コード例 #1
0
ファイル: uartStdio.c プロジェクト: httpftpli/AM33LB_LIB
void UARTStdioInit(void) {
   /* Performing the Pin Multiplexing for UART0 instance. */
   /* RXD */
   HWREG(SOC_CONTROL_REGS + CONTROL_CONF_UART_RXD(0)) =
      (CONTROL_CONF_UART0_RXD_CONF_UART0_RXD_PUTYPESEL |
          CONTROL_CONF_UART0_RXD_CONF_UART0_RXD_RXACTIVE);

   /* TXD */
   HWREG(SOC_CONTROL_REGS + CONTROL_CONF_UART_TXD(0)) =
      CONTROL_CONF_UART0_TXD_CONF_UART0_TXD_PUTYPESEL;

    moduleEnable(MODULE_ID_UART0);
    UARTModuleReset(UART_CONSOLE_BASE);

    /* Performing FIFO configurations. */
    UartFIFOConfigure(1, 1);
    /* Performing Baud Rate settings. */
    UartBaudRateSet(115200);

    /* Switching to Configuration Mode B. */
    UARTRegConfigModeEnable(UART_CONSOLE_BASE, UART_REG_CONFIG_MODE_B);

    /* Programming the Line Characteristics. */
    UARTLineCharacConfig(UART_CONSOLE_BASE,
                         (UART_FRAME_WORD_LENGTH_8 | UART_FRAME_NUM_STB_1),
                         UART_PARITY_NONE);
    /* Disabling write access to Divisor Latches. */
    UARTDivisorLatchDisable(UART_CONSOLE_BASE);

    /* Disabling Break Control. */
    UARTBreakCtl(UART_CONSOLE_BASE, UART_BREAK_COND_DISABLE);

    /* Switching to UART16x operating mode. */
    UARTOperatingModeSelect(UART_CONSOLE_BASE, UART16x_OPER_MODE);
}
コード例 #2
0
ファイル: usb_dev_serial.c プロジェクト: OS-Project/Divers
/******************************************************************************
*																			  *
* \brief Serial initilalization routine. 									  *
*                                                                             *
* \param none.                                                                *
*                                                                             *
* \return none.                                                               *
*                                                                             *
******************************************************************************/
void SerialInit(void)
{
    unsigned int intFlags = 0;


	
	USBBufferInit((tUSBBuffer *)&g_sTxBuffer);
	USBBufferInit((tUSBBuffer *)&g_sRxBuffer);
	
	/* Configuring the system clocks for UART0 instance. */
	UART0ModuleClkConfig();

	/* Performing the Pin Multiplexing for UART0 instance. */
	UARTPinMuxSetup(0);

	/* Performing a module reset. */
	UARTModuleReset(SOC_UART_0_REGS); 
   

	/* Performing Baud Rate settings. */
    UartBaudRateSet();

   /* Switching to Configuration Mode B. */
    UARTRegConfigModeEnable(SOC_UART_0_REGS, UART_REG_CONFIG_MODE_B);

    /* Programming the Line Characteristics. */
    UARTLineCharacConfig(SOC_UART_0_REGS, 
                         (UART_FRAME_WORD_LENGTH_8 | UART_FRAME_NUM_STB_1), 
                         UART_PARITY_NONE);

    /* Disabling write access to Divisor Latches. */
    UARTDivisorLatchDisable(SOC_UART_0_REGS);

    /* Disabling Break Control. */
    UARTBreakCtl(SOC_UART_0_REGS, UART_BREAK_COND_DISABLE);

    /* Switching to UART16x operating mode. */
    UARTOperatingModeSelect(SOC_UART_0_REGS, UART16x_OPER_MODE);

	 /* Performing FIFO configurations. */
    UartFIFOConfigure();
   
	/* Preparing the 'intFlags' variable to be passed as an argument.*/
    intFlags |= (UART_INT_LINE_STAT | UART_INT_RHR_CTI);
    	    
    /* Enable the Interrupts in UART.*/
    UARTIntEnable(SOC_UART_0_REGS, intFlags);

}
コード例 #3
0
ファイル: uartEcho_edma.c プロジェクト: OS-Project/Divers
/*
** This function initializes the UART instance for use.
*/
static void UARTInitialize(void)
{
    /* Performing a module reset. */
    UARTModuleReset(UART_INSTANCE_BASE_ADD);

#ifdef UART_ENABLE_FIFO
    /* Performing FIFO configurations. */
    UartFIFOConfigure();
#else
    /* Enabling DMA Mode 1. */
    UARTDMAEnable(UART_INSTANCE_BASE_ADD, UART_DMA_MODE_1_ENABLE);
#endif

#if (defined UART_ENABLE_FIFO) && (defined DIRECT_TX_DMA_THRESH_MODE)
    /* Selecting the method of setting the Transmit DMA Threshold value. */
    UARTTxDMAThresholdControl(UART_INSTANCE_BASE_ADD, UART_TX_DMA_THRESHOLD_REG);

    /* Configuring the Transmit DMA Threshold value. */
    UARTTxDMAThresholdValConfig(UART_INSTANCE_BASE_ADD, TX_DMA_THRESHOLD);
#endif

    /* Performing Baud Rate settings. */
    UartBaudRateSet();
    
    /* Switching to Configuration Mode B. */
    UARTRegConfigModeEnable(UART_INSTANCE_BASE_ADD, UART_REG_CONFIG_MODE_B);

    /* Programming the Line Characteristics. */
    UARTLineCharacConfig(UART_INSTANCE_BASE_ADD,
                         (UART_FRAME_WORD_LENGTH_8 | UART_FRAME_NUM_STB_1), 
                         UART_PARITY_NONE);

    /* Disabling write access to Divisor Latches. */
    UARTDivisorLatchDisable(UART_INSTANCE_BASE_ADD);

    /* Disabling Break Control. */
    UARTBreakCtl(UART_INSTANCE_BASE_ADD, UART_BREAK_COND_DISABLE);

    /* Switching to UART16x operating mode. */
    UARTOperatingModeSelect(UART_INSTANCE_BASE_ADD, UART16x_OPER_MODE);
}
コード例 #4
0
ファイル: bwio.c プロジェクト: mthiffau/HeatheRTOS
/* Configure polling IO on default UART */
void 
bwio_uart_setup(void)
{
    /* Set pin mux */
    UARTPinMuxSetup(0);

    /* Reset the UART */
    UARTModuleReset(BWIO_UART);

    /* Set the BAUD rate */
    unsigned int divisorValue = 0;

    /* Computing the Divisor Value. */
    divisorValue = UARTDivisorValCompute(UART_MODULE_INPUT_CLK,
                                         BAUD_RATE_115200,
                                         UART16x_OPER_MODE,
                                         UART_MIR_OVERSAMPLING_RATE_42);

    /* Programming the Divisor Latches. */
    UARTDivisorLatchWrite(BWIO_UART, divisorValue);

    /* Switching to Configuration Mode B. */
    UARTRegConfigModeEnable(BWIO_UART, UART_REG_CONFIG_MODE_B);

    /* Programming the Line Characteristics. */
    UARTLineCharacConfig(BWIO_UART,
                         (UART_FRAME_WORD_LENGTH_8 | UART_FRAME_NUM_STB_1),
                         UART_PARITY_NONE);

    /* Disabling write access to Divisor Latches. */
    UARTDivisorLatchDisable(BWIO_UART);

    /* Disabling Break Control. */
    UARTBreakCtl(BWIO_UART, UART_BREAK_COND_DISABLE);

    /* Switching to UART16x operating mode. */
    UARTOperatingModeSelect(BWIO_UART, UART16x_OPER_MODE);

}
コード例 #5
0
ファイル: Usb_dev_serial.c プロジェクト: OS-Project/Divers
//*****************************************************************************
//
// This is the main application entry function.
//
//*****************************************************************************
int
main(void)
{
    unsigned int ulTxCount;
    unsigned int ulRxCount;
    tRectangle sRect;
    char pcBuffer[16];
    unsigned int ulFullness;
    unsigned int intFlags = 0;
    unsigned char Intstatus;
    unsigned int i;
    unsigned char *src, *dest;

    MMUConfigAndEnable();

    //
    // Not configured initially.
    //
    g_bUSBConfigured = false;

    //
    //configures arm interrupt controller to generate raster interrupt
    //
    USBInterruptEnable();

    //
    //LCD Back light setup
    //
    LCDBackLightEnable();

    //
    //UPD Pin setup
    //
    UPDNPinControl();

    //
    //Delay timer setup
    //
    DelayTimerSetup();

    //
    //Configures raster to display image
    //
    SetUpLCD();


    RasterDMAFBConfig(SOC_LCDC_0_REGS,
                      (unsigned int)(g_pucBuffer+PALETTE_OFFSET),
                      (unsigned int)(g_pucBuffer+PALETTE_OFFSET) + sizeof(g_pucBuffer) - 2 -
                      PALETTE_OFFSET, FRAME_BUFFER_0);

    RasterDMAFBConfig(SOC_LCDC_0_REGS,
                      (unsigned int)(g_pucBuffer+PALETTE_OFFSET),
                      (unsigned int)(g_pucBuffer+PALETTE_OFFSET) + sizeof(g_pucBuffer) - 2 -
                      PALETTE_OFFSET, FRAME_BUFFER_1);

    src = (unsigned char *) palette_32b;
    dest = (unsigned char *) (g_pucBuffer+PALETTE_OFFSET);

    // Copy palette info into buffer
    for( i = PALETTE_OFFSET; i < (PALETTE_SIZE+PALETTE_OFFSET); i++)
    {
        *dest++ = *src++;
    }

    GrOffScreen24BPPInit(&g_s35_480x272x24Display, g_pucBuffer, LCD_WIDTH, LCD_HEIGHT);

    // Initialize a drawing context.
    GrContextInit(&g_sContext, &g_s35_480x272x24Display);

    /* enable End of frame interrupt */
    RasterEndOfFrameIntEnable(SOC_LCDC_0_REGS);

    /* enable raster */
    RasterEnable(SOC_LCDC_0_REGS);

    //
    // Fill the top 24 rows of the screen with blue to create the banner.
    //
    sRect.sXMin = 0;
    sRect.sYMin = 0;
    sRect.sXMax = GrContextDpyWidthGet(&g_sContext) - 1;
    sRect.sYMax = 23;
    GrContextForegroundSet(&g_sContext, ClrDarkBlue);
    GrRectFill(&g_sContext, &sRect);

    //
    // Put a white box around the banner.
    //
    GrContextForegroundSet(&g_sContext, ClrWhite);
    GrRectDraw(&g_sContext, &sRect);

    //
    // Put the application name in the middle of the banner.
    //
    GrContextFontSet(&g_sContext, &g_sFontCm20);
    GrStringDrawCentered(&g_sContext, "usb-dev-serial", -1,
                         GrContextDpyWidthGet(&g_sContext) / 2, 10, 0);

    //
    // Show the various static text elements on the color STN display.
    //
    GrContextFontSet(&g_sContext, TEXT_FONT);
    GrStringDraw(&g_sContext, "Tx bytes:", -1, 8, 80, false);
    GrStringDraw(&g_sContext, "Tx buffer:", -1, 8, 105, false);
    GrStringDraw(&g_sContext, "Rx bytes:", -1, 8, 160, false);
    GrStringDraw(&g_sContext, "Rx buffer:", -1, 8, 185, false);
    DrawBufferMeter(&g_sContext, 150, 105);
    DrawBufferMeter(&g_sContext, 150, 185);

    //
    // Tell the user what we are up to.
    //
    DisplayStatus(&g_sContext, " Configuring USB... ");


    //
    //Initialize the Rx and TX Buffers
    //
    USBBufferInit((tUSBBuffer *)&g_sTxBuffer);
    USBBufferInit((tUSBBuffer *)&g_sRxBuffer);

    //
    // Pass our device information to the USB library and place the device
    // on the bus.
    //
    USBDCDCInit(0, (tUSBDCDCDevice *)&g_sCDCDevice);

    //
    // Wait for initial configuration to complete.
    //
    DisplayStatus(&g_sContext, " Waiting for host... ");

    //
    // Clear our local byte counters.
    //
    ulRxCount = 0;
    ulTxCount = 0;


    /* Configuring the system clocks for UART0 instance. */
    UART0ModuleClkConfig();

    /* Performing the Pin Multiplexing for UART0 instance. */
    UARTPinMuxSetup(0);

    /* Performing a module reset. */
    UARTModuleReset(SOC_UART_0_REGS);

    /* Performing Baud Rate settings. */
    UartBaudRateSet();

   /* Switching to Configuration Mode B. */
    UARTRegConfigModeEnable(SOC_UART_0_REGS, UART_REG_CONFIG_MODE_B);

    /* Programming the Line Characteristics. */
    UARTLineCharacConfig(SOC_UART_0_REGS,
                         (UART_FRAME_WORD_LENGTH_8 | UART_FRAME_NUM_STB_1),
                         UART_PARITY_NONE);

    /* Disabling write access to Divisor Latches. */
    UARTDivisorLatchDisable(SOC_UART_0_REGS);

    /* Disabling Break Control. */
    UARTBreakCtl(SOC_UART_0_REGS, UART_BREAK_COND_DISABLE);

    /* Switching to UART16x operating mode. */
    UARTOperatingModeSelect(SOC_UART_0_REGS, UART16x_OPER_MODE);

     /* Performing FIFO configurations. */
    UartFIFOConfigure();

    /* Preparing the 'intFlags' variable to be passed as an argument.*/
    intFlags |= (UART_INT_LINE_STAT | UART_INT_RHR_CTI);

    /* Enable the Interrupts in UART.*/
    UARTIntEnable(SOC_UART_0_REGS, intFlags);

    //
    // Main application loop.
    //
     while(1)
    {

        //
        // Have we been asked to update the status display?
        //
        if(g_ulFlags & COMMAND_STATUS_UPDATE)
        {
            //
            // Clear the command flag
            //
            Intstatus = IntDisable();
            g_ulFlags &= ~COMMAND_STATUS_UPDATE;
            IntEnable(Intstatus);
            DisplayStatus(&g_sContext, g_pcStatus);
        }

        //
        // Has there been any transmit traffic since we last checked?
        //
        if(ulTxCount != g_ulUARTTxCount)
        {
            //
            // Take a snapshot of the latest transmit count.
            //
            ulTxCount = g_ulUARTTxCount;

            //
            // Update the display of bytes transmitted by the UART.
            //
            usnprintf(pcBuffer, 16, "%d ", ulTxCount);
            GrStringDraw(&g_sContext, pcBuffer, -1, 150, 80, true);

            //
            // Update the RX buffer fullness. Remember that the buffers are
            // named relative to the USB whereas the status display is from
            // the UART's perspective. The USB's receive buffer is the UART's
            // transmit buffer.
            //
            ulFullness = ((USBBufferDataAvailable(&g_sRxBuffer) * 100) /
                          UART_BUFFER_SIZE);
            UpdateBufferMeter(&g_sContext, ulFullness, 150, 105);
        }

        //
        // Has there been any receive traffic since we last checked?
        //
        if(ulRxCount != g_ulUARTRxCount)
        {
            //
            // Take a snapshot of the latest receive count.
            //
            ulRxCount = g_ulUARTRxCount;

            //
            // Update the display of bytes received by the UART.
            //
            usnprintf(pcBuffer, 16, "%d ", ulRxCount);
            GrStringDraw(&g_sContext, pcBuffer, -1, 150, 160, true);

            //
            // Update the TX buffer fullness. Remember that the buffers are
            // named relative to the USB whereas the status display is from
            // the UART's perspective. The USB's transmit buffer is the UART's
            // receive buffer.
            //
            ulFullness = ((USBBufferDataAvailable(&g_sTxBuffer) * 100) /
                          UART_BUFFER_SIZE);
            UpdateBufferMeter(&g_sContext, ulFullness, 150, 185);
        }
    }
}
コード例 #6
0
/******************************************************************************
**              FUNCTION DEFINITIONS
******************************************************************************/
int main()
{
    unsigned int numByteChunks = 0;
    unsigned int remainBytes = 0;
    unsigned int bIndex = 0;

    /* Configuring the system clocks for UART0 instance. */
    UART0ModuleClkConfig();

    /* Performing the Pin Multiplexing for UART0 instance. */
    UARTPinMuxSetup(0);

    /* Performing a module reset. */
    UARTModuleReset(SOC_UART_0_REGS);

    /* Performing FIFO configurations. */
    UartFIFOConfigure();

    /* Performing Baud Rate settings. */
    UartBaudRateSet();

    /* Switching to Configuration Mode B. */
    UARTRegConfigModeEnable(SOC_UART_0_REGS, UART_REG_CONFIG_MODE_B);

    /* Programming the Line Characteristics. */
    UARTLineCharacConfig(SOC_UART_0_REGS, (UART_FRAME_WORD_LENGTH_8 | UART_FRAME_NUM_STB_1), UART_PARITY_NONE);

    /* Disabling write access to Divisor Latches. */
    UARTDivisorLatchDisable(SOC_UART_0_REGS);

    /* Disabling Break Control. */
    UARTBreakCtl(SOC_UART_0_REGS, UART_BREAK_COND_DISABLE);

    /* Switching to UART16x operating mode. */
    UARTOperatingModeSelect(SOC_UART_0_REGS, UART16x_OPER_MODE);

    /* Select the console type based on compile time check */
    ConsoleUtilsSetType(CONSOLE_UART);

    /* Performing Interrupt configurations. */
    UartInterruptEnable();

    numByteChunks = (sizeof(txArray) - 1) / NUM_TX_BYTES_PER_TRANS;
    remainBytes = (sizeof(txArray) - 1) % NUM_TX_BYTES_PER_TRANS;

    while(1)
    {
        /* This branch is entered if the transmission is not yet complete. */
        if(TRUE == txEmptyFlag)
        {
            if(bIndex < numByteChunks)
            {
                /* Transmitting bytes in chunks of NUM_TX_BYTES_PER_TRANS. */
                currNumTxBytes += UARTFIFOWrite(SOC_UART_0_REGS,&txArray[currNumTxBytes],NUM_TX_BYTES_PER_TRANS);
                bIndex++;
            }

            else
            {
                /* Transmitting remaining data from the data block. */
                currNumTxBytes += UARTFIFOWrite(SOC_UART_0_REGS,&txArray[currNumTxBytes],remainBytes);
            }

            txEmptyFlag = FALSE;

            /*
            ** Re-enables the Transmit Interrupt. This interrupt
            ** was disabled in the Transmit section of the UART ISR.
            */
            UARTIntEnable(SOC_UART_0_REGS, UART_INT_THR);
        }
    }



}
コード例 #7
0
ファイル: irqPreemption.c プロジェクト: OS-Project/Divers
/*
** The main function
*/
int main()
{
    unsigned int divisorValue = 0;

    /* Configuring the system clocks for UART0 instance. */
    UART0ModuleClkConfig();

    /* Initializing the ARM Interrupt Controller. */
    IntAINTCInit();

    /* Performing the Pin Multiplexing for UART0 instance. */
    UARTPinMuxSetup(0);

    /* Performing a module reset. */
    UARTModuleReset(UART_INST_BASE);

    UARTFIFOConfig(UART_INST_BASE,
                   UART_FIFO_CONFIG(UART_TRIG_LVL_GRANULARITY_1,
                                    UART_TRIG_LVL_GRANULARITY_1,
                                    1, 1, 1, 1, UART_DMA_EN_PATH_SCR,
                                     UART_DMA_MODE_0_ENABLE));


   /* Computing the Divisor Value. */
    divisorValue = UARTDivisorValCompute(UART_MODULE_INPUT_CLK,
                                         BAUD_RATE_115200,
                                         UART16x_OPER_MODE,
                                         UART_MIR_OVERSAMPLING_RATE_42);

    /* Programming the Divisor Latches. */
    UARTDivisorLatchWrite(UART_INST_BASE, divisorValue);

    /* Switching to Configuration Mode B. */
    UARTRegConfigModeEnable(UART_INST_BASE, UART_REG_CONFIG_MODE_B);

    /* Programming the Line Characteristics. */
    UARTLineCharacConfig(UART_INST_BASE,
                         (UART_FRAME_WORD_LENGTH_8 | UART_FRAME_NUM_STB_1),
                         UART_PARITY_NONE);

    /* Disabe write access to Divisor Latches. */
    UARTDivisorLatchDisable(UART_INST_BASE);

    /* Disable Break Control. */
    UARTBreakCtl(UART_INST_BASE, UART_BREAK_COND_DISABLE);

    /* Switch to UART16x operating mode. */
    UARTOperatingModeSelect(UART_INST_BASE, UART16x_OPER_MODE);
    UARTIntEnable(UART_INST_BASE, (UART_INT_LINE_STAT | UART_INT_THR |
                                    UART_INT_RHR_CTI));


    /* Register the Interrupt Service Routines */
    IntRegister(RTC_INT_NUM, RTCIsr);
    IntRegister(UART_INT_NUM, UARTIsr);
    IntRegister(TIMER_INT_NUM, DMTimerIsr);

    /*
    ** Setting the priority for the system interrupt in AINTC.
    ** Timer interrupt is given highest priority - 1
    ** RTC interrupt is given medium priority - 2
    ** UART interrupt is given lowest priority - 4
    */
    IntPrioritySet(TIMER_INT_NUM, IRQ_PRIORITY_TIMER, AINTC_HOSTINT_ROUTE_IRQ);
    IntPrioritySet(RTC_INT_NUM, IRQ_PRIORITY_RTC, AINTC_HOSTINT_ROUTE_IRQ);
    IntPrioritySet(UART_INT_NUM, IRQ_PRIORITY_UART, AINTC_HOSTINT_ROUTE_IRQ);

    /* Enabling the system interrupt in AINTC for UART */
    IntSystemEnable(UART_INT_NUM);

    IntMasterIRQEnable();

    while(1);
}