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mcp2515.h
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mcp2515.h
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#ifndef _MCP2515_H_
#define _MCP2515_H_
#include <SPI.h>
#include "can.h"
/*
* Speed 8M
*/
#define MCP_8MHz_1000kBPS_CFG1 (0x00)
#define MCP_8MHz_1000kBPS_CFG2 (0x80)
#define MCP_8MHz_1000kBPS_CFG3 (0x80)
#define MCP_8MHz_500kBPS_CFG1 (0x00)
#define MCP_8MHz_500kBPS_CFG2 (0x90)
#define MCP_8MHz_500kBPS_CFG3 (0x82)
#define MCP_8MHz_250kBPS_CFG1 (0x00)
#define MCP_8MHz_250kBPS_CFG2 (0xB1)
#define MCP_8MHz_250kBPS_CFG3 (0x85)
#define MCP_8MHz_200kBPS_CFG1 (0x00)
#define MCP_8MHz_200kBPS_CFG2 (0xB4)
#define MCP_8MHz_200kBPS_CFG3 (0x86)
#define MCP_8MHz_125kBPS_CFG1 (0x01)
#define MCP_8MHz_125kBPS_CFG2 (0xB1)
#define MCP_8MHz_125kBPS_CFG3 (0x85)
#define MCP_8MHz_100kBPS_CFG1 (0x01)
#define MCP_8MHz_100kBPS_CFG2 (0xB4)
#define MCP_8MHz_100kBPS_CFG3 (0x86)
#define MCP_8MHz_80kBPS_CFG1 (0x01)
#define MCP_8MHz_80kBPS_CFG2 (0xBF)
#define MCP_8MHz_80kBPS_CFG3 (0x87)
#define MCP_8MHz_50kBPS_CFG1 (0x03)
#define MCP_8MHz_50kBPS_CFG2 (0xB4)
#define MCP_8MHz_50kBPS_CFG3 (0x86)
#define MCP_8MHz_40kBPS_CFG1 (0x03)
#define MCP_8MHz_40kBPS_CFG2 (0xBF)
#define MCP_8MHz_40kBPS_CFG3 (0x87)
#define MCP_8MHz_33k3BPS_CFG1 (0x47)
#define MCP_8MHz_33k3BPS_CFG2 (0xE2)
#define MCP_8MHz_33k3BPS_CFG3 (0x85)
#define MCP_8MHz_31k25BPS_CFG1 (0x07)
#define MCP_8MHz_31k25BPS_CFG2 (0xA4)
#define MCP_8MHz_31k25BPS_CFG3 (0x84)
#define MCP_8MHz_20kBPS_CFG1 (0x07)
#define MCP_8MHz_20kBPS_CFG2 (0xBF)
#define MCP_8MHz_20kBPS_CFG3 (0x87)
#define MCP_8MHz_10kBPS_CFG1 (0x0F)
#define MCP_8MHz_10kBPS_CFG2 (0xBF)
#define MCP_8MHz_10kBPS_CFG3 (0x87)
#define MCP_8MHz_5kBPS_CFG1 (0x1F)
#define MCP_8MHz_5kBPS_CFG2 (0xBF)
#define MCP_8MHz_5kBPS_CFG3 (0x87)
/*
* speed 16M
*/
#define MCP_16MHz_1000kBPS_CFG1 (0x00)
#define MCP_16MHz_1000kBPS_CFG2 (0xD0)
#define MCP_16MHz_1000kBPS_CFG3 (0x82)
#define MCP_16MHz_500kBPS_CFG1 (0x00)
#define MCP_16MHz_500kBPS_CFG2 (0xF0)
#define MCP_16MHz_500kBPS_CFG3 (0x86)
#define MCP_16MHz_250kBPS_CFG1 (0x41)
#define MCP_16MHz_250kBPS_CFG2 (0xF1)
#define MCP_16MHz_250kBPS_CFG3 (0x85)
#define MCP_16MHz_200kBPS_CFG1 (0x01)
#define MCP_16MHz_200kBPS_CFG2 (0xFA)
#define MCP_16MHz_200kBPS_CFG3 (0x87)
#define MCP_16MHz_125kBPS_CFG1 (0x03)
#define MCP_16MHz_125kBPS_CFG2 (0xF0)
#define MCP_16MHz_125kBPS_CFG3 (0x86)
#define MCP_16MHz_100kBPS_CFG1 (0x03)
#define MCP_16MHz_100kBPS_CFG2 (0xFA)
#define MCP_16MHz_100kBPS_CFG3 (0x87)
#define MCP_16MHz_95kBPS_CFG1 (0x03)
#define MCP_16MHz_95kBPS_CFG2 (0xAD)
#define MCP_16MHz_95kBPS_CFG3 (0x07)
#define MCP_16MHz_83k3BPS_CFG1 (0x03)
#define MCP_16MHz_83k3BPS_CFG2 (0xBE)
#define MCP_16MHz_83k3BPS_CFG3 (0x07)
#define MCP_16MHz_80kBPS_CFG1 (0x03)
#define MCP_16MHz_80kBPS_CFG2 (0xFF)
#define MCP_16MHz_80kBPS_CFG3 (0x87)
#define MCP_16MHz_50kBPS_CFG1 (0x07)
#define MCP_16MHz_50kBPS_CFG2 (0xFA)
#define MCP_16MHz_50kBPS_CFG3 (0x87)
#define MCP_16MHz_40kBPS_CFG1 (0x07)
#define MCP_16MHz_40kBPS_CFG2 (0xFF)
#define MCP_16MHz_40kBPS_CFG3 (0x87)
#define MCP_16MHz_33k3BPS_CFG1 (0x4E)
#define MCP_16MHz_33k3BPS_CFG2 (0xF1)
#define MCP_16MHz_33k3BPS_CFG3 (0x85)
#define MCP_16MHz_20kBPS_CFG1 (0x0F)
#define MCP_16MHz_20kBPS_CFG2 (0xFF)
#define MCP_16MHz_20kBPS_CFG3 (0x87)
#define MCP_16MHz_10kBPS_CFG1 (0x1F)
#define MCP_16MHz_10kBPS_CFG2 (0xFF)
#define MCP_16MHz_10kBPS_CFG3 (0x87)
#define MCP_16MHz_5kBPS_CFG1 (0x3F)
#define MCP_16MHz_5kBPS_CFG2 (0xFF)
#define MCP_16MHz_5kBPS_CFG3 (0x87)
/*
* speed 20M
*/
#define MCP_20MHz_1000kBPS_CFG1 (0x00)
#define MCP_20MHz_1000kBPS_CFG2 (0xD9)
#define MCP_20MHz_1000kBPS_CFG3 (0x82)
#define MCP_20MHz_500kBPS_CFG1 (0x00)
#define MCP_20MHz_500kBPS_CFG2 (0xFA)
#define MCP_20MHz_500kBPS_CFG3 (0x87)
#define MCP_20MHz_250kBPS_CFG1 (0x41)
#define MCP_20MHz_250kBPS_CFG2 (0xFB)
#define MCP_20MHz_250kBPS_CFG3 (0x86)
#define MCP_20MHz_200kBPS_CFG1 (0x01)
#define MCP_20MHz_200kBPS_CFG2 (0xFF)
#define MCP_20MHz_200kBPS_CFG3 (0x87)
#define MCP_20MHz_125kBPS_CFG1 (0x03)
#define MCP_20MHz_125kBPS_CFG2 (0xFA)
#define MCP_20MHz_125kBPS_CFG3 (0x87)
#define MCP_20MHz_100kBPS_CFG1 (0x04)
#define MCP_20MHz_100kBPS_CFG2 (0xFA)
#define MCP_20MHz_100kBPS_CFG3 (0x87)
#define MCP_20MHz_83k3BPS_CFG1 (0x04)
#define MCP_20MHz_83k3BPS_CFG2 (0xFE)
#define MCP_20MHz_83k3BPS_CFG3 (0x87)
#define MCP_20MHz_80kBPS_CFG1 (0x04)
#define MCP_20MHz_80kBPS_CFG2 (0xFF)
#define MCP_20MHz_80kBPS_CFG3 (0x87)
#define MCP_20MHz_50kBPS_CFG1 (0x09)
#define MCP_20MHz_50kBPS_CFG2 (0xFA)
#define MCP_20MHz_50kBPS_CFG3 (0x87)
#define MCP_20MHz_40kBPS_CFG1 (0x09)
#define MCP_20MHz_40kBPS_CFG2 (0xFF)
#define MCP_20MHz_40kBPS_CFG3 (0x87)
#define MCP_20MHz_33k3BPS_CFG1 (0x0B)
#define MCP_20MHz_33k3BPS_CFG2 (0xFF)
#define MCP_20MHz_33k3BPS_CFG3 (0x87)
enum CAN_CLOCK {
MCP_20MHZ,
MCP_16MHZ,
MCP_8MHZ
};
enum CAN_SPEED {
CAN_5KBPS,
CAN_10KBPS,
CAN_20KBPS,
CAN_31K25BPS,
CAN_33KBPS,
CAN_40KBPS,
CAN_50KBPS,
CAN_80KBPS,
CAN_83K3BPS,
CAN_95KBPS,
CAN_100KBPS,
CAN_125KBPS,
CAN_200KBPS,
CAN_250KBPS,
CAN_500KBPS,
CAN_1000KBPS
};
enum CAN_CLKOUT {
CLKOUT_DISABLE = -1,
CLKOUT_DIV1 = 0x0,
CLKOUT_DIV2 = 0x1,
CLKOUT_DIV4 = 0x2,
CLKOUT_DIV8 = 0x3,
};
class MCP2515
{
public:
enum ERROR {
ERROR_OK = 0,
ERROR_FAIL = 1,
ERROR_ALLTXBUSY = 2,
ERROR_FAILINIT = 3,
ERROR_FAILTX = 4,
ERROR_NOMSG = 5
};
enum MASK {
MASK0,
MASK1
};
enum RXF {
RXF0 = 0,
RXF1 = 1,
RXF2 = 2,
RXF3 = 3,
RXF4 = 4,
RXF5 = 5
};
enum RXBn {
RXB0 = 0,
RXB1 = 1
};
enum TXBn {
TXB0 = 0,
TXB1 = 1,
TXB2 = 2
};
enum /*class*/ CANINTF : uint8_t {
CANINTF_RX0IF = 0x01,
CANINTF_RX1IF = 0x02,
CANINTF_TX0IF = 0x04,
CANINTF_TX1IF = 0x08,
CANINTF_TX2IF = 0x10,
CANINTF_ERRIF = 0x20,
CANINTF_WAKIF = 0x40,
CANINTF_MERRF = 0x80
};
enum /*class*/ EFLG : uint8_t {
EFLG_RX1OVR = (1<<7),
EFLG_RX0OVR = (1<<6),
EFLG_TXBO = (1<<5),
EFLG_TXEP = (1<<4),
EFLG_RXEP = (1<<3),
EFLG_TXWAR = (1<<2),
EFLG_RXWAR = (1<<1),
EFLG_EWARN = (1<<0)
};
private:
static const uint8_t CANCTRL_REQOP = 0xE0;
static const uint8_t CANCTRL_ABAT = 0x10;
static const uint8_t CANCTRL_OSM = 0x08;
static const uint8_t CANCTRL_CLKEN = 0x04;
static const uint8_t CANCTRL_CLKPRE = 0x03;
enum /*class*/ CANCTRL_REQOP_MODE : uint8_t {
CANCTRL_REQOP_NORMAL = 0x00,
CANCTRL_REQOP_SLEEP = 0x20,
CANCTRL_REQOP_LOOPBACK = 0x40,
CANCTRL_REQOP_LISTENONLY = 0x60,
CANCTRL_REQOP_CONFIG = 0x80,
CANCTRL_REQOP_POWERUP = 0xE0
};
static const uint8_t CANSTAT_OPMOD = 0xE0;
static const uint8_t CANSTAT_ICOD = 0x0E;
static const uint8_t CNF3_SOF = 0x80;
static const uint8_t TXB_EXIDE_MASK = 0x08;
static const uint8_t DLC_MASK = 0x0F;
static const uint8_t RTR_MASK = 0x40;
static const uint8_t RXBnCTRL_RXM_STD = 0x20;
static const uint8_t RXBnCTRL_RXM_EXT = 0x40;
static const uint8_t RXBnCTRL_RXM_STDEXT = 0x00;
static const uint8_t RXBnCTRL_RXM_MASK = 0x60;
static const uint8_t RXBnCTRL_RTR = 0x08;
static const uint8_t RXB0CTRL_BUKT = 0x04;
static const uint8_t RXB0CTRL_FILHIT_MASK = 0x03;
static const uint8_t RXB1CTRL_FILHIT_MASK = 0x07;
static const uint8_t RXB0CTRL_FILHIT = 0x00;
static const uint8_t RXB1CTRL_FILHIT = 0x01;
static const uint8_t MCP_SIDH = 0;
static const uint8_t MCP_SIDL = 1;
static const uint8_t MCP_EID8 = 2;
static const uint8_t MCP_EID0 = 3;
static const uint8_t MCP_DLC = 4;
static const uint8_t MCP_DATA = 5;
enum /*class*/ STAT : uint8_t {
STAT_RX0IF = (1<<0),
STAT_RX1IF = (1<<1)
};
static const uint8_t STAT_RXIF_MASK = STAT_RX0IF | STAT_RX1IF;
enum /*class*/ TXBnCTRL : uint8_t {
TXB_ABTF = 0x40,
TXB_MLOA = 0x20,
TXB_TXERR = 0x10,
TXB_TXREQ = 0x08,
TXB_TXIE = 0x04,
TXB_TXP = 0x03
};
static const uint8_t EFLG_ERRORMASK = EFLG_RX1OVR
| EFLG_RX0OVR
| EFLG_TXBO
| EFLG_TXEP
| EFLG_RXEP;
enum /*class*/ INSTRUCTION : uint8_t {
INSTRUCTION_WRITE = 0x02,
INSTRUCTION_READ = 0x03,
INSTRUCTION_BITMOD = 0x05,
INSTRUCTION_LOAD_TX0 = 0x40,
INSTRUCTION_LOAD_TX1 = 0x42,
INSTRUCTION_LOAD_TX2 = 0x44,
INSTRUCTION_RTS_TX0 = 0x81,
INSTRUCTION_RTS_TX1 = 0x82,
INSTRUCTION_RTS_TX2 = 0x84,
INSTRUCTION_RTS_ALL = 0x87,
INSTRUCTION_READ_RX0 = 0x90,
INSTRUCTION_READ_RX1 = 0x94,
INSTRUCTION_READ_STATUS = 0xA0,
INSTRUCTION_RX_STATUS = 0xB0,
INSTRUCTION_RESET = 0xC0
};
enum /*class*/ REGISTER : uint8_t {
MCP_RXF0SIDH = 0x00,
MCP_RXF0SIDL = 0x01,
MCP_RXF0EID8 = 0x02,
MCP_RXF0EID0 = 0x03,
MCP_RXF1SIDH = 0x04,
MCP_RXF1SIDL = 0x05,
MCP_RXF1EID8 = 0x06,
MCP_RXF1EID0 = 0x07,
MCP_RXF2SIDH = 0x08,
MCP_RXF2SIDL = 0x09,
MCP_RXF2EID8 = 0x0A,
MCP_RXF2EID0 = 0x0B,
MCP_CANSTAT = 0x0E,
MCP_CANCTRL = 0x0F,
MCP_RXF3SIDH = 0x10,
MCP_RXF3SIDL = 0x11,
MCP_RXF3EID8 = 0x12,
MCP_RXF3EID0 = 0x13,
MCP_RXF4SIDH = 0x14,
MCP_RXF4SIDL = 0x15,
MCP_RXF4EID8 = 0x16,
MCP_RXF4EID0 = 0x17,
MCP_RXF5SIDH = 0x18,
MCP_RXF5SIDL = 0x19,
MCP_RXF5EID8 = 0x1A,
MCP_RXF5EID0 = 0x1B,
MCP_TEC = 0x1C,
MCP_REC = 0x1D,
MCP_RXM0SIDH = 0x20,
MCP_RXM0SIDL = 0x21,
MCP_RXM0EID8 = 0x22,
MCP_RXM0EID0 = 0x23,
MCP_RXM1SIDH = 0x24,
MCP_RXM1SIDL = 0x25,
MCP_RXM1EID8 = 0x26,
MCP_RXM1EID0 = 0x27,
MCP_CNF3 = 0x28,
MCP_CNF2 = 0x29,
MCP_CNF1 = 0x2A,
MCP_CANINTE = 0x2B,
MCP_CANINTF = 0x2C,
MCP_EFLG = 0x2D,
MCP_TXB0CTRL = 0x30,
MCP_TXB0SIDH = 0x31,
MCP_TXB0SIDL = 0x32,
MCP_TXB0EID8 = 0x33,
MCP_TXB0EID0 = 0x34,
MCP_TXB0DLC = 0x35,
MCP_TXB0DATA = 0x36,
MCP_TXB1CTRL = 0x40,
MCP_TXB1SIDH = 0x41,
MCP_TXB1SIDL = 0x42,
MCP_TXB1EID8 = 0x43,
MCP_TXB1EID0 = 0x44,
MCP_TXB1DLC = 0x45,
MCP_TXB1DATA = 0x46,
MCP_TXB2CTRL = 0x50,
MCP_TXB2SIDH = 0x51,
MCP_TXB2SIDL = 0x52,
MCP_TXB2EID8 = 0x53,
MCP_TXB2EID0 = 0x54,
MCP_TXB2DLC = 0x55,
MCP_TXB2DATA = 0x56,
MCP_RXB0CTRL = 0x60,
MCP_RXB0SIDH = 0x61,
MCP_RXB0SIDL = 0x62,
MCP_RXB0EID8 = 0x63,
MCP_RXB0EID0 = 0x64,
MCP_RXB0DLC = 0x65,
MCP_RXB0DATA = 0x66,
MCP_RXB1CTRL = 0x70,
MCP_RXB1SIDH = 0x71,
MCP_RXB1SIDL = 0x72,
MCP_RXB1EID8 = 0x73,
MCP_RXB1EID0 = 0x74,
MCP_RXB1DLC = 0x75,
MCP_RXB1DATA = 0x76
};
static const uint32_t DEFAULT_SPI_CLOCK = 10000000; // 10MHz
static const int N_TXBUFFERS = 3;
static const int N_RXBUFFERS = 2;
static const struct TXBn_REGS {
REGISTER CTRL;
REGISTER SIDH;
REGISTER DATA;
} TXB[N_TXBUFFERS];
static const struct RXBn_REGS {
REGISTER CTRL;
REGISTER SIDH;
REGISTER DATA;
CANINTF CANINTF_RXnIF;
} RXB[N_RXBUFFERS];
uint8_t SPICS;
uint32_t SPI_CLOCK;
SPIClass * SPIn;
private:
void startSPI();
void endSPI();
ERROR setMode(const CANCTRL_REQOP_MODE mode);
uint8_t readRegister(const REGISTER reg);
void readRegisters(const REGISTER reg, uint8_t values[], const uint8_t n);
void setRegister(const REGISTER reg, const uint8_t value);
void setRegisters(const REGISTER reg, const uint8_t values[], const uint8_t n);
void modifyRegister(const REGISTER reg, const uint8_t mask, const uint8_t data);
void prepareId(uint8_t *buffer, const bool ext, const uint32_t id);
public:
MCP2515(const uint8_t _CS, const uint32_t _SPI_CLOCK = DEFAULT_SPI_CLOCK, SPIClass * _SPI = nullptr);
ERROR reset(void);
ERROR setConfigMode();
ERROR setListenOnlyMode();
ERROR setSleepMode();
ERROR setLoopbackMode();
ERROR setNormalMode();
ERROR setClkOut(const CAN_CLKOUT divisor);
ERROR setBitrate(const CAN_SPEED canSpeed);
ERROR setBitrate(const CAN_SPEED canSpeed, const CAN_CLOCK canClock);
ERROR setFilterMask(const MASK num, const bool ext, const uint32_t ulData);
ERROR setFilter(const RXF num, const bool ext, const uint32_t ulData);
ERROR sendMessage(const TXBn txbn, const struct can_frame *frame);
ERROR sendMessage(const struct can_frame *frame);
ERROR readMessage(const RXBn rxbn, struct can_frame *frame);
ERROR readMessage(struct can_frame *frame);
bool checkReceive(void);
bool checkError(void);
uint8_t getErrorFlags(void);
void clearRXnOVRFlags(void);
uint8_t getInterrupts(void);
uint8_t getInterruptMask(void);
void clearInterrupts(void);
void clearTXInterrupts(void);
uint8_t getStatus(void);
void clearRXnOVR(void);
void clearMERR();
void clearERRIF();
uint8_t errorCountRX(void);
uint8_t errorCountTX(void);
};
#endif