Beispiel #1
0
/**
* @brief  This function initializes the STack Packet handler of spirit1
* @param  None
* @retval None
*/
void STackProtocolInit(void)
{
#if defined(USE_STack_PROTOCOL)
  /* Spirit Packet config */
  SpiritPktStackInit(&xStackInit);
  SpiritPktStackAddressesInit(&xAddressInit);
  SpiritPktStackLlpInit(&xStackLLPInit);
  
    /* require ack from the receiver */
  SpiritPktStackRequireAck(S_ENABLE);

  if(EN_FILT_SOURCE_ADDRESS)
  {
    SpiritPktStackFilterOnSourceAddress(S_ENABLE);
    SpiritPktStackSetRxSourceMask(SOURCE_ADDR_MASK);
    SpiritPktStackSetSourceReferenceAddress(SOURCE_ADDR_REF);
    
  }
  else
  {
    SpiritPktStackFilterOnSourceAddress(S_DISABLE);    
  }

#endif
}
Beispiel #2
0
/**
* @brief  System main function.
* @param  None
* @retval None
*/
void main (void)
{
  SDK_SYSTEM_CONFIG();
  
#ifdef USE_VCOM
#ifdef STM8L
  SdkEvalComInit(115200,USART_WordLength_8b,USART_StopBits_1,USART_Parity_No,USART_Mode_Tx);
#elif SDK
  /* VC config */
  SdkEvalVCInit();
  while(bDeviceState != CONFIGURED);
#endif
#endif 

  /* Spirit ON */
  SpiritEnterShutdown();
  SpiritExitShutdown();
  SpiritManagementWaExtraCurrent();
  
#ifdef STM8L
  /* Manually set the XTAL_FREQUENCY */
  SpiritRadioSetXtalFrequency(XTAL_FREQUENCY);    
  /* Initialize the frequency offset variable to compensate XTAL offset */
  xRadioInit.lFrequencyBase = xRadioInit.lFrequencyBase + FREQUENCY_OFFSET;
  /* Initialize the signals to drive the range extender application board */
  RANGE_EXT_INIT(RANGE_TYPE);
#elif SDK
  SpiritManagementIdentificationRFBoard();

  /* if the board has eeprom, we can compensate the offset calling SpiritManagementGetOffset
  (if eeprom is not present this fcn will return 0) */
  xRadioInit.lFrequencyBase = xRadioInit.lFrequencyBase + SpiritManagementGetOffset();
    
  /* Initialize the signals to drive the range extender application board */
  SpiritManagementRangeExtInit();  
#endif

  /* Initialize the signals to drive the range extender application board */
  SpiritManagementRangeExtInit();  
  
  SdkEvalM2SGpioInit(M2S_GPIO_3,M2S_MODE_EXTI_IN);
  SdkEvalM2SGpioInterruptCmd(M2S_GPIO_3,0x0A,0x0A,ENABLE);
  
  /* Spirit IRQ config */
  SpiritGpioInit(&xGpioIRQ);

  /* Spirit Radio config */
  SpiritRadioInit(&xRadioInit);
  
  /* Spirit Radio set power */
  SpiritRadioSetPALevelMaxIndex(7);
  SpiritRadioSetPALeveldBm(7,POWER_DBM);
  
  /* Spirit Packet config */
  SpiritPktStackInit(&xStackInit);
  SpiritPktStackAddressesInit(&xAddressInit);
  SpiritPktStackLlpInit(&xStackLLPInit);
  
  /* Spirit IRQs enable */
  SpiritIrqDeInit(NULL);
  SpiritIrq(TX_DATA_SENT, S_ENABLE);
  SpiritIrq(RX_DATA_READY, S_ENABLE);
  SpiritIrq(RX_DATA_DISC, S_ENABLE);
  
  /* RX timeout config */
  SET_INFINITE_RX_TIMEOUT();
  SpiritTimerSetRxTimeoutStopCondition(SQI_ABOVE_THRESHOLD);
  
  /* Payload length config */
  SpiritPktStackSetPayloadLength(20);
  
  /* Destination address */
  SpiritPktStackSetDestinationAddress(DESTINATION_ADDRESS);
  
  /* IRQ registers blanking */
  SpiritIrqClearStatus();
  
  /* infinite loop */
  while (1){
    /* RX command */
    SpiritCmdStrobeRx();
    
    /* wait for data received */
    while(!xRxDoneFlag);
    xRxDoneFlag=RESET;
    
    /* when rx data ready read the number of received bytes */
    cRxData=SpiritLinearFifoReadNumElementsRxFifo();
    
    /* read the RX FIFO */
    SpiritSpiReadLinearFifo(cRxData, vectcBallBuff);
    SpiritCmdStrobeFlushRxFifo();
    
    /*  A simple way to control if the received data sequence is correct.
    Use a local block.
    */
    {
      SpiritBool correct=S_TRUE;
      
      /* control all the received bytes and verify that they are sequential
      numbers from 1 to 20. If one of them is not an expected value then
      stop the communication.
      */
      for(uint8_t i=0 ; i<cRxData ; i++)
        if(vectcBallBuff[i] != i+1)
          correct=S_FALSE;
      
#ifdef USE_VCOM
      /* send messages via COM */
      if(correct)
      {
        printf("B Rx data: [");
        for(uint8_t i=0 ; i<cRxData ; i++)
          printf("%d ", vectcBallBuff[i]);
        printf("]\r\n");
      }
      else
      {
        printf("data error! ping pong stopped\n\r");
        
      }
      
#endif
      
      /* stop communication if an incorrect sequence has been received */
      if(!correct){
        SdkEvalLedOn(LED4);
        
        while(1);
      }
    }
    
    /* pause between RX and TX */
    SdkDelayMs(500);
    
    /* fit the TX FIFO */
    SpiritCmdStrobeFlushTxFifo();
    SpiritSpiWriteLinearFifo(20, vectcBallBuff);
    
    /* send the TX command */
    SpiritCmdStrobeTx();
    
    /* wait for TX done */
    while(!xTxDoneFlag);
    
    xTxDoneFlag = RESET;
    
#ifdef USE_VCOM
    /* send messages via COM */
    printf("B Tx data: [");
    for(uint8_t i=0 ; i<cRxData ; i++)
      printf("%d ", vectcBallBuff[i]);
    printf("]\n\r");
#endif
    
  }
  
}
/**
* @brief  System main function.
* @param  None
* @retval None
*/
void main (void)
{
  SDK_SYSTEM_CONFIG();
  
#ifdef USE_VCOM
#ifdef STM8L
  SdkEvalComInit(115200,USART_WordLength_8b,USART_StopBits_1,USART_Parity_No,USART_Mode_Tx);
#elif SDK
  /* VC config */
  SdkEvalVCInit();
  while(bDeviceState != CONFIGURED);
#endif
#endif
  
  /* Spirit ON */
  SpiritEnterShutdown();
  SpiritExitShutdown();
  SpiritManagementWaExtraCurrent();
  
#ifdef STM8L
  /* Manually set the XTAL_FREQUENCY */
  SpiritRadioSetXtalFrequency(XTAL_FREQUENCY);    
  /* Initialize the frequency offset variable to compensate XTAL offset */
  xRadioInit.lFrequencyBase = xRadioInit.lFrequencyBase + FREQUENCY_OFFSET;
  /* Initialize the signals to drive the range extender application board */
  RANGE_EXT_INIT(RANGE_TYPE);
#elif SDK
  SpiritManagementIdentificationRFBoard();

  /* if the board has eeprom, we can compensate the offset calling SpiritManagementGetOffset
  (if eeprom is not present this fcn will return 0) */
  xRadioInit.lFrequencyBase = xRadioInit.lFrequencyBase + SpiritManagementGetOffset();
  
  /* Initialize the signals to drive the range extender application board */
  SpiritManagementRangeExtInit();  
#endif

  SdkEvalM2SGpioInit(M2S_GPIO_3,M2S_MODE_EXTI_IN);
  
  /* Spirit IRQ config */
  SpiritGpioInit(&xGpioIRQ);  
  
#ifdef STM8L
  enableInterrupts();
#elif SDK
  SdkEvalM2SGpioInterruptCmd(M2S_GPIO_3,0x0A,0x0A,ENABLE);
#endif
  
  /* Spirit Radio config */
  SpiritRadioInit(&xRadioInit);
  
  /* Spirit Radio set power */
  SpiritRadioSetPALeveldBm(7,POWER_DBM);
  SpiritRadioSetPALevelMaxIndex(7);
  
  /* Spirit Packet config */
  SpiritPktStackInit(&xStackInit);
  SpiritPktStackAddressesInit(&xAddressInit);
  
  /* Spirit IRQs enable */
  SpiritIrqDeInit(NULL);
  SpiritIrq(TX_DATA_SENT , S_ENABLE);
  
  /* payload length config */
  SpiritPktStackSetPayloadLength(20);
  
  /* destination address */
  SpiritPktStackSetDestinationAddress(DESTINATION_ADDRESS);

  /* IRQ registers blanking */
  SpiritIrqClearStatus();
  
  /* infinite loop */
  while (1){

#ifdef USE_VCOM
    printf("A data to transmit: [");
    
    for(uint8_t i=0 ; i<20 ; i++)
      printf("%d ", vectcTxBuff[i]);
    printf("]\n\r");
#endif
    
    /* fit the TX FIFO */
    SpiritCmdStrobeFlushTxFifo();
    SpiritSpiWriteLinearFifo(20, vectcTxBuff);
    
    /* send the TX command */
    SpiritCmdStrobeTx();
    
    /* wait for TX done */
    while(!xTxDoneFlag);
    xTxDoneFlag = RESET;

    /* pause between two transmissions */
    SdkDelayMs(500);
    
  }
  
}