Beispiel #1
0
/**
 * @brief	Handle interrupt from UART
 * @return	Nothing
 */
void UART1_IRQHandler(void)
{
	uint8_t ch;
	uint32_t IntStatus = Chip_UART_GetIntStatus(LPC_USART1);

	if (IntStatus & RXRDY_INT) {
		if(receiveCompleted == false) {
			Chip_UART_ReceiveByte(LPC_USART1, &RxBuf1[RxBufCnt1++]);
			if (RxBufCnt1 == BUFFER_SIZE) {
				Chip_UART_IntEnable(LPC_USART1, RXRDY_INT, DISABLE);
				receiveCompleted = true;
				RxBufCnt1 = 0;
			}
		}
		else {
			Chip_UART_ReceiveByte(LPC_USART1, &ch);
		}
	}

	if (IntStatus & TXRDY_INT) {
		if (sendCompleted == false) {
			Chip_UART_SendByte(LPC_USART1, RxBuf1[TxBufCnt1++]);
			if (TxBufCnt1 == BUFFER_SIZE) {
				Chip_UART_IntEnable(LPC_USART1, TXRDY_INT, DISABLE);
				sendCompleted = true;
				TxBufCnt1 = 0;
			}
		}
		else {
			return;
		}

	}
}
Beispiel #2
0
void ciaaUARTInit(void)
{
	/* UART0 (RS485/Profibus) */
	Chip_UART_Init(LPC_USART0);
	Chip_UART_SetBaud(LPC_USART0, 115200);

	Chip_UART_TXEnable(LPC_USART0);

	Chip_SCU_PinMux(9, 5, MD_PDN, FUNC7);              /* P9_5: UART0_TXD */
	Chip_SCU_PinMux(9, 6, MD_PLN|MD_EZI|MD_ZI, FUNC7); /* P9_6: UART0_RXD */

	Chip_UART_SetRS485Flags(LPC_USART0, UART_RS485CTRL_DCTRL_EN | UART_RS485CTRL_OINV_1);

	Chip_SCU_PinMux(6, 2, MD_PDN, FUNC2);              /* P6_2: UART0_DIR */

	/* Restart FIFOS: set Enable, Reset content, set trigger level */
	Chip_UART_SetupFIFOS(LPC_USART0, UART_FCR_FIFO_EN | UART_FCR_TX_RS | UART_FCR_RX_RS | UART_FCR_TRG_LEV0);
	/* dummy read */
	Chip_UART_ReadByte(LPC_USART0);
	/* enable rx interrupt */
	Chip_UART_IntEnable(LPC_USART0, UART_IER_RBRINT);

	NVIC_EnableIRQ(USART0_IRQn);

	RingBuffer_Init(uarts[0].rrb, rxbuf[0], 1, UART_BUF_SIZE);
	RingBuffer_Init(uarts[0].trb, txbuf[0], 1, UART_BUF_SIZE);

	/* UART2 (USB-UART) */
	Chip_UART_Init(LPC_USART2);
	Chip_UART_SetBaud(LPC_USART2, 115200);

	Chip_UART_TXEnable(LPC_USART2);

	Chip_SCU_PinMux(7, 1, MD_PDN, FUNC6);              /* P7_1: UART2_TXD */
	Chip_SCU_PinMux(7, 2, MD_PLN|MD_EZI|MD_ZI, FUNC6); /* P7_2: UART2_RXD */

	Chip_UART_IntEnable(LPC_USART2, UART_IER_RBRINT);
	NVIC_EnableIRQ(USART2_IRQn);

	RingBuffer_Init(uarts[1].rrb, rxbuf[1], 1, UART_BUF_SIZE);
	RingBuffer_Init(uarts[1].trb, txbuf[1], 1, UART_BUF_SIZE);

	/* UART3 (RS232) */
	Chip_UART_Init(LPC_USART3);
	Chip_UART_SetBaud(LPC_USART3, 115200);

	Chip_UART_TXEnable(LPC_USART3);

	Chip_SCU_PinMux(2, 3, MD_PDN, FUNC2);              /* P2_3: UART3_TXD */
	Chip_SCU_PinMux(2, 4, MD_PLN|MD_EZI|MD_ZI, FUNC2); /* P2_4: UART3_RXD */

	Chip_UART_IntEnable(LPC_USART3, UART_IER_RBRINT);
	NVIC_EnableIRQ(USART3_IRQn);

	RingBuffer_Init(uarts[2].rrb, rxbuf[2], 1, UART_BUF_SIZE);
	RingBuffer_Init(uarts[2].trb, txbuf[2], 1, UART_BUF_SIZE);
}
extern int32_t ciaaDriverUart_ioctl(ciaaDevices_deviceType const * const device, int32_t const request, void * param)
{
   int32_t ret = -1;

   if((device == ciaaDriverUartConst.devices[0]) ||
      (device == ciaaDriverUartConst.devices[1]) ||
      (device == ciaaDriverUartConst.devices[2]) )
   {
      switch(request)
      {
         case ciaaPOSIX_IOCTL_STARTTX:
            /* disable THRE irq (TX) */
            Chip_UART_IntDisable((LPC_USART_T *)device->loLayer, UART_IER_THREINT);
            /* this one calls write */
            ciaaDriverUart_txConfirmation(device);
            /* enable THRE irq (TX) */
            Chip_UART_IntEnable((LPC_USART_T *)device->loLayer, UART_IER_THREINT);
            ret = 0;
            break;

         case ciaaPOSIX_IOCTL_SET_BAUDRATE:
            ret = Chip_UART_SetBaud((LPC_USART_T *)device->loLayer,  (int32_t)param);
            break;

         case ciaaPOSIX_IOCTL_SET_FIFO_TRIGGER_LEVEL:
            Chip_UART_SetupFIFOS((LPC_USART_T *)device->loLayer,  UART_FCR_FIFO_EN | UART_FCR_TX_RS | UART_FCR_RX_RS | (int32_t)param);
            break;

         case ciaaPOSIX_IOCTL_SET_ENABLE_TX_INTERRUPT:
            if((bool)(intptr_t)param == false)
            {
               /* disable THRE irq (TX) */
               Chip_UART_IntDisable((LPC_USART_T *)device->loLayer, UART_IER_THREINT);
            }
            else
            {
               /* enable THRE irq (TX) */
               Chip_UART_IntEnable((LPC_USART_T *)device->loLayer, UART_IER_THREINT);
            }
            break;

         case ciaaPOSIX_IOCTL_SET_ENABLE_RX_INTERRUPT:
            if((bool)(intptr_t)param == false)
            {
               /* disable RBR irq (RX) */
               Chip_UART_IntDisable((LPC_USART_T *)device->loLayer, UART_IER_RBRINT);
            }
            else
            {
               /* enable RBR irq (RX) */
               Chip_UART_IntEnable((LPC_USART_T *)device->loLayer, UART_IER_RBRINT);
            }
            break;
      }
   }
   return ret;
}
/* Init seriové linky a pinů určených k přenosu dat
 * Nastavení UARTu: 115.2K8N1.
 *  FIFO lvl3 - 14 znaků.
 *  */
void setup_uarts(){

	/* UART0 set up */
	Chip_IOCON_PinMuxSet(LPC_IOCON, 0, 2, (IOCON_FUNC1 | IOCON_MODE_INACT));
	Chip_IOCON_PinMuxSet(LPC_IOCON, 0, 3, (IOCON_FUNC1 | IOCON_MODE_INACT));

	/* Setup UART0 for 115.2K8N1 */
	Chip_UART_Init(LPC_UART0);
	Chip_UART_SetBaud(LPC_UART0, 115200);
	Chip_UART_ConfigData(LPC_UART0, (UART_LCR_WLEN8 | UART_LCR_SBS_1BIT));
	Chip_UART_SetupFIFOS(LPC_UART0, (UART_FCR_FIFO_EN | UART_FCR_TRG_LEV2));
	Chip_UART_TXEnable(LPC_UART0);
	Chip_UART_IntEnable(UART0, (UART_IER_RBRINT));
	Chip_UART_SetupFIFOS(LPC_UART0, (UART_FCR_FIFO_EN | UART_FCR_RX_RS |
	UART_FCR_TX_RS | UART_FCR_TRG_LEV3));

	NVIC_EnableIRQ(UART0_IRQn);

	/* UART2 set up */
	Chip_IOCON_PinMuxSet(LPC_IOCON, 2, 8, (IOCON_FUNC2 | IOCON_MODE_INACT));
	Chip_IOCON_PinMuxSet(LPC_IOCON, 2, 9, (IOCON_FUNC2 | IOCON_MODE_INACT));

	/* Setup UART4 for 115.2K8N1 */
	Chip_UART_Init(UART2);
	Chip_UART_SetBaudFDR(UART2, 115200);
	Chip_UART_ConfigData(UART2, (UART_LCR_WLEN8 | UART_LCR_SBS_1BIT | UART_LCR_PARITY_DIS));
	Chip_UART_TXEnable(UART2);
	Chip_UART_IntEnable(UART2, (UART_IER_RBRINT));
	Chip_UART_SetupFIFOS(UART2, (UART_FCR_FIFO_EN | UART_FCR_RX_RS |
	UART_FCR_TX_RS | UART_FCR_TRG_LEV3));

	NVIC_EnableIRQ(UART2_IRQn);

	/* UART4 set up */
	Chip_IOCON_PinMuxSet(LPC_IOCON, 0, 22, (IOCON_FUNC3 | IOCON_MODE_INACT));
	Chip_IOCON_PinMuxSet(LPC_IOCON, 5, 3, (IOCON_FUNC4 | IOCON_MODE_INACT));


	/* Setup UART4 for 115.2K8N1 */
	Chip_UART_Init(LPC_UART4);
	Chip_UART_SetBaudFDR(LPC_UART4, 115200);
	Chip_UART_ConfigData(LPC_UART4, (UART_LCR_WLEN8 | UART_LCR_SBS_1BIT | UART_LCR_PARITY_DIS));
	Chip_UART_TXEnable(LPC_UART4);
	Chip_UART_IntEnable(LPC_UART4, (UART_IER_RBRINT));
	Chip_UART_SetupFIFOS(LPC_UART4, (UART_FCR_FIFO_EN | UART_FCR_RX_RS |
	UART_FCR_TX_RS | UART_FCR_TRG_LEV3));

	//Chip_UART_SetAutoBaudReg(LPC_UART4,UART_ACR_START | UART_ACR_MODE);

	NVIC_EnableIRQ(UART4_IRQn);

}
Beispiel #5
0
/* UART port init routine */
void UCOM_UartInit(void)
{
	/* Board specific muxing */
	Init_UART_PinMux();

	/* Before setting up the UART, the global UART clock for USARTS 1-4
	   must first be setup. This requires setting the UART divider and
	   the UART base clock rate to 16x the maximum UART rate for all
	   UARTs. */
#if defined(USE_INTEGER_CLOCK)
	/* Use main clock rate as base for UART baud rate divider */
	Chip_Clock_SetUARTBaseClockRate(Chip_Clock_GetMainClockRate(), false);

#else
	/* Use 128x expected UART baud rate for fractional baud mode. */
	Chip_Clock_SetUARTBaseClockRate((115200 * 128), true);
#endif

	/* Setup UART */
	Chip_UART_Init(LPC_USART);
	Chip_UART_ConfigData(LPC_USART, UART_CFG_DATALEN_8 | UART_CFG_PARITY_NONE | UART_CFG_STOPLEN_1);
	Chip_UART_SetBaud(LPC_USART, UART_TEST_DEFAULT_BAUDRATE);
	/* Optional for low clock rates only: Chip_UART_SetBaudWithRTC32K(LPC_USART, 300); */
	Chip_UART_Enable(LPC_USART);
	Chip_UART_TXEnable(LPC_USART);

	/* Enable receive data and line status interrupt */
	Chip_UART_IntEnable(LPC_USART, UART_INTEN_RXRDY);

	/* Enable Interrupt for UART channel */
	/* Priority = 1 */
	NVIC_SetPriority(LPC_IRQNUM, 1);
	/* Enable Interrupt for UART channel */
	NVIC_EnableIRQ(LPC_IRQNUM);
}
Beispiel #6
0
/**
 * @brief	Main UART program body
 * @return	Always returns 1
 */
int main(void)
{
	uint8_t key;
	int bytes;

	SystemCoreClockUpdate();
	Board_Init();
	Board_UART_Init(LPC_UARTX);
	Board_LED_Set(0, false);

	/* Setup UART for 115.2K8N1 */
	Chip_UART_Init(LPC_UARTX);
	Chip_UART_SetBaud(LPC_UARTX, 115200);
	Chip_UART_ConfigData(LPC_UARTX, (UART_LCR_WLEN8 | UART_LCR_SBS_1BIT));
	Chip_UART_SetupFIFOS(LPC_UARTX, (UART_FCR_FIFO_EN | UART_FCR_TRG_LEV2));
	Chip_UART_TXEnable(LPC_UARTX);

	/* Before using the ring buffers, initialize them using the ring
	   buffer init function */
	RingBuffer_Init(&rxring, rxbuff, 1, UART_RRB_SIZE);
	RingBuffer_Init(&txring, txbuff, 1, UART_SRB_SIZE);

	/* Reset and enable FIFOs, FIFO trigger level 3 (14 chars) */
	Chip_UART_SetupFIFOS(LPC_UARTX, (UART_FCR_FIFO_EN | UART_FCR_RX_RS |
							UART_FCR_TX_RS | UART_FCR_TRG_LEV3));

	/* Enable receive data and line status interrupt */
	Chip_UART_IntEnable(LPC_UARTX, (UART_IER_RBRINT | UART_IER_RLSINT));

	/* preemption = 1, sub-priority = 1 */
	NVIC_SetPriority(UARTx_IRQn, 1);
	NVIC_EnableIRQ(UARTx_IRQn);

	/* Send initial messages */
	Chip_UART_SendRB(LPC_UARTX, &txring, inst1, sizeof(inst1) - 1);
	Chip_UART_SendRB(LPC_UARTX, &txring, inst2, sizeof(inst2) - 1);

	/* Poll the receive ring buffer for the ESC (ASCII 27) key */
	key = 0;
	while (key != 27) {
		bytes = Chip_UART_ReadRB(LPC_UARTX, &rxring, &key, 1);
		if (bytes > 0) {
			/* Wrap value back around */
			if (Chip_UART_SendRB(LPC_UARTX, &txring, (const uint8_t *) &key, 1) != 1) {
				Board_LED_Toggle(0);/* Toggle LED if the TX FIFO is full */
			}
		}
	}

	/* DeInitialize UART0 peripheral */
	NVIC_DisableIRQ(UARTx_IRQn);
	Chip_UART_DeInit(LPC_UARTX);

	return 1;
}
Beispiel #7
0
//================================================[UART Management]==========================================================
void Board_UART_Init(LPC_USART_T *pUART)
{
	if(pUART==LPC_USART0)
	{
		/* UART0 (RS485/Profibus) */
   		Chip_UART_Init(LPC_USART0);
   		Chip_UART_SetBaud(LPC_USART0, 115200);

   		Chip_UART_SetupFIFOS(LPC_USART0, UART_FCR_FIFO_EN | UART_FCR_TRG_LEV0);

   		Chip_UART_TXEnable(LPC_USART0);

   		Chip_SCU_PinMux(9, 5, MD_PDN, FUNC7);              /* P9_5: UART0_TXD */
   		Chip_SCU_PinMux(9, 6, MD_PLN|MD_EZI|MD_ZI, FUNC7); /* P9_6: UART0_RXD */

   		Chip_UART_SetRS485Flags(LPC_USART0, UART_RS485CTRL_DCTRL_EN | UART_RS485CTRL_OINV_1);

   		Chip_SCU_PinMux(6, 2, MD_PDN, FUNC2);              /* P6_2: UART0_DIR */
		uart0RxBufferData.buffer = NULL;
		uart0RxBufferData.size=0;
		uart0RxBufferData.index=0;
		uart0RxBufferData.flagNewPacket=0;
		uart0RxBufferData.timeoutCounter=0;
        	//NVIC_SetPriority(USART0_IRQn, 1);
        	//NVIC_EnableIRQ(USART0_IRQn);

	}
	else if(pUART==LPC_USART3)
	{
		/* UART3 (RS232) */
   		Chip_UART_Init(LPC_USART3);
   		Chip_UART_SetBaud(LPC_USART3, 115200);

   		Chip_UART_SetupFIFOS(LPC_USART3, UART_FCR_FIFO_EN | UART_FCR_TRG_LEV0);

   		Chip_UART_TXEnable(LPC_USART3);

   		Chip_SCU_PinMux(2, 3, MD_PDN, FUNC2);              /* P2_3: UART3_TXD */
   		Chip_SCU_PinMux(2, 4, MD_PLN|MD_EZI|MD_ZI, FUNC2); /* P2_4: UART3_RXD */
		uart3RxBufferData.buffer = NULL;
                uart3RxBufferData.size=0;
                uart3RxBufferData.index=0;
		uart3RxBufferData.flagNewPacket=0;
                uart3RxBufferData.timeoutCounter=0;

                //NVIC_SetPriority(USART3_IRQn, 1);
                //NVIC_EnableIRQ(USART3_IRQn);
	}
	/* Restart FIFOS: set Enable, Reset content, set trigger level */
   	Chip_UART_SetupFIFOS(pUART, UART_FCR_FIFO_EN | UART_FCR_TX_RS | UART_FCR_RX_RS | UART_FCR_TRG_LEV0);
   	/* dummy read */
   	Chip_UART_ReadByte(pUART);
   	/* enable rx interrupt */
   	Chip_UART_IntEnable(pUART, UART_IER_RBRINT);
}
Beispiel #8
0
/* UART port init routine */
static void UCOM_UartInit(int i)
{

	/* Pin-muxing done in board init. */
	//Init_UART_PinMux();
	if(i==1)
	{
		Chip_UART_Init(LPC_UART0);
		Chip_UART_SetBaud(LPC_UART0, 115200);
		Chip_UART_ConfigData(LPC_UART0, (UART_LCR_WLEN8 | UART_LCR_SBS_1BIT));
		Chip_UART_SetupFIFOS(LPC_UART0, (UART_FCR_FIFO_EN | UART_FCR_TRG_LEV2));
		Chip_UART_TXEnable(LPC_UART0);

		/* Enable receive data and line status interrupt */
		Chip_UART_IntEnable(LPC_UART0, (UART_IER_RBRINT | UART_IER_RLSINT));

		/* Enable Interrupt for UART channel */
		/* Priority = 1 */
		NVIC_SetPriority(UART0_IRQn, 1);
		/* Enable Interrupt for UART channel */

	}

	if(i==2)
	{
		Chip_UART_Init(LPC_UART2);
		Chip_UART_SetBaud(LPC_UART2, 115200);
		Chip_UART_ConfigData(LPC_UART2, (UART_LCR_WLEN8 | UART_LCR_SBS_1BIT));
		Chip_UART_SetupFIFOS(LPC_UART2, (UART_FCR_FIFO_EN | UART_FCR_TRG_LEV2));
		Chip_UART_TXEnable(LPC_UART2);

		/* Enable receive data and line status interrupt */
		Chip_UART_IntEnable(LPC_UART2, (UART_IER_RBRINT | UART_IER_RLSINT));

		/* Enable Interrupt for UART channel */
		/* Priority = 1 */
		NVIC_SetPriority(UART2_IRQn, 1);
		/* Enable Interrupt for UART channel */

	}

}
/*==================[external functions definition]==========================*/
extern ciaaDevices_deviceType * ciaaDriverUart_open(char const * path, ciaaDevices_deviceType * device, uint8_t const oflag)
{
   /* Restart FIFOS: set Enable, Reset content, set trigger level */
   Chip_UART_SetupFIFOS((LPC_USART_T *)device->loLayer, UART_FCR_FIFO_EN | UART_FCR_TX_RS | UART_FCR_RX_RS | UART_FCR_TRG_LEV0);
   /* dummy read */
   Chip_UART_ReadByte((LPC_USART_T *)device->loLayer);
   /* enable rx interrupt */
   Chip_UART_IntEnable((LPC_USART_T *)device->loLayer, UART_IER_RBRINT);

   return device;
}
Beispiel #10
0
int skynetbase_gps_init(void) {
	DBG("begin init GPS...\n");

	NVIC_DisableIRQ(GPS_IRQn);
	Chip_UART_IntDisable(GPS_UART, (UART_IER_RBRINT | UART_IER_RLSINT));

	Chip_UART_Init(GPS_UART);
	Chip_UART_SetBaud(GPS_UART, 9600);
	Chip_UART_ConfigData(GPS_UART, (UART_LCR_WLEN8 | UART_LCR_SBS_1BIT));
	Chip_UART_SetupFIFOS(GPS_UART, (UART_FCR_FIFO_EN | UART_FCR_TRG_LEV2));
	Chip_UART_TXEnable(GPS_UART);

	// Before using the ring buffers, initialize them using the ring buffer init function
	RingBuffer_Init(&rxring, rxbuff, 1, UART_RRB_SIZE);
	RingBuffer_Init(&txring, txbuff, 1, UART_SRB_SIZE);

	// Reset and enable FIFOs, FIFO trigger level 3 (14 chars)
	Chip_UART_SetupFIFOS(GPS_UART, (UART_FCR_FIFO_EN | UART_FCR_RX_RS |
			UART_FCR_TX_RS | UART_FCR_TRG_LEV3));

	/* Enable receive data and line status interrupt */
	Chip_UART_IntEnable(GPS_UART, (UART_IER_RBRINT | UART_IER_RLSINT));

	/* preemption = 1, sub-priority = 1 */
	NVIC_SetPriority(GPS_IRQn, 1);
	NVIC_EnableIRQ(GPS_IRQn);


	DBG("GPS up.\n");

	skynetbase_gps_config("$PUBX,40,GLL,0,0,0,0*5C\r\n");
	msDelayActive(250);
	skynetbase_gps_config("$PUBX,40,ZDA,0,0,0,0*44\r\n");
	msDelayActive(250);
	skynetbase_gps_config("$PUBX,40,VTG,0,0,0,0*5E\r\n");
	msDelayActive(250);
	skynetbase_gps_config("$PUBX,40,GSV,0,0,0,0*59\r\n");
	msDelayActive(250);
	skynetbase_gps_config("$PUBX,40,RMC,0,0,0,0*47\r\n");
	msDelayActive(250);
	skynetbase_gps_config("$PUBX,40,GSA,0,0,0,0*4E\r\n");
	msDelayActive(250);
	skynetbase_gps_config("$PUBX,40,GGA,0,0,0,0*5A\r\n");
	msDelayActive(250);

	DBG("GPS configured.\n");

	// TODO
	return 1;
}
Beispiel #11
0
/* UCOM bulk EP_IN and EP_OUT endpoints handler */
static ErrorCode_t UCOM_bulk_hdlr(USBD_HANDLE_T hUsb, void *data, uint32_t event)
{
	UCOM_DATA_T *pUcom = (UCOM_DATA_T *) data;
	uint32_t count = 0;

	switch (event) {
	/* A transfer from us to the USB host that we queued has completed. */
	case USB_EVT_IN:
		/* check if UART had more data to send */
		if (pUcom->rxBuf_uartIndex < pUcom->rxBuf_usbIndex) {
			count = UCOM_BUF_SZ - pUcom->rxBuf_usbIndex;
		}
		else {
			count = pUcom->rxBuf_uartIndex - pUcom->rxBuf_usbIndex;
		}
		if (count) {
			pUcom->usbTxBusy = 1;
			count = USBD_API->hw->WriteEP(pUcom->hUsb, USB_CDC_IN_EP, &pUcom->rxBuf[g_uCOM.rxBuf_usbIndex], count);
			g_uCOM.rxBuf_usbIndex = (g_uCOM.rxBuf_usbIndex + count) & (UCOM_BUF_SZ - 1);
		}
		else {
			pUcom->usbTxBusy = 0;
		}
		break;

	/* We received a transfer from the USB host . */
	case USB_EVT_OUT:
		if ((Chip_UART_GetIntsEnabled(LPC_USART) & UART_IER_THREINT) == 0) {
			pUcom->txBuf_count = USBD_API->hw->ReadEP(hUsb, USB_CDC_OUT_EP, pUcom->txBuf);
			pUcom->txBuf_uartIndex = 0;
			/* kick start UART tranmission */
			pUcom->txBuf_uartIndex = Chip_UART_Send(LPC_USART,
													&pUcom->txBuf[g_uCOM.txBuf_uartIndex],
													pUcom->txBuf_count);
			pUcom->txBuf_count -= pUcom->txBuf_uartIndex;
			/* Enable UART transmit interrupt */
			Chip_UART_IntEnable(LPC_USART, UART_IER_THREINT);
		}
		else {
			pUcom->usbRxPending++;
		}
		break;

	default:
		break;
	}

	return LPC_OK;
}
Beispiel #12
0
/* Populate a transmit ring buffer and start UART transmit */
uint32_t Chip_UART_SendRB(LPC_USART_T *pUART, RINGBUFF_T *pRB, const void *data, int bytes)
{
	uint32_t ret;
	uint8_t *p8 = (uint8_t *) data;

	/* Don't let UART transmit ring buffer change in the UART IRQ handler */
	Chip_UART_IntDisable(pUART, UART_IER_THREINT);

	/* Move as much data as possible into transmit ring buffer */
	ret = RingBuffer_InsertMult(pRB, p8, bytes);
	Chip_UART_TXIntHandlerRB(pUART, pRB);

	/* Add additional data to transmit ring buffer if possible */
	ret += RingBuffer_InsertMult(pRB, (p8 + ret), (bytes - ret));

	/* Enable UART transmit interrupt */
	Chip_UART_IntEnable(pUART, UART_IER_THREINT);

	return ret;
}
Beispiel #13
0
/* UART port init routine */
static void UCOM_UartInit(void)
{
	/* Board specific muxing */
	Init_UART_PinMux();

	Chip_UART_Init(LPC_USART);
	Chip_UART_SetBaud(LPC_USART, 115200);
	Chip_UART_ConfigData(LPC_USART, (UART_LCR_WLEN8 | UART_LCR_SBS_1BIT));
	Chip_UART_SetupFIFOS(LPC_USART, (UART_FCR_FIFO_EN | UART_FCR_TRG_LEV2));
	Chip_UART_TXEnable(LPC_USART);

	/* Enable receive data and line status interrupt */
	Chip_UART_IntEnable(LPC_USART, (UART_IER_RBRINT | UART_IER_RLSINT));

	/* Enable Interrupt for UART channel */
	/* Priority = 1 */
	NVIC_SetPriority(UART0_IRQn, 1);
	/* Enable Interrupt for UART channel */
	NVIC_EnableIRQ(UART0_IRQn);
}
/* Initialize Interrupt for UART */
static void App_Interrupt_Init(void)
{
    /* Enable UART Rx & line status interrupts */
    /*
     * Do not enable transmit interrupt here, since it is handled by
     * UART_Send() function, just to reset Tx Interrupt state for the
     * first time
     */
    Chip_UART_IntEnable(LPC_UART, (UART_IER_RBRINT | UART_IER_RLSINT));

    /* Before using the ring buffers, initialize them using the ring
       buffer init function */
    RingBuffer_Init(&rxring, rxbuff, 1, UART_RB_SIZE);
    RingBuffer_Init(&txring, txbuff, 1, UART_RB_SIZE);

    /* Enable Interrupt for UART channel */
    /* Priority = 1 */
    NVIC_SetPriority(UARTx_IRQn, 1);
    /* Enable Interrupt for UART channel */
    NVIC_EnableIRQ(UARTx_IRQn);
}
Beispiel #15
0
void uart_init(void)
{
    /* Board specific muxing */
    uart_pinmux();

    Chip_UART_Init(LPC_USART);
    Chip_UART_SetBaudFDR(LPC_USART, 115200);
    Chip_UART_ConfigData(LPC_USART, (UART_LCR_WLEN8 | UART_LCR_SBS_1BIT));
    Chip_UART_SetupFIFOS(LPC_USART, (UART_FCR_FIFO_EN | UART_FCR_TRG_LEV2));
    Chip_UART_TXEnable(LPC_USART);

    RingBuffer_Init(&uart_rxrb, uart_rxdata, 1, UART_RX_BUF_SZ);
    RingBuffer_Init(&uart_txrb, uart_txdata, 1, UART_TX_BUF_SZ);

    /* Enable receive data and line status interrupt */
    Chip_UART_IntEnable(LPC_USART, (UART_IER_RBRINT | UART_IER_RLSINT));

    /* Enable Interrupt for UART channel */
    /* Priority = 1 */
    NVIC_SetPriority(UART0_IRQn, 1);
    /* Enable Interrupt for UART channel */
    NVIC_EnableIRQ(UART0_IRQn);
}
Beispiel #16
0
void UART_Init(void)
{
	struct __serial_info *serial = (struct __serial_info *)(get_S2E_Packet_pointer()->serial_info);

	/* Setup UART for 115.2K8N1 */
	Chip_UART_Init(LPC_USART);

	serial_info_init(serial);
	Chip_UART_SetupFIFOS(LPC_USART, (UART_FCR_FIFO_EN | UART_FCR_TRG_LEV3));
	Chip_UART_TXEnable(LPC_USART);

	/* Before using the ring buffers, initialize them using the ring
	   buffer init function */
	RingBuffer_Init(&rxring, rxbuff, 1, UART_RRB_SIZE);
	RingBuffer_Init(&txring, txbuff, 1, UART_SRB_SIZE);

	/* Enable receive data and line status interrupt */
	Chip_UART_IntEnable(LPC_USART, (UART_IER_RBRINT | UART_IER_RLSINT));

	/* preemption = 1, sub-priority = 1 */
	NVIC_SetPriority(UART0_IRQn, 1);
	NVIC_EnableIRQ(UART0_IRQn);
}
Beispiel #17
0
static ErrorCode_t UCOM_bulk_hdlrOutGeneric(USBD_HANDLE_T hUsb, void *data, uint32_t event)
{
	UCOM_DATA_T *pUcom = (UCOM_DATA_T *) data;

	switch (event) {
	case USB_EVT_OUT:
		if(pUcom->selected!=0){
			if ((Chip_UART_GetIntsEnabled(pUcom->selected) & UART_IER_THREINT) == 0) {
				pUcom->txBuf_count = USBD_API->hw->ReadEP(hUsb,  pUcom->outEndpoint, pUcom->txBuf);
				pUcom->txBuf_uartIndex = 0;
				/* kick start UART tranmission */
				pUcom->txBuf_uartIndex = Chip_UART_Send(pUcom->selected,
						&pUcom->txBuf[pUcom->txBuf_uartIndex],
						pUcom->txBuf_count);
				pUcom->txBuf_count -= pUcom->txBuf_uartIndex;
				/* Enable UART transmit interrupt */

				Chip_UART_IntEnable(pUcom->selected, UART_IER_THREINT);
			}
			else {
				pUcom->usbRxPending++;
			}

			return LPC_OK;
		}
		break;
		break;



	default:
		break;
	}
	return ERR_USBD_UNHANDLED;

}
Beispiel #18
0
/**
 * @brief	Application main function
 * @return	Does not return
 * @note	This function will not return
 */
int main(void)
{
	uint32_t i;
	uint8_t repeat_num = UART_TEST_REPEAT_NUMBER;
	volatile int j = 1;
	uint8_t ch = 0;
	uint32_t IntStatus;

	/* Generic Initialization */
	Board_Init();

	Board_LED_Set(0, false);

	/* Disable UART1 IRQ */
	NVIC_DisableIRQ(UART1_IRQn);

	/* Initialize the UARTs */
	App_UART_Init(LPC_USART0);
	App_UART_Init(LPC_USART1);

	/* Custom Initialization */
	Chip_UART_IntEnable(LPC_USART1, RXRDY_INT, DISABLE);
	Chip_UART_IntEnable(LPC_USART1, TXRDY_INT, DISABLE);
	NVIC_EnableIRQ(UART1_IRQn);

	/* Data transfer loop */
	while (repeat_num--) {

		bufferInit(repeat_num);

		/* Sending from UART0 (polling mode) to UART1 (interrupt mode) */
		receiveCompleted = false;
		Chip_UART_IntEnable(LPC_USART1, RXRDY_INT, ENABLE);
		for (i = 0; i < BUFFER_SIZE; i++) {
			while (Chip_UART_SendByte(LPC_USART0, TxBuf0[i]) != SUCCESS) {}
		}
		while (!receiveCompleted) {}

        /* Clear Rx FIFO */
		Chip_UART_ReceiveByte(LPC_USART0, &ch);

		/* Sending from UART1 (interrupt mode) to UART0 (polling mode) */
		sendCompleted = false;
		Chip_UART_IntEnable(LPC_USART1, TXRDY_INT, ENABLE);
		for (i = 0; i < BUFFER_SIZE; i++) {
			while (Chip_UART_ReceiveByte(LPC_USART0, &RxBuf0[i]) != SUCCESS) {}
		}
		while (!sendCompleted) {}

		bufferCheck();
	}

	NVIC_DisableIRQ(UART1_IRQn);

	/* Test OK - Turn on Red LED */
	Board_LED_Set(0, true);

	/* Should not return */
	while (j) {}

	return 0;
}
/**
 * @brief	Main UART program body
 * @return	Always returns -1
 */
int main(void)
{
    FlagStatus exitflag;
    uint8_t buffer[10];
    int ret = 0;
    int len;

    SystemCoreClockUpdate();
    Board_Init();
    Board_UART_Init(LPC_UART);

#if !((defined(CHIP_LPC43XX) && defined(BOARD_KEIL_MCB_18574357) && UARTNum==3) || ((!(defined(CHIP_LPC43XX) && defined(BOARD_KEIL_MCB_18574357))) && UARTNum==0))
    Chip_UART_Init(LPC_UART);
    Chip_UART_SetBaud(LPC_UART, 115200);
    Chip_UART_ConfigData(LPC_UART, UART_LCR_WLEN8 | UART_LCR_SBS_1BIT); /* Default 8-N-1 */

    /* Enable UART Transmit */
    Chip_UART_TXEnable(LPC_UART);
#endif

    /* Reset FIFOs, Enable FIFOs and DMA mode in UART */
    Chip_UART_SetupFIFOS(LPC_UART, (UART_FCR_FIFO_EN | UART_FCR_RX_RS |
                                    UART_FCR_TX_RS | UART_FCR_DMAMODE_SEL | UART_FCR_TRG_LEV0));

    /* Enable UART End of Auto baudrate & Auto baudrate timeout interrupts */
    Chip_UART_IntEnable(LPC_UART, (UART_IER_ABEOINT | UART_IER_ABTOINT));

    /* preemption = 1, sub-priority = 1 */
    NVIC_SetPriority(UARTx_IRQn, 1);
    /* Enable Interrupt for UART0 channel */
    NVIC_EnableIRQ(UARTx_IRQn);

    /* Send UART Autobaud completed message */
    Chip_UART_SendBlocking(LPC_UART, uartABStart, sizeof(uartABStart));

    /* ---------------------- Auto baud rate section ----------------------- */
    /* Start auto baudrate mode */
    Chip_UART_ABCmd(LPC_UART, UART_ACR_MODE0, true, ENABLE);

    /* Loop until auto baudrate mode complete */
    while (Chip_UART_GetABEOStatus(LPC_UART) == RESET) {}

    /* Send UART Autobaud completed message */
    Chip_UART_SendBlocking(LPC_UART, uartABComplete, sizeof(uartABComplete));

    /* Disable UART Interrupt */
    NVIC_DisableIRQ(UARTx_IRQn);

    /* Print welcome screen */
    Print_Menu_Polling();

    exitflag = RESET;
    /* Read some data from the buffer */
    while (exitflag == RESET) {
        len = 0;
        while (len == 0) {
            len = Chip_UART_Read(LPC_UART, buffer, 1);
        }
        if (buffer[0] == 27) {
            /* ESC key, set exit flag */
            Chip_UART_SendBlocking(LPC_UART, uartPolling_menu3, sizeof(uartPolling_menu3));
            ret = -1;
            exitflag = SET;
        }
        else if (buffer[0] == 'c') {
            Chip_UART_SendBlocking(LPC_UART, uartPolling_menu4, sizeof(uartPolling_menu4));
            len = 0;
            while (len == 0) {
                len = Chip_UART_Read(LPC_UART, buffer, sizeof(buffer));
                if ((buffer[0] != '1') && (buffer[0] != '2') && (buffer[0] != '3')) {
                    len = 0;
                }
            }
            switch (buffer[0]) {
            case '1':		/* Polling Mode */
                Chip_UART_SendBlocking(LPC_UART, uartPolling_menu5, sizeof(uartPolling_menu5));
                break;

            case '2':		/* Interrupt Mode */
                ret = 2;
                /* Exitflag = SET; */
                App_Interrupt_Test();
                Print_Menu_Polling();
                break;

            case '3':		/* DMA mode */
                ret = 3;
                App_DMA_Test();
                Print_Menu_Polling();
                break;
            }
        }
    }

    /* Wait for current transmission complete - THR must be empty */
    while (Chip_UART_CheckBusy(LPC_UART) == SET) {}

    /* DeInitialize UART0 peripheral */
    Chip_UART_DeInit(LPC_UART);

    return ret;
}
Beispiel #20
0
/**
 * @brief	Main UART program body
 * @return	Always returns 1
 */
int main(void)
{
    uint8_t key;
    int bytes;

    SystemCoreClockUpdate();
    Board_Init();
    Init_UART_PinMux();
    Board_LED_Set(0, false);

    /* Before setting up the UART, the global UART clock for USARTS 1-4
       must first be setup. This requires setting the UART divider and
       the UART base clock rate to 16x the maximum UART rate for all
       UARTs. */
#if defined(USE_INTEGER_CLOCK)
    /* Use main clock rate as base for UART baud rate divider */
    Chip_Clock_SetUARTBaseClockRate(Chip_Clock_GetMainClockRate(), false);

#else
    /* Use 128x expected UART baud rate for fractional baud mode. */
    Chip_Clock_SetUARTBaseClockRate((115200 * 128), true);
#endif

    /* Setup UART */
    Chip_UART_Init(LPC_USART);
    Chip_UART_ConfigData(LPC_USART, UART_CFG_DATALEN_8 | UART_CFG_PARITY_NONE | UART_CFG_STOPLEN_1);
    Chip_UART_SetBaud(LPC_USART, UART_TEST_DEFAULT_BAUDRATE);
    /* Optional for low clock rates only: Chip_UART_SetBaudWithRTC32K(LPC_USART, 300); */
    Chip_UART_Enable(LPC_USART);
    Chip_UART_TXEnable(LPC_USART);

    /* Before using the ring buffers, initialize them using the ring
       buffer init function */
    RingBuffer_Init(&rxring, rxbuff, 1, UART_RB_SIZE);
    RingBuffer_Init(&txring, txbuff, 1, UART_RB_SIZE);

    /* Enable receive data and line status interrupt */
    Chip_UART_IntEnable(LPC_USART, UART_INTEN_RXRDY);
    Chip_UART_IntDisable(LPC_USART, UART_INTEN_TXRDY);	/* May not be needed */

    /* Enable UART interrupt */
    NVIC_EnableIRQ(LPC_IRQNUM);

    /* Initial message sent using blocking method to prevent ring
       buffer overflow */
    Chip_UART_SendBlocking(LPC_USART, inst1, sizeof(inst1) - 1);
    Chip_UART_SendRB(LPC_USART, &txring, inst2, sizeof(inst2) - 1);

    /* Poll the receive ring buffer for the ESC (ASCII 27) key */
    key = 0;
    while (key != 27) {
        bytes = Chip_UART_ReadRB(LPC_USART, &rxring, &key, 1);
        if (bytes > 0) {
            /* Wrap value back around */
            if (Chip_UART_SendRB(LPC_USART, &txring, (const uint8_t *) &key, 1) != 1) {
                Board_LED_Toggle(0);/* Toggle LED if the TX FIFO is full */
            }
        }
    }

    /* DeInitialize UART peripheral */
    NVIC_DisableIRQ(LPC_IRQNUM);
    Chip_UART_DeInit(LPC_USART);

    return 1;
}