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mcp_can.cpp
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mcp_can.cpp
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/*
mcp_can.cpp
2012 Copyright (c) Seeed Technology Inc. All right reserved.
Author:Loovee
Contributor: Cory J. Fowler
2014-1-16
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with this library; if not, write to the Free Software
Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-
1301 USA
*/
#include "mcp_can.h"
//#define DEBUG_MODE
#define spi_readwrite SPI.transfer
#define spi_read() spi_readwrite(0x00)
/*********************************************************************************************************
** Function name: mcp2515_reset
** Descriptions: reset the device
*********************************************************************************************************/
void MCP_CAN::mcp2515_reset(void)
{
MCP2515_SELECT();
spi_readwrite(MCP_RESET);
MCP2515_UNSELECT();
delay(10);
}
/*********************************************************************************************************
** Function name: mcp2515_readRegister
** Descriptions: read register
*********************************************************************************************************/
INT8U MCP_CAN::mcp2515_readRegister(const INT8U address)
{
INT8U ret;
MCP2515_SELECT();
spi_readwrite(MCP_READ);
spi_readwrite(address);
ret = spi_read();
MCP2515_UNSELECT();
return ret;
}
/*********************************************************************************************************
** Function name: mcp2515_readRegisterS
** Descriptions: read registerS
*********************************************************************************************************/
void MCP_CAN::mcp2515_readRegisterS(const INT8U address, INT8U values[], const INT8U n)
{
INT8U i;
MCP2515_SELECT();
spi_readwrite(MCP_READ);
spi_readwrite(address);
// mcp2515 has auto-increment of address-pointer
for (i=0; i<n && i<CAN_MAX_CHAR_IN_MESSAGE; i++) {
values[i] = spi_read();
}
MCP2515_UNSELECT();
}
/*********************************************************************************************************
** Function name: mcp2515_setRegister
** Descriptions: set register
*********************************************************************************************************/
void MCP_CAN::mcp2515_setRegister(const INT8U address, const INT8U value)
{
MCP2515_SELECT();
spi_readwrite(MCP_WRITE);
spi_readwrite(address);
spi_readwrite(value);
MCP2515_UNSELECT();
}
/*********************************************************************************************************
** Function name: mcp2515_setRegisterS
** Descriptions: set registerS
*********************************************************************************************************/
void MCP_CAN::mcp2515_setRegisterS(const INT8U address, const INT8U values[], const INT8U n)
{
INT8U i;
MCP2515_SELECT();
spi_readwrite(MCP_WRITE);
spi_readwrite(address);
for (i=0; i<n; i++)
{
spi_readwrite(values[i]);
}
MCP2515_UNSELECT();
}
/*********************************************************************************************************
** Function name: mcp2515_modifyRegister
** Descriptions: set bit of one register
*********************************************************************************************************/
void MCP_CAN::mcp2515_modifyRegister(const INT8U address, const INT8U mask, const INT8U data)
{
MCP2515_SELECT();
spi_readwrite(MCP_BITMOD);
spi_readwrite(address);
spi_readwrite(mask);
spi_readwrite(data);
MCP2515_UNSELECT();
}
/*********************************************************************************************************
** Function name: mcp2515_readStatus
** Descriptions: read mcp2515's Status
*********************************************************************************************************/
INT8U MCP_CAN::mcp2515_readStatus(void)
{
INT8U i;
MCP2515_SELECT();
spi_readwrite(MCP_READ_STATUS);
i = spi_read();
MCP2515_UNSELECT();
return i;
}
/*********************************************************************************************************
** Function name: mcp2515_setCANCTRL_Mode
** Descriptions: set control mode
*********************************************************************************************************/
INT8U MCP_CAN::mcp2515_setCANCTRL_Mode(const INT8U newmode)
{
INT8U i;
mcp2515_modifyRegister(MCP_CANCTRL, MODE_MASK, newmode);
i = mcp2515_readRegister(MCP_CANCTRL);
i &= MODE_MASK;
if ( i == newmode )
{
return MCP2515_OK;
}
return MCP2515_FAIL;
}
/*********************************************************************************************************
** Function name: mcp2515_configRate
** Descriptions: set boadrate
*********************************************************************************************************/
INT8U MCP_CAN::mcp2515_configRate(const INT8U canSpeed, const INT8U clock)
{
INT8U set, cfg1, cfg2, cfg3;
set = 1;
switch (clock)
{
case (MCP_16MHz) :
switch (canSpeed)
{
case (CAN_5KBPS) :
cfg1 = MCP_16MHz_5kBPS_CFG1;
cfg2 = MCP_16MHz_5kBPS_CFG2;
cfg3 = MCP_16MHz_5kBPS_CFG3;
break;
case (CAN_10KBPS) :
cfg1 = MCP_16MHz_10kBPS_CFG1;
cfg2 = MCP_16MHz_10kBPS_CFG2;
cfg3 = MCP_16MHz_10kBPS_CFG3;
break;
case (CAN_20KBPS) :
cfg1 = MCP_16MHz_20kBPS_CFG1;
cfg2 = MCP_16MHz_20kBPS_CFG2;
cfg3 = MCP_16MHz_20kBPS_CFG3;
break;
case (CAN_31K25BPS) :
cfg1 = MCP_16MHz_31k25BPS_CFG1;
cfg2 = MCP_16MHz_31k25BPS_CFG2;
cfg3 = MCP_16MHz_31k25BPS_CFG3;
break;
case (CAN_33KBPS):
cfg1 = MCP_16MHz_33kBPS_CFG1;
cfg2 = MCP_16MHz_33kBPS_CFG2;
cfg3 = MCP_16MHz_33kBPS_CFG3;
break;
case (CAN_40KBPS) :
cfg1 = MCP_16MHz_40kBPS_CFG1;
cfg2 = MCP_16MHz_40kBPS_CFG2;
cfg3 = MCP_16MHz_40kBPS_CFG3;
break;
case (CAN_50KBPS) :
cfg1 = MCP_16MHz_50kBPS_CFG1;
cfg2 = MCP_16MHz_50kBPS_CFG2;
cfg3 = MCP_16MHz_50kBPS_CFG3;
break;
case (CAN_80KBPS) :
cfg1 = MCP_16MHz_80kBPS_CFG1;
cfg2 = MCP_16MHz_80kBPS_CFG2;
cfg3 = MCP_16MHz_80kBPS_CFG3;
break;
case (CAN_83K3BPS):
cfg1 = MCP_16MHz_83k3BPS_CFG1;
cfg2 = MCP_16MHz_83k3BPS_CFG2;
cfg3 = MCP_16MHz_83k3BPS_CFG3;
break;
case (CAN_95KBPS):
cfg1 = MCP_16MHz_95kBPS_CFG1;
cfg2 = MCP_16MHz_95kBPS_CFG2;
cfg3 = MCP_16MHz_95kBPS_CFG3;
break;
case (CAN_100KBPS) : /* 100KBPS */
cfg1 = MCP_16MHz_100kBPS_CFG1;
cfg2 = MCP_16MHz_100kBPS_CFG2;
cfg3 = MCP_16MHz_100kBPS_CFG3;
break;
case (CAN_125KBPS) :
cfg1 = MCP_16MHz_125kBPS_CFG1;
cfg2 = MCP_16MHz_125kBPS_CFG2;
cfg3 = MCP_16MHz_125kBPS_CFG3;
break;
case (CAN_200KBPS) :
cfg1 = MCP_16MHz_200kBPS_CFG1;
cfg2 = MCP_16MHz_200kBPS_CFG2;
cfg3 = MCP_16MHz_200kBPS_CFG3;
break;
case (CAN_250KBPS) :
cfg1 = MCP_16MHz_250kBPS_CFG1;
cfg2 = MCP_16MHz_250kBPS_CFG2;
cfg3 = MCP_16MHz_250kBPS_CFG3;
break;
case (CAN_500KBPS) :
cfg1 = MCP_16MHz_500kBPS_CFG1;
cfg2 = MCP_16MHz_500kBPS_CFG2;
cfg3 = MCP_16MHz_500kBPS_CFG3;
break;
case (CAN_1000KBPS) :
cfg1 = MCP_16MHz_1000kBPS_CFG1;
cfg2 = MCP_16MHz_1000kBPS_CFG2;
cfg3 = MCP_16MHz_1000kBPS_CFG3;
break;
default:
set = 0;
break;
}
break;
case (MCP_8MHz) :
switch (canSpeed)
{
case (CAN_5KBPS) :
cfg1 = MCP_8MHz_5kBPS_CFG1;
cfg2 = MCP_8MHz_5kBPS_CFG2;
cfg3 = MCP_8MHz_5kBPS_CFG3;
break;
case (CAN_10KBPS) :
cfg1 = MCP_8MHz_10kBPS_CFG1;
cfg2 = MCP_8MHz_10kBPS_CFG2;
cfg3 = MCP_8MHz_10kBPS_CFG3;
break;
case (CAN_20KBPS) :
cfg1 = MCP_8MHz_20kBPS_CFG1;
cfg2 = MCP_8MHz_20kBPS_CFG2;
cfg3 = MCP_8MHz_20kBPS_CFG3;
break;
case (CAN_31K25BPS) :
cfg1 = MCP_8MHz_31k25BPS_CFG1;
cfg2 = MCP_8MHz_31k25BPS_CFG2;
cfg3 = MCP_8MHz_31k25BPS_CFG3;
break;
case (CAN_33KBPS):
cfg1 = MCP_8MHz_33kBPS_CFG1;
cfg2 = MCP_8MHz_33kBPS_CFG2;
cfg3 = MCP_8MHz_33kBPS_CFG3;
break;
case (CAN_40KBPS) :
cfg1 = MCP_8MHz_40kBPS_CFG1;
cfg2 = MCP_8MHz_40kBPS_CFG2;
cfg3 = MCP_8MHz_40kBPS_CFG3;
break;
case (CAN_50KBPS) :
cfg1 = MCP_8MHz_50kBPS_CFG1;
cfg2 = MCP_8MHz_50kBPS_CFG2;
cfg3 = MCP_8MHz_50kBPS_CFG3;
break;
case (CAN_80KBPS) :
cfg1 = MCP_8MHz_80kBPS_CFG1;
cfg2 = MCP_8MHz_80kBPS_CFG2;
cfg3 = MCP_8MHz_80kBPS_CFG3;
break;
case (CAN_83K3BPS):
cfg1 = MCP_8MHz_83k3BPS_CFG1;
cfg2 = MCP_8MHz_83k3BPS_CFG2;
cfg3 = MCP_8MHz_83k3BPS_CFG3;
break;
case (CAN_95KBPS):
cfg1 = MCP_8MHz_95kBPS_CFG1;
cfg2 = MCP_8MHz_95kBPS_CFG2;
cfg3 = MCP_8MHz_95kBPS_CFG3;
break;
case (CAN_100KBPS) : /* 100KBPS */
cfg1 = MCP_8MHz_100kBPS_CFG1;
cfg2 = MCP_8MHz_100kBPS_CFG2;
cfg3 = MCP_8MHz_100kBPS_CFG3;
break;
case (CAN_125KBPS) :
cfg1 = MCP_8MHz_125kBPS_CFG1;
cfg2 = MCP_8MHz_125kBPS_CFG2;
cfg3 = MCP_8MHz_125kBPS_CFG3;
break;
case (CAN_200KBPS) :
cfg1 = MCP_8MHz_200kBPS_CFG1;
cfg2 = MCP_8MHz_200kBPS_CFG2;
cfg3 = MCP_8MHz_200kBPS_CFG3;
break;
case (CAN_250KBPS) :
cfg1 = MCP_8MHz_250kBPS_CFG1;
cfg2 = MCP_8MHz_250kBPS_CFG2;
cfg3 = MCP_8MHz_250kBPS_CFG3;
break;
case (CAN_500KBPS) :
cfg1 = MCP_8MHz_500kBPS_CFG1;
cfg2 = MCP_8MHz_500kBPS_CFG2;
cfg3 = MCP_8MHz_500kBPS_CFG3;
break;
case (CAN_1000KBPS) :
cfg1 = MCP_8MHz_1000kBPS_CFG1;
cfg2 = MCP_8MHz_1000kBPS_CFG2;
cfg3 = MCP_8MHz_1000kBPS_CFG3;
break;
default:
set = 0;
break;
}
break;
default:
set = 0;
break;
}
if (set) {
mcp2515_setRegister(MCP_CNF1, cfg1);
mcp2515_setRegister(MCP_CNF2, cfg2);
mcp2515_setRegister(MCP_CNF3, cfg3);
return MCP2515_OK;
}
else {
return MCP2515_FAIL;
}
}
/*********************************************************************************************************
** Function name: mcp2515_initCANBuffers
** Descriptions: init canbuffers
*********************************************************************************************************/
void MCP_CAN::mcp2515_initCANBuffers(void)
{
INT8U i, a1, a2, a3;
INT8U std = 0;
INT8U ext = 1;
INT32U ulMask = 0x00, ulFilt = 0x00;
// mcp2515_write_id(MCP_RXM0SIDH, ext, ulMask); /*Set both masks to 0 */
// mcp2515_write_id(MCP_RXM1SIDH, ext, ulMask); /*Mask register ignores ext bit */
//
// /* Set all filters to 0 */
// mcp2515_write_id(MCP_RXF0SIDH, ext, ulFilt); /* RXB0: extended */
// mcp2515_write_id(MCP_RXF1SIDH, std, ulFilt); /* RXB1: standard */
// mcp2515_write_id(MCP_RXF2SIDH, ext, ulFilt); /* RXB2: extended */
// mcp2515_write_id(MCP_RXF3SIDH, std, ulFilt); /* RXB3: standard */
// mcp2515_write_id(MCP_RXF4SIDH, ext, ulFilt);
// mcp2515_write_id(MCP_RXF5SIDH, std, ulFilt);
/* Clear, deactivate the three */
/* transmit buffers */
/* TXBnCTRL -> TXBnD7 */
a1 = MCP_TXB0CTRL;
a2 = MCP_TXB1CTRL;
a3 = MCP_TXB2CTRL;
for (i = 0; i < 14; i++) { /* in-buffer loop */
mcp2515_setRegister(a1, 0);
mcp2515_setRegister(a2, 0);
mcp2515_setRegister(a3, 0);
a1++;
a2++;
a3++;
}
mcp2515_setRegister(MCP_RXB0CTRL, 0);
mcp2515_setRegister(MCP_RXB1CTRL, 0);
}
/*********************************************************************************************************
** Function name: mcp2515_init
** Descriptions: init the device
*********************************************************************************************************/
INT8U MCP_CAN::mcp2515_init(const INT8U canSpeed, const INT8U clock) /* mcp2515init */
{
INT8U res;
mcp2515_reset();
res = mcp2515_setCANCTRL_Mode(MODE_CONFIG);
if(res > 0)
{
#if DEBUG_MODE
Serial.print("Enter setting mode fall\r\n");
#else
delay(10);
#endif
return res;
}
#if DEBUG_MODE
Serial.print("Enter setting mode success \r\n");
#else
delay(10);
#endif
/* set boadrate */
if (mcp2515_configRate(canSpeed, clock))
{
#if DEBUG_MODE
Serial.print("set rate fall!!\r\n");
#else
delay(10);
#endif
return res;
}
#if DEBUG_MODE
Serial.print("set rate success!!\r\n");
#else
delay(10);
#endif
if ( res == MCP2515_OK ) {
/* init canbuffers */
mcp2515_initCANBuffers();
/* interrupt mode */
mcp2515_setRegister(MCP_CANINTE, MCP_RX0IF | MCP_RX1IF);
#if (DEBUG_RXANY==1)
/* enable both receive-buffers */
/* to receive any message */
/* and enable rollover */
mcp2515_modifyRegister(MCP_RXB0CTRL,
MCP_RXB_RX_MASK | MCP_RXB_BUKT_MASK,
MCP_RXB_RX_ANY | MCP_RXB_BUKT_MASK);
mcp2515_modifyRegister(MCP_RXB1CTRL, MCP_RXB_RX_MASK,
MCP_RXB_RX_ANY);
#else
/* enable both receive-buffers */
/* to receive messages */
/* with std. and ext. identifie */
/* rs */
/* and enable rollover */
mcp2515_modifyRegister(MCP_RXB0CTRL,
MCP_RXB_RX_MASK | MCP_RXB_BUKT_MASK,
MCP_RXB_RX_STDEXT | MCP_RXB_BUKT_MASK );
mcp2515_modifyRegister(MCP_RXB1CTRL, MCP_RXB_RX_MASK,
MCP_RXB_RX_STDEXT);
#endif
/* enter normal mode */
res = mcp2515_setCANCTRL_Mode(MODE_NORMAL);
if (res)
{
#if DEBUG_MODE
Serial.print("Enter Normal Mode Fall!!\r\n");
#else
delay(10);
#endif
return res;
}
#if DEBUG_MODE
Serial.print("Enter Normal Mode Success!!\r\n");
#else
delay(10);
#endif
}
return res;
}
/*********************************************************************************************************
** Function name: mcp2515_write_id
** Descriptions: write can id
*********************************************************************************************************/
void MCP_CAN::mcp2515_write_id( const INT8U mcp_addr, const INT8U ext, const INT32U id )
{
uint16_t canid;
INT8U tbufdata[4];
canid = (uint16_t)(id & 0x0FFFF);
if ( ext == 1)
{
tbufdata[MCP_EID0] = (INT8U) (canid & 0xFF);
tbufdata[MCP_EID8] = (INT8U) (canid >> 8);
canid = (uint16_t)(id >> 16);
tbufdata[MCP_SIDL] = (INT8U) (canid & 0x03);
tbufdata[MCP_SIDL] += (INT8U) ((canid & 0x1C) << 3);
tbufdata[MCP_SIDL] |= MCP_TXB_EXIDE_M;
tbufdata[MCP_SIDH] = (INT8U) (canid >> 5 );
}
else
{
tbufdata[MCP_SIDH] = (INT8U) (canid >> 3 );
tbufdata[MCP_SIDL] = (INT8U) ((canid & 0x07 ) << 5);
tbufdata[MCP_EID0] = 0;
tbufdata[MCP_EID8] = 0;
}
mcp2515_setRegisterS( mcp_addr, tbufdata, 4 );
}
/*********************************************************************************************************
** Function name: mcp2515_read_id
** Descriptions: read can id
*********************************************************************************************************/
void MCP_CAN::mcp2515_read_id( const INT8U mcp_addr, INT8U* ext, INT32U* id )
{
INT8U tbufdata[4];
*ext = 0;
*id = 0;
mcp2515_readRegisterS( mcp_addr, tbufdata, 4 );
*id = (tbufdata[MCP_SIDH]<<3) + (tbufdata[MCP_SIDL]>>5);
if ( (tbufdata[MCP_SIDL] & MCP_TXB_EXIDE_M) == MCP_TXB_EXIDE_M )
{
/* extended id */
*id = (*id<<2) + (tbufdata[MCP_SIDL] & 0x03);
*id = (*id<<8) + tbufdata[MCP_EID8];
*id = (*id<<8) + tbufdata[MCP_EID0];
*ext = 1;
}
}
/*********************************************************************************************************
** Function name: mcp2515_write_canMsg
** Descriptions: write msg
*********************************************************************************************************/
void MCP_CAN::mcp2515_write_canMsg( const INT8U buffer_sidh_addr)
{
INT8U mcp_addr;
mcp_addr = buffer_sidh_addr;
mcp2515_setRegisterS(mcp_addr+5, m_nDta, m_nDlc ); /* write data bytes */
if ( m_nRtr == 1) /* if RTR set bit in byte */
{
m_nDlc |= MCP_RTR_MASK;
}
mcp2515_setRegister((mcp_addr+4), m_nDlc ); /* write the RTR and DLC */
mcp2515_write_id(mcp_addr, m_nExtFlg, m_nID ); /* write CAN id */
}
/*********************************************************************************************************
** Function name: mcp2515_read_canMsg
** Descriptions: read message
*********************************************************************************************************/
void MCP_CAN::mcp2515_read_canMsg( const INT8U buffer_sidh_addr) /* read can msg */
{
INT8U mcp_addr, ctrl;
mcp_addr = buffer_sidh_addr;
mcp2515_read_id( mcp_addr, &m_nExtFlg,&m_nID );
ctrl = mcp2515_readRegister( mcp_addr-1 );
m_nDlc = mcp2515_readRegister( mcp_addr+4 );
if ((ctrl & 0x08)) {
m_nRtr = 1;
}
else {
m_nRtr = 0;
}
m_nDlc &= MCP_DLC_MASK;
mcp2515_readRegisterS( mcp_addr+5, &(m_nDta[0]), m_nDlc );
}
/*********************************************************************************************************
** Function name: sendMsg
** Descriptions: send message
*********************************************************************************************************/
void MCP_CAN::mcp2515_start_transmit(const INT8U mcp_addr) /* start transmit */
{
mcp2515_modifyRegister( mcp_addr-1 , MCP_TXB_TXREQ_M, MCP_TXB_TXREQ_M );
}
/*********************************************************************************************************
** Function name: sendMsg
** Descriptions: send message
*********************************************************************************************************/
INT8U MCP_CAN::mcp2515_getNextFreeTXBuf(INT8U *txbuf_n) /* get Next free txbuf */
{
INT8U res, i, ctrlval;
INT8U ctrlregs[MCP_N_TXBUFFERS] = { MCP_TXB0CTRL, MCP_TXB1CTRL, MCP_TXB2CTRL };
res = MCP_ALLTXBUSY;
*txbuf_n = 0x00;
/* check all 3 TX-Buffers */
for (i=0; i<MCP_N_TXBUFFERS; i++) {
ctrlval = mcp2515_readRegister( ctrlregs[i] );
if ( (ctrlval & MCP_TXB_TXREQ_M) == 0 ) {
*txbuf_n = ctrlregs[i]+1; /* return SIDH-address of Buffe */
/* r */
res = MCP2515_OK;
return res; /* ! function exit */
}
}
return res;
}
/*********************************************************************************************************
** Function name: set CS
** Descriptions: init CS pin and set UNSELECTED
*********************************************************************************************************/
MCP_CAN::MCP_CAN(INT8U _CS)
{
SPICS = _CS;
pinMode(SPICS, OUTPUT);
MCP2515_UNSELECT();
}
/*********************************************************************************************************
** Function name: init
** Descriptions: init can and set speed
*********************************************************************************************************/
INT8U MCP_CAN::begin(INT8U speedset, const INT8U clockset)
{
INT8U res = MCP2515_OK;
SPI.begin();
res = mcp2515_init(speedset, clockset);
if (res == MCP2515_OK){
return CAN_OK;
}
return CAN_FAILINIT;
}
/*********************************************************************************************************
** Function name: init_Mask
** Descriptions: init canid Masks
*********************************************************************************************************/
INT8U MCP_CAN::init_Mask(INT8U num, INT8U ext, INT32U ulData)
{
INT8U res = MCP2515_OK;
#if DEBUG_MODE
Serial.print("Begin to set Mask!!\r\n");
#else
delay(10);
#endif
res = mcp2515_setCANCTRL_Mode(MODE_CONFIG);
if(res > 0){
#if DEBUG_MODE
Serial.print("Enter setting mode fall\r\n");
#else
delay(10);
#endif
return res;
}
if (num == 0){
mcp2515_write_id(MCP_RXM0SIDH, ext, ulData);
}
else if(num == 1){
mcp2515_write_id(MCP_RXM1SIDH, ext, ulData);
}
else res = MCP2515_FAIL;
res = mcp2515_setCANCTRL_Mode(MODE_NORMAL);
if(res > 0){
#if DEBUG_MODE
Serial.print("Enter normal mode fall\r\n");
#else
delay(10);
#endif
return res;
}
#if DEBUG_MODE
Serial.print("set Mask success!!\r\n");
#else
delay(10);
#endif
return res;
}
/*********************************************************************************************************
** Function name: init_Filt
** Descriptions: init canid filters
*********************************************************************************************************/
INT8U MCP_CAN::init_Filt(INT8U num, INT8U ext, INT32U ulData)
{
INT8U res = MCP2515_OK;
#if DEBUG_MODE
Serial.print("Begin to set Filter!!\r\n");
#else
delay(10);
#endif
res = mcp2515_setCANCTRL_Mode(MODE_CONFIG);
if(res > 0)
{
#if DEBUG_MODE
Serial.print("Enter setting mode fall\r\n");
#else
delay(10);
#endif
return res;
}
switch( num )
{
case 0:
mcp2515_write_id(MCP_RXF0SIDH, ext, ulData);
break;
case 1:
mcp2515_write_id(MCP_RXF1SIDH, ext, ulData);
break;
case 2:
mcp2515_write_id(MCP_RXF2SIDH, ext, ulData);
break;
case 3:
mcp2515_write_id(MCP_RXF3SIDH, ext, ulData);
break;
case 4:
mcp2515_write_id(MCP_RXF4SIDH, ext, ulData);
break;
case 5:
mcp2515_write_id(MCP_RXF5SIDH, ext, ulData);
break;
default:
res = MCP2515_FAIL;
}
res = mcp2515_setCANCTRL_Mode(MODE_NORMAL);
if(res > 0)
{
#if DEBUG_MODE
Serial.print("Enter normal mode fall\r\nSet filter fail!!\r\n");
#else
delay(10);
#endif
return res;
}
#if DEBUG_MODE
Serial.print("set Filter success!!\r\n");
#else
delay(10);
#endif
return res;
}
/*********************************************************************************************************
** Function name: setMsg
** Descriptions: set can message, such as dlc, id, dta[] and so on
*********************************************************************************************************/
INT8U MCP_CAN::setMsg(INT32U id, INT8U ext, INT8U len, INT8U rtr, INT8U *pData)
{
int i = 0;
m_nExtFlg = ext;
m_nID = id;
m_nDlc = len;
m_nRtr = rtr;
for(i = 0; i<MAX_CHAR_IN_MESSAGE; i++)
{
m_nDta[i] = *(pData+i);
}
return MCP2515_OK;
}
/*********************************************************************************************************
** Function name: setMsg
** Descriptions: set can message, such as dlc, id, dta[] and so on
*********************************************************************************************************/
INT8U MCP_CAN::setMsg(INT32U id, INT8U ext, INT8U len, INT8U *pData)
{
int i = 0;
m_nExtFlg = ext;
m_nID = id;
m_nDlc = len;
for(i = 0; i<MAX_CHAR_IN_MESSAGE; i++)
{
m_nDta[i] = *(pData+i);
}
return MCP2515_OK;
}
/*********************************************************************************************************
** Function name: clearMsg
** Descriptions: set all message to zero
*********************************************************************************************************/
INT8U MCP_CAN::clearMsg()
{
m_nID = 0;
m_nDlc = 0;
m_nExtFlg = 0;
m_nRtr = 0;
m_nfilhit = 0;
for(int i = 0; i<m_nDlc; i++ )
m_nDta[i] = 0x00;
return MCP2515_OK;
}
/*********************************************************************************************************
** Function name: sendMsg
** Descriptions: send message
*********************************************************************************************************/
INT8U MCP_CAN::sendMsg()
{
INT8U res, res1, txbuf_n;
uint16_t uiTimeOut = 0;
do {
res = mcp2515_getNextFreeTXBuf(&txbuf_n); /* info = addr. */
uiTimeOut++;
} while (res == MCP_ALLTXBUSY && (uiTimeOut < TIMEOUTVALUE));
if(uiTimeOut == TIMEOUTVALUE)
{
return CAN_GETTXBFTIMEOUT; /* get tx buff time out */
}
uiTimeOut = 0;
mcp2515_write_canMsg( txbuf_n);
mcp2515_start_transmit( txbuf_n );
do
{
uiTimeOut++;
res1= mcp2515_readRegister(txbuf_n-1 /* the ctrl reg is located at txbuf_n-1 */); /* read send buff ctrl reg */
res1 = res1 & 0x08;
}while(res1 && (uiTimeOut < TIMEOUTVALUE));
if(uiTimeOut == TIMEOUTVALUE) /* send msg timeout */
{
return CAN_SENDMSGTIMEOUT;
}
return CAN_OK;
}
/*********************************************************************************************************
** Function name: sendMsgBuf
** Descriptions: send buf
*********************************************************************************************************/
INT8U MCP_CAN::sendMsgBuf(INT32U id, INT8U ext, INT8U rtr, INT8U len, INT8U *buf)
{
setMsg(id, ext, len, rtr, buf);
return sendMsg();
}
/*********************************************************************************************************
** Function name: sendMsgBuf
** Descriptions: send buf
*********************************************************************************************************/
INT8U MCP_CAN::sendMsgBuf(INT32U id, INT8U ext, INT8U len, INT8U *buf)
{
setMsg(id, ext, len, buf);
return sendMsg();
}
/*********************************************************************************************************
** Function name: readMsg
** Descriptions: read message
*********************************************************************************************************/
INT8U MCP_CAN::readMsg()
{
INT8U stat, res;
stat = mcp2515_readStatus();
if ( stat & MCP_STAT_RX0IF ) /* Msg in Buffer 0 */
{
mcp2515_read_canMsg( MCP_RXBUF_0);
mcp2515_modifyRegister(MCP_CANINTF, MCP_RX0IF, 0);
res = CAN_OK;
}
else if ( stat & MCP_STAT_RX1IF ) /* Msg in Buffer 1 */
{
mcp2515_read_canMsg( MCP_RXBUF_1);
mcp2515_modifyRegister(MCP_CANINTF, MCP_RX1IF, 0);
res = CAN_OK;
}
else
{
res = CAN_NOMSG;
}
return res;
}
/*********************************************************************************************************
** Function name: readMsgBuf
** Descriptions: read message buf
*********************************************************************************************************/
INT8U MCP_CAN::readMsgBuf(INT8U *len, INT8U buf[])
{
INT8U rc;
rc = readMsg();
if (rc == CAN_OK) {
*len = m_nDlc;
for(int i = 0; i<m_nDlc; i++) {
buf[i] = m_nDta[i];
}
} else {
*len = 0;
}
return rc;
}
/*********************************************************************************************************
** Function name: readMsgBufID
** Descriptions: read message buf and can bus source ID
*********************************************************************************************************/
INT8U MCP_CAN::readMsgBufID(INT32U *ID, INT8U *len, INT8U buf[])
{
INT8U rc;
rc = readMsg();
if (rc == CAN_OK) {
*len = m_nDlc;
*ID = m_nID;
for(int i = 0; i<m_nDlc && i < MAX_CHAR_IN_MESSAGE; i++) {
buf[i] = m_nDta[i];
}
} else {
*len = 0;
}
return rc;
}
/*********************************************************************************************************
** Function name: checkReceive
** Descriptions: check if got something
*********************************************************************************************************/
INT8U MCP_CAN::checkReceive(void)
{
INT8U res;
res = mcp2515_readStatus(); /* RXnIF in Bit 1 and 0 */
if ( res & MCP_STAT_RXIF_MASK )