示例#1
0
int main(void) {
  cpu_init();
  uart_init();
  systick_init();
  AdsPinConfig();
  spi_init();

  init_ethernet();

  httpd_init();



  last_arp_time = last_tcp_time = 0;

  while(1) {
    //MAP_SysCtlSleep();

    task_lwip();
    task_enc();
    task_ads();

  }

  return 0;
}
示例#2
0
/**
 * Hardware setup
 * Initializes pins, clocks, etc
 */
void HAL_setup(void){/*{{{*/

    //Configure clock to run at 120MHz
    //configCPU_CLOCK_HZ = 120MHz
    //Needs to be set for FreeRTOS
    g_syshz =  MAP_SysCtlClockFreqSet((SYSCTL_XTAL_25MHZ |
                                             SYSCTL_OSC_MAIN |
                                             SYSCTL_USE_PLL |
                                             SYSCTL_CFG_VCO_480),
                                             120000000L);

    MAP_SysCtlMOSCConfigSet(SYSCTL_MOSC_HIGHFREQ);

    //Enable all GPIOs
    MAP_SysCtlPeripheralEnable(SYSCTL_PERIPH_GPIOA);
    MAP_SysCtlPeripheralEnable(SYSCTL_PERIPH_GPIOB);
    MAP_SysCtlPeripheralEnable(SYSCTL_PERIPH_GPIOC);
    MAP_SysCtlPeripheralEnable(SYSCTL_PERIPH_GPIOD);
    MAP_SysCtlPeripheralEnable(SYSCTL_PERIPH_GPIOE);
    MAP_SysCtlPeripheralEnable(SYSCTL_PERIPH_GPIOF);
    MAP_SysCtlPeripheralEnable(SYSCTL_PERIPH_GPIOG);
    MAP_SysCtlPeripheralEnable(SYSCTL_PERIPH_GPIOH);
    MAP_SysCtlPeripheralEnable(SYSCTL_PERIPH_GPIOJ);
    MAP_SysCtlPeripheralEnable(SYSCTL_PERIPH_GPIOK);
    MAP_SysCtlPeripheralEnable(SYSCTL_PERIPH_GPIOL);
    MAP_SysCtlPeripheralEnable(SYSCTL_PERIPH_GPIOM);
    MAP_SysCtlPeripheralEnable(SYSCTL_PERIPH_GPION);
    MAP_SysCtlPeripheralEnable(SYSCTL_PERIPH_GPIOP);
    MAP_SysCtlPeripheralEnable(SYSCTL_PERIPH_GPIOQ);

    init_ethernet();

    MAP_SysCtlPeripheralEnable(SYSCTL_PERIPH_UART0);

    //Configure reset pin for XBD
    MAP_GPIOPinTypeGPIOOutput(GPIO_PORTC_BASE, RESET_PIN);
    //Reset XBD
    xbd_reset(true);

    //Configure UART
    MAP_GPIOPinConfigure(GPIO_PA0_U0RX);
    MAP_GPIOPinConfigure(GPIO_PA1_U0TX);
    MAP_GPIOPinTypeUART(GPIO_PORTA_BASE, GPIO_PIN_0 | GPIO_PIN_1);
    MAP_UARTConfigSetExpClk(UART0_BASE, g_syshz, 115200,
                            (UART_CONFIG_WLEN_8 | UART_CONFIG_STOP_ONE |
                             UART_CONFIG_PAR_NONE));


//    //Configure measurement stuff
    measure_setup();

    //Configure xbd i2c comm
    i2c_comm_setup();

    //Setup watchdog
    watchdog_setup();

    //Unreset XBD
    xbd_reset(false);
}/*}}}*/
示例#3
0
void Network::Init()
{
	CleanRing();
	Reset();
//	if(LinkIsUp())
//		reprap.GetPlatform()->SetHeater(0,1.0);
//	else
//		reprap.GetPlatform()->SetHeater(0,0.0);
	if(!NETWORK) // NETWORK needs to be true to turn on the ethernet.  It is defined in Configuration.h
		return;
	init_ethernet(reprap.GetPlatform()->IPAddress(), reprap.GetPlatform()->NetMask(), reprap.GetPlatform()->GateWay());
	active = true;
}
示例#4
0
void Network::Init()
{
	if (!isEnabled)
	{
		platform->Message(HOST_MESSAGE, "Attempting to start the network when it is disabled.\n");
		return;
	}

	init_ethernet(platform->MACAddress(), hostname);

	longWait = platform->Time();
	state = NetworkInitializing;
}
/**
 * \brief Main program function. Configure the hardware, initialize lwIP
 * TCP/IP stack, and start HTTP service.
 */
int main(void)
{
	/* Initialize the SAM system. */
	system_init();
	delay_init();

	/* Setup USART module to output results */
	setup_usart_channel();

	/* Print example information. */
	puts(STRING_HEADER);

	/* Bring up the ethernet interface & initialize timer0, channel0. */
	init_ethernet();

	/* Bring up the web server. */
	httpd_init();

	/* Program main loop. */
	while (1) {
		/* Check for input packet and process it. */
		ethernet_task();
	}
}
示例#6
0
/**
 * \brief Main program function. Configure the hardware, initialize lwIP
 * TCP/IP stack, and start HTTP service.
 */
int main(void)
{
	/* Initialize the SAM system. */
	sysclk_init();
	board_init();

	/* Configure debug UART */
	configure_console();

	/* Print example information. */
	puts(STRING_HEADER);

	/* Bring up the ethernet interface & initialize timer0, channel0. */
	init_ethernet();

	/* Bring up the web server. */
	httpd_init();

	/* Program main loop. */
	while (1) {
		/* Check for input packet and process it. */
		ethernet_task();
	}
}
示例#7
0
/**
 * \brief GFX task core function.
 *
 * \param pvParameters Junk parameter.
 */
static void gfx_task(void *pvParameters)
{
	uint32_t blink = 0;

	/* Get rid of this compiler warning. */
	pvParameters = pvParameters;

	/* Enable display, backlight and print ATMEL logo. */
	ili93xx_set_cursor_position(0,0);
	ili93xx_set_foreground_color(COLOR_WHITE);
	ili93xx_draw_filled_rectangle(0, 0, ILI93XX_LCD_WIDTH, ILI93XX_LCD_HEIGHT);
	gfx_draw_bmpfile(logo_atmel_bmp);
	ili93xx_display_on();
	for (uint32_t i = AAT31XX_MIN_BACKLIGHT_LEVEL; i <= AAT31XX_MAX_BACKLIGHT_LEVEL; ++i) {
		aat31xx_set_backlight(i);
		vTaskDelay(40);
	}
	vTaskDelay(presentation_delay);

	/* Draw IP config menu. */
	ili93xx_set_foreground_color(COLOR_WHITE);
	ili93xx_draw_filled_rectangle(0, 0, ILI93XX_LCD_WIDTH, ILI93XX_LCD_HEIGHT);

#if (IP_SELECTION == IP_FIXED)
	/* Static IP button selected. */
	/* Button 1. */
	ili93xx_set_foreground_color(COLOR_BLACK);
	ili93xx_draw_rectangle(20,70,220,130);
	ili93xx_set_foreground_color(0xE4E4E4u);
	ili93xx_draw_rectangle(22,72,222,132);
	ili93xx_set_foreground_color(COLOR_LIGHTGREY);
	ili93xx_draw_filled_rectangle(21,71,221,131);
	ili93xx_set_foreground_color(COLOR_BLACK);
	ili93xx_draw_string(92, 91, (uint8_t *)"Static");

	/* Button 2. */
	ili93xx_set_foreground_color(0xE4E4E4u);
	ili93xx_draw_rectangle(20,170,220,230);
	ili93xx_set_foreground_color(COLOR_BLACK);
	ili93xx_draw_rectangle(22,172,222,232);
	ili93xx_set_foreground_color(COLOR_LIGHTGREY);
	ili93xx_draw_filled_rectangle(21,171,221,231);
	ili93xx_set_foreground_color(COLOR_BLACK);
	ili93xx_draw_string(102, 191, (uint8_t *)"DHCP");
#else
	/* DHCP IP button selected. */
	/* Button 1. */
	ili93xx_set_foreground_color(0xE4E4E4u);
	ili93xx_draw_rectangle(20,70,220,130);
	ili93xx_set_foreground_color(COLOR_BLACK);
	ili93xx_draw_rectangle(22,72,222,132);
	ili93xx_set_foreground_color(COLOR_LIGHTGREY);
	ili93xx_draw_filled_rectangle(21,71,221,131);
	ili93xx_set_foreground_color(COLOR_BLACK);
	ili93xx_draw_string(92, 91, (uint8_t *)"Static");

	/* Button 2. */
	ili93xx_set_foreground_color(COLOR_BLACK);
	ili93xx_draw_rectangle(20,170,220,230);
	ili93xx_set_foreground_color(0xE4E4E4u);
	ili93xx_draw_rectangle(22,172,222,232);
	ili93xx_set_foreground_color(COLOR_LIGHTGREY);
	ili93xx_draw_filled_rectangle(21,171,221,231);
	ili93xx_set_foreground_color(COLOR_BLACK);
	ili93xx_draw_string(102, 191, (uint8_t *)"DHCP");
#endif

	ili93xx_draw_string(22, 30, (uint8_t *)"IP Configuration");
	ili93xx_draw_string(20, 260, (uint8_t *)"Assigned IP:");
	ili93xx_draw_rectangle(20,280,220,310);

	/* Bring up the ethernet interface & initializes timer0, channel0 */
	ili93xx_draw_string(30, 290, (uint8_t *)"Please wait...");
	init_ethernet();
	app_hold = 0;

	/* Show configured IP and unlock all other waiting tasks. */
	ili93xx_set_foreground_color(COLOR_WHITE);
	ili93xx_draw_filled_rectangle(20,280,220,310);
	ili93xx_draw_filled_rectangle(0,0,240,60);
	ili93xx_set_foreground_color(COLOR_BLACK);
	ili93xx_draw_rectangle(20,280,220,310);
	ili93xx_draw_string(30, 290, (uint8_t const*)g_c_ipconfig);

	/* GFX task Loop. */
	while (1)
	{
		/* Make HTTP text to blink to show GFX task activity. */
		if (blink == 0)
		{
			ili93xx_draw_string(5, 30, (uint8_t *)"HTTP server running!");
			blink = 1;
		}
		else
		{
			ili93xx_set_foreground_color(COLOR_WHITE);
			ili93xx_draw_filled_rectangle(0,0,240,60);
			ili93xx_set_foreground_color(COLOR_BLACK);
			blink = 0;
		}

		/* Sleep to reach the expected blink rate. */
		/* Leave some CPU time for other tasks. */
		vTaskDelay(gfx_refresh_rate);
	}
}
示例#8
0
void Network::Init()
{
	RepRapNetworkSetMACAddress(reprap.GetPlatform()->MACAddress());
	init_ethernet();
}
示例#9
0
int main ( void )
{
    int_init();  // This is specific for OpenRISC, you may need to call some other routine here
                 // in order to initialise interrupt support and so on.

    // We use a serial port console to display informational messages.
    init_uart( UART1_BASE_ADDR );

    uart_print( UART1_BASE_ADDR, "This is the Ethernet example program." EOL );

    init_ethernet();

    int_add( ETH_IRQ, &eth_interrupt, NULL );

    // Use an Ethernet sniffer like Wireshark in order to see the test frame sent.
    uart_print( UART1_BASE_ADDR, "Sending the first test frame (which has invalid protocol contents)..." EOL );

    int pos = 0;

    write_broadcast_mac_addr( &eth_tx_packet[ pos ] );
    pos += MAC_ADDR_LEN;

    write_own_mac_addr( &eth_tx_packet[ pos ] );
    pos += MAC_ADDR_LEN;

    eth_tx_packet[ pos + 0 ] = 0x10;
    eth_tx_packet[ pos + 1 ] = 0x20;
    eth_tx_packet[ pos + 2 ] = 0x30;
    eth_tx_packet[ pos + 3 ] = 0x40;
    eth_tx_packet[ pos + 4 ] = 0x50;
    eth_tx_packet[ pos + 5 ] = 0x60;
    pos += 6;

    int fill_to_end = 0;

    if ( fill_to_end )
    {
        while ( pos < MAX_FRAME_LEN )
        {
            eth_tx_packet[ pos ] = (unsigned char) pos;
            ++pos;
        }
    }

    start_ethernet_send( pos );
    wait_until_frame_was_sent();

    uart_print( UART1_BASE_ADDR, "Sending the second test frame (which has invalid protocol contents)..." EOL );

    pos = 0;

    write_broadcast_mac_addr( &eth_tx_packet[ pos ] );
    pos += MAC_ADDR_LEN;

    write_own_mac_addr( &eth_tx_packet[ pos ] );
    pos += MAC_ADDR_LEN;

    eth_tx_packet[ pos + 0 ] = 0x11;
    eth_tx_packet[ pos + 1 ] = 0x22;
    eth_tx_packet[ pos + 2 ] = 0x33;
    eth_tx_packet[ pos + 3 ] = 0x44;
    eth_tx_packet[ pos + 4 ] = 0x55;
    eth_tx_packet[ pos + 5 ] = 0x66;
    pos += 6;

    start_ethernet_send( pos );
    wait_until_frame_was_sent();

    const int dump_all_register_values = 0;
    if ( dump_all_register_values )
    {
        register_read_test();
    }


    // Main infinite loop.
    //
    // Wait for incoming frames, dump their contents and reply to a single type of ARP request.
    // See the README file for an example on how to generate the right type of APR request with arping.

    for ( ; ; )
    {
        uart_print( UART1_BASE_ADDR, "Waiting for a frame to be received..." EOL );

        REG32( get_bd_ptr_addr( s_current_rx_bd_index ) ) = (unsigned long) eth_rx_packet;

        uint32_t receive_flags = ETH_RXBD_EMPTY | ETH_RXBD_IRQ;

        if ( s_current_rx_bd_index == BUFFER_DESCRIPTOR_COUNT - 1 )
            receive_flags += ETH_RXBD_WRAP;

        REG32( get_bd_status_addr( s_current_rx_bd_index ) ) = receive_flags;

        uint32_t status;

        for ( ; ; )
        {
            status = REG32( get_bd_status_addr( s_current_rx_bd_index ) );

            if ( 0 == ( status & ETH_RXBD_EMPTY ) )
            {
                uart_print( UART1_BASE_ADDR, "Frame received." EOL );
                break;
            }
        }

        if ( status & ( ETH_RXBD_OR  |
                        ETH_RXBD_IS  |
                        ETH_RXBD_DN  |
                        ETH_RXBD_TL  |
                        ETH_RXBD_SF  |
                        ETH_RXBD_CRC |
                        ETH_RXBD_LC  ) )
        {
            uart_print( UART1_BASE_ADDR, "Error receiving frame, rx status is: " );
            uart_print_hex( UART1_BASE_ADDR, status, 8 );
            uart_print( UART1_BASE_ADDR,  EOL );
        }
        else
        {
            const int eth_rx_len = ( status >> 16 );

            const int should_dump_frame_contents = 0;

            if ( should_dump_frame_contents )
            {
                uart_print( UART1_BASE_ADDR, "Received length: " );

                uart_print_int( UART1_BASE_ADDR, eth_rx_len );
                uart_print( UART1_BASE_ADDR, EOL );
                uart_print( UART1_BASE_ADDR, "Frame data: " );

                int i;
                for ( i = 0; i < eth_rx_len; i++ )
                {
                    uart_print_hex( UART1_BASE_ADDR, eth_rx_packet[i], 2 );
                    uart_print( UART1_BASE_ADDR," " );
                }

                uart_print( UART1_BASE_ADDR, EOL "End of received data." EOL );
            }

            if ( ! process_received_frame( eth_rx_len ) )
            {
                uart_print( UART1_BASE_ADDR, "The received frame has been ignored." EOL );
            }
        }

        ++s_current_rx_bd_index;

        if ( s_current_rx_bd_index == BUFFER_DESCRIPTOR_COUNT )
            s_current_rx_bd_index = TX_BD_COUNT;
    }
}