File content as of revision 10:c73d30edad03:

/*
 * An example showing how to use the mbed CAN API:
 *
 * Two affordable (about $2 on ebay) STM32F103C8T6 boards (20kB SRAM, 64kB Flash),
 * (see [https://developer.mbed.org/users/hudakz/code/STM32F103C8T6_Hello/] for more details)
 * are connected to the same CAN bus via transceivers (MCP2551 or TJA1040, or etc.).
 * CAN transceivers are not part of NUCLEO boards, therefore must be added by you.
 * Remember also that CAN bus (even a short one) must be terminated with 120 Ohm resitors at both ends.
 *
 *
 * The same code is used for both mbed boards, but:
 *      For board #1 compile the example without any change.
 *      For board #2 comment out line 21 before compiling
 *
 * Once the binaries have been downloaded to the boards reset both boards at the same time.
 *
 */

#define TARGET_NUCLEOF767ZI   1       // uncomment this line to use STM32F103C8T6 boards

#define BOARD1                  1       // comment out this line when compiling for board #2

#if defined(TARGET_NUCLEOF767ZI)
    #define LED_PIN     PB_7
    const int           OFF = 1;
    const int           ON = 0;
#else
    #define LED_PIN     PB_7
    const int           OFF = 0;
    const int           ON = 1;
#endif

#if defined(BOARD1)
    const unsigned int  RX_ID = 0x100;
    const unsigned int  TX_ID = 0x101;
#else
    const unsigned int  RX_ID = 0x101;
    const unsigned int  TX_ID = 0x100;
#endif

#include "mbed.h"
#include "CANMsg.h"
#include "mbed_error.h"
CircularBuffer<char, 1024> rxbuf;    // PC receiving Buffer
Serial              pc(USBTX, USBRX);
CAN                 can(PD_0, PD_1);  // CAN Rx pin name, CAN Tx pin name
//CAN                 can(p30, p29);  // CAN Rx pin name, CAN Tx pin name
CANMsg              rxMsg;
CANMsg              txMsg;
DigitalOut          led(LED_PIN);
Timer               timer;
uint8_t             counter = 0;
AnalogIn            analogIn(A0);
float               voltage;

/**
 * @brief   Prints CAN message to PC's serial terminal
 * @note
 * @param   CANMessage to print
 * @retval
 */
void printMsg(CANMessage& msg)
{
    pc.printf("  ID      = 0x%.3x\r\n", msg.id);
    pc.printf("  Type    = %d\r\n", msg.type);
    pc.printf("  Format  = %d\r\n", msg.format);
    pc.printf("  Length  = %d\r\n", msg.len);
    pc.printf("  Data    =");
    for(int i = 0; i < msg.len; i++)
        pc.printf(" 0x%.2X", msg.data[i]);
    pc.printf("\r\n");
}

/**
 * @brief   Handles received CAN messages
 * @note    Called on 'CAN message received' interrupt.
 * @param
 * @retval
 */
 
 
 
 
 
void onCanReceived(void)
{
    can.read(rxMsg);
    pc.printf("-------------------------------------\r\n");
    pc.printf("CAN message received\r\n");
    printMsg(rxMsg);
 
    rxbuf.reset();

    if (rxMsg.id == RX_ID) {
        // extract data from the received CAN message 
        // in the same order as it was added on the transmitter side
        rxMsg >> counter;
        rxMsg >> voltage;   
        pc.printf("  counter = %d\r\n", counter);
        pc.printf("  voltage = %e V\r\n", voltage);
    }
    
    timer.start(); // to transmit next message in main
}


/**
 * @brief   Main
 * @note
 * @param
 * @retval
 */



int main(void)
{
    pc.baud(9600);          // set serial speed
    can.frequency(1000000); // set CAN bit rate to 1Mbps
    can.filter(RX_ID, 0xFFF, CANStandard, 0); // set filter #0 to accept only standard messages with ID == RX_ID
    can.attach(onCanReceived);                // attach ISR to handle received messages

    
#if defined(BOARD1)
    led = ON;               // turn the LED on
    timer.start();          // start timer
    pc.printf("reset pressed from board #1\r\n");
#else
    led = OFF;      // turn LED off
    pc.printf("reset pressed from board #2\r\n");
#endif
    while(1) {
        if(timer.read_ms() >= 3000) {    // check for timeout
            timer.stop();                // stop timer
            timer.reset();               // reset timer
            counter++;                   // increment counter
            voltage = analogIn * 3.3f;   // read the small drift voltage from analog input
            txMsg.clear();               // clear Tx message storage
            txMsg.id = TX_ID;            // set ID
            // append data (total data length must not exceed 8 bytes!)
            txMsg << counter;   // one byte
            txMsg << voltage;   // four bytes
             if (counter==10){
                 break;
                 }
            if(can.write(txMsg)) {       // transmit message
                led = OFF;               // turn the LED off
                pc.printf("-------------------------------------\r\n");
                pc.printf("-------------------------------------\r\n");
                pc.printf("CAN message sent\r\n");
                printMsg(txMsg);
                pc.printf("  counter = %d\r\n", counter);
                pc.printf("  voltage = %e V\r\n", voltage);
            }
            else
                pc.printf("Transmission error\r\n");
                
                
        }
    }
}