.B.CLKSRC=0;        /* Clock Source = oscillator clock (40 MHz) */

CAN_0.MCR.B.MDIS = 0;          /* Enable module for config. (Sets FRZ, HALT)*/

CAN_0.MCR.B.FRZ =1;           // enable module to enter freezing mode.

CAN_0.MCR.B.HALT = 1;        

while (!CAN_0.MCR.B.FRZACK) {}/* Wait for freeze acknowledge to set */

while (!CAN_0.MCR.B.NOTRDY) {}/* Wait for freeze acknowledge to set */

CAN_0.MCR.B.RFEN = 0;

CAN_0.MCR.B.WAKMSK = 0;

CAN_0.MCR.B.SOFTRST = 0;

CAN_0.MCR.B.SUPV = 0;

CAN_0.MCR.B.SLFWAK = 0;

CAN_0.MCR.B.WRNEN = 0;

CAN_0.MCR.B.WAKSRC = 0;

CAN_0.MCR.B.SRXDIS = 1;

CAN_0.MCR.B.IRMQ = 1;

CAN_0.MCR.B.DMA = 0;

CAN_0.MCR.B.PNET_EN = 0;

CAN_0.MCR.B.LPRIOEN = 0;

CAN_0.MCR.B.AEN = 1;

CAN_0.MCR.B.FDEN = 1;

CAN_0.MCR.B.IDAM = 0;

CAN_0.MCR.B.MAXMB = 0X3F;

CAN_0.CTRL1.R = 0x04DB0086;  

CAN_0.CTRL1.B.BOFFMSK = 0;

CAN_0.CTRL1.B.ERRMSK = 0;

 

CAN_0.CTRL1.B.LPB = 0;

CAN_0.CTRL1.B.TWRNMSK = 0;

CAN_0.CTRL1.B.RWRNMSK = 0;

CAN_0.CTRL1.B.BOFFREC = 0;

CAN_0.CTRL1.B.TSYN = 0;

CAN_0.CTRL1.B.LBUF = 0;

CAN_0.CTRL1.B.LOM = 0;

//canFD格式增加如下配置

CAN_0.CTRL2.B.ISOCANFDEN =1;

CAN_0.FDCTRL.B.FDRATE=0;

CAN_0.FDCTRL.B.TDCEN=0;  

CAN_0.FDCTRL.B.TDCOFF=0;

CAN_0.FDCTRL.B.MBDSR0 = 1;  

CAN_0.FDCTRL.B.MBDSR1 = 0;

CAN_0.FDCTRL.B.MBDSR2 = 0;

 

for (i=0; i<64; i++) {        /* MPC574xG has 64 buffers after MPC5748G rev 0*/

   CAN_0.MB[i].CS.B.CODE = 0; /* Inactivate all message buffers */

}

//要使用的发送和接受MB初始化

CAN_0.MB[0].CS.B.CODE = txd_inactive;   /* Message Buffer 0 set to TX INACTIVE */

CAN_0.MB[1].CS.B.CODE = txd_inactive;     /* Message Buffer 1 set to TX INACTIVE , MB[1]发送报文*/

 

CAN0_buf_cs_data(8,rxd_empty,0,0,0,0,0,0);

  

CAN0_buf_cs_data(9,rxd_empty,0,0,0,0,0,0);

  

CAN0_buf_cs_data(10,rxd_empty,0,0,0,0,0,0);

  

CAN0_buf_cs_data(11,rxd_empty,0,0,0,0,0,0);

  

CAN0_buf_cs_data(12,rxd_empty,0,0,0,0,0,0);

  

CAN_0.MB[8].ID.B.ID_STD = 0x111;

CAN_0.MB[9].ID.B.ID_STD = 0x112;

CAN_0.MB[10].ID.B.ID_STD = 0x113;

CAN_0.MB[11].ID.B.ID_STD = 0x121;

CAN_0.MB[12].ID.B.ID_STD = 0x115;

 

CAN_0.RXIMR[8].R = 0xffffffff;   

CAN_0.RXIMR[9].R = 0xffffffff;   

CAN_0.RXIMR[10].R = 0xffffffff;      

CAN_0.RXIMR[11].R = 0xffffffff;      

CAN_0.RXIMR[12].R = 0xffffffff;      

 

CAN_0.IMASK1.R = 0X00001F03;  // enable interrupt of MB0

 

INTC.PSR[568].B.PRC_SELN0 = 1; //FLEXCAN0_BUF_00_03ISRZ4A核响应

INTC.PSR[570].B.PRC_SELN0 = 1; //FLEXCAN0_BUF_08_11

INTC.PSR[571].B.PRC_SELN0 = 1; //FLEXCAN0_BUF_12_15

 

INTC.PSR[568].B.PRIN = 7;

INTC.PSR[570].B.PRIN = 8;

INTC.PSR[571].B.PRIN = 8;

 

SIUL2.MSCR[16].B.SSS = 1;     /* Pad PB0: Source signal is CAN0_TX */

SIUL2.MSCR[16].B.OBE = 1;     /* Pad PB0: Output Buffer Enable */

SIUL2.MSCR[16].B.SRC = 3;     /* Pad PB0: Maximum slew rate */

SIUL2.MSCR[17].B.IBE = 1;     /* Pad PB1: Enable pad for input - CAN0_RX */

SIUL2.IMCR[188].B.SSS = 2;     /* CAN0_RX: connected to pad PB1 */

 

//CAN_0.MCR.R = 0x0000003F;     /* Negate FlexCAN_0 halt state for 64 MB */

CAN_0.MCR.B.HALT = 0;        

CAN_0.MCR.B.FRZ = 0;           // disable module to enter freezing mode.

while (CAN_0.MCR.B.FRZACK) {};

while (CAN_0.MCR.B.NOTRDY) {}; /* Wait to clear */

}

  

void CAN0_TransmitMsg(can0_msg_buf* pbuffer,unsigned char index)
{
  unsigned char i=0,DataByteNum=0;

  CAN_0.MB[index].CS.B.CODE = txd_inactive;     /* Message Buffer 0 set to TX INACTIVE , 用MB[0]发送报文*/
  CAN_0.MB[index].CS.B.EDL = pbuffer->EDL ;
  CAN_0.MB[index].CS.B.BRS = pbuffer->BRS ;
  //CAN_0.MB[index].CS.B.ESI = pbuffer->ESI;

  CAN_0.MB[index].CS.B.IDE = pbuffer->ide;           /* Use standard ID length */
  CAN_0.MB[index].ID.B.ID_STD = pbuffer->std_id;      /* Transmit ID is 555 */

  CAN_0.MB[index].CS.B.RTR = pbuffer->rtr;           /* Data frame, not remote Tx request frame */
  if((pbuffer->length)<=8)
   DataByteNum = pbuffer->length;
  else if((pbuffer->length)==9)
     DataByteNum = 12;
  else if((pbuffer->length)==10)
   DataByteNum = 16;
  else if((pbuffer->length)==11)
     DataByteNum = 20;
  else if((pbuffer->length)==12)
     DataByteNum = 24;
  else if((pbuffer->length)==13)
      DataByteNum = 32;
  else if((pbuffer->length)==14)
      DataByteNum = 48;
  else if((pbuffer->length)==15)
      DataByteNum = 64;

  for (i=0; i < DataByteNum; i++) {
    CAN_0.MB[index].DATA.B[i] = pbuffer->data[i];      /* Data to be transmitted */
  }
  CAN_0.MB[index].CS.B.DLC = pbuffer->length; /* # bytes to transmit w/o null */
  CAN_0.MB[index].CS.B.SRR = 1;           /* 发送时,该位为1*/
  CAN_0.MB[index].CS.B.CODE =txd_active;         /* Activate msg. buf. to transmit data frame */
}

Outcomes