Jean-Pierre Aulas
/
CanS-Homes
start adapt S-Homes structure
Diff: main.cpp
- Revision:
- 0:1b9561cd1c36
- Child:
- 1:6f8ffb2c2dd7
diff -r 000000000000 -r 1b9561cd1c36 main.cpp --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/main.cpp Fri Mar 17 16:38:46 2017 +0000 @@ -0,0 +1,145 @@ +/* + * A demo showing how to use CAN bus and the CANMsg library's << (append) and the >> (extract) operators + * + * Two affordable (less than $3 on ebay) STM32F103C8T6 boards (20kB SRAM, 64kB Flash), + * 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. + * In this demo, the mbed board is transmitting two data items to the CAN bus. + * counter: uint_8 value (one byte). + * voltage: floating point value (four bytes). + * So the total length of payload data is five bytes. + * The "<<" (append) operator is used to add data to the CAN message. + * If a CAN message is received its ID is checked. If there is match with the awaited ID + * then data is extracted from the CAN message using the ">>" (extract) operator. + * + * The usage of "<<" and ">>" operators is similar to the C++ io-stream ones. + * Data length of CAN message is automatically updated when using "<<" or ">>" operators. + * + * For schematic see the wiki page <https://developer.mbed.org/users/hudakz/code/CAN_Hello/> + * + * NOTE: If you'd like to use an STM32F103C8T6 board uncomment line 28 + * + * The same code is used for both NUCLEO boards, but: + * For board #1 compile the example without any change. + * For board #2 comment out line 27 before compilation + * + * Once the binaries have been downloaded to the boards reset board #1. + * + */ +#define BOARD1 1 // comment out this line when compiling for board #2 +//#define TARGET_STM32F103C8T6 1 // uncomment this line when using STM32F103C8T6 boards! + +#if defined(TARGET_STM32F103C8T6) +#include "stm32f103c8t6.h" +#define LED_PIN PC_13 +const int OFF = 1; +const int ON = 0; +#else +#define LED_PIN LED1 +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" + +Serial pc(USBTX, USBRX); +CAN can(PA_11, PA_12); // 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 msg to PC's serial terminal + * @note} + * @param CANMess to print + * @retval none + */ +void printMsg(CANMsg& 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 Main + * @note + * @param + * @retval + */ +int main(void) +{ +#if defined(TARGET_STM32F103C8T6) + confSysClock(); //Configure system clock (72MHz HSE clock, 48MHz USB clock) +#endif + + pc.baud(9600); // set Serial speed + can.frequency(1000000); // set bit rate to 1Mbps + +#if defined(BOARD1) + led = ON; // turn LED on + timer.start(); // start timer + pc.printf("CANnucleo_Hello board #1\r\n"); +#else + led = OFF; // turn LED off + pc.printf("CANnucleo_Hello board #2\r\n"); +#endif + + while(1) { + if(timer.read_ms() >= 1000) { + + // check for timeout + timer.stop(); // stop timer + timer.reset(); // reset timer + counter++; // increment counter + voltage = (analogIn * 3.3f) / 4096.0f; // read the small drifting voltage from analog input + txMsg.clear(); // clear Tx message storage + txMsg.id = TX_ID; // set ID + txMsg << counter << voltage; // append data (total data length must be <= 8 bytes!) + if(can.write(txMsg)) { + + // transmit message + led = OFF; // turn LED off + 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"); + } + + if(can.read(rxMsg)) { + led = ON; // turn LED on + pc.printf("-------------------------------------\r\n"); + pc.printf("CAN message received\r\n"); + printMsg(rxMsg); + + // Filtering performed by software: + if(rxMsg.id == RX_ID) { + rxMsg >> counter >> voltage; // extract data from the received CAN message + pc.printf(" counter = %d\r\n", counter); + pc.printf(" voltage = %e V\r\n", voltage); + timer.start(); // transmission lag + } + } + } +}