Ejemplos de pcl_configure_usb_clock en C++ (Cpp)

Ejemplo n.º 1

Archivo: hid_generic_example.c Proyecto: Mazetti/asf

/*! \brief Main function. Execution starts here.
 *
 * \retval 42 Fatal error.
 */
int main(void)
{
  // Configure system clocks.
  if (pcl_configure_clocks(&pcl_freq_param) != PASS)
    return 42;

  // Initialize USB clock (on PLL1)
  pcl_configure_usb_clock();

  // Initialize usart comm
  init_dbg_rs232(pcl_freq_param.pba_f);

  // Initialize USB task
  usb_task_init();

#if USB_DEVICE_FEATURE == true
  // Initialize device generic USB task
  device_generic_hid_task_init();
#endif

  // No OS here. Need to call each task in round-robin mode.
  while (true)
  {
    usb_task();
  #if USB_DEVICE_FEATURE == true
    device_generic_hid_task();
  #endif
  }

}

Ejemplo n.º 2

Archivo: enum_example.c Proyecto: ThucVD2704/femto-usb-blink-example

/*! \brief Main function. Execution starts here.
 *
 * \retval 42 Fatal error.
 */
int main(void)
{
#ifndef FREERTOS_USED
  Enable_global_exception();
  INTC_init_interrupts();
#endif
  pcl_switch_to_osc(PCL_OSC0, FOSC0, OSC0_STARTUP);
  init_dbg_rs232(FOSC0);
  pcl_configure_usb_clock();
  usb_task_init();
#if USB_DEVICE_FEATURE == true
  device_template_task_init();
#endif
#if USB_HOST_FEATURE == true
  host_template_task_init();
#endif

#ifdef FREERTOS_USED
  vTaskStartScheduler();
  portDBG_TRACE("FreeRTOS returned.");
  return 42;
#else
  while (true)
  {
    usb_task();
  #if USB_DEVICE_FEATURE == true
    device_template_task();
  #endif
  #if USB_HOST_FEATURE == true
    host_template_task();
  #endif
  }
#endif  // FREERTOS_USED
}

Ejemplo n.º 3

Archivo: hid_qtouch_debug.c Proyecto: Mazetti/asf

/*! \brief Main function. Execution starts here.
 *
 * \retval No return value.
 */
int main(void)
{
#ifdef __GNUC__
	// Initialize the INTC sw driver.
	INTC_init_interrupts();
#endif

	// Configure system clocks.
	if (pcl_configure_clocks(&pcl_freq_param) != PASS)
		while (true);

	// Initialize USB clock (on PLL1)
	pcl_configure_usb_clock();

	// Initialize USB task
	usb_task_init();

#if USB_DEVICE_FEATURE == true
	// Initialize device generic USB task
	device_generic_hid_task_init();
#endif

	// No OS here. Need to call each task in round-robin mode.
	while (true) {
		usb_task();
	#if USB_DEVICE_FEATURE == true
		device_generic_hid_task();
	#endif
	}
}

Ejemplo n.º 4

Archivo: hid_example.c Proyecto: AndreyMostovov/asf

/*! \brief Main function. Execution starts here.
 *
 * \retval 42 Fatal error.
 */
int main(void)
{
  // Configure system clocks.
  if (pcl_configure_clocks(&pcl_freq_param) != PASS)
    return 42;

  // Initialize USB clock (on PLL1)
  pcl_configure_usb_clock();

  // Initialize usart comm
  init_dbg_rs232(pcl_freq_param.pba_f);

#if BOARD == EVK1105
  Disable_global_interrupt();
  /* Register interrupt handler to the interrupt controller
   * up, down buttons on PB22, PB23 -> GPIO_IRQ_6
   */
  INTC_register_interrupt(&touch_button_isr, AVR32_GPIO_IRQ_6, 0);
  /* all gpios between PB23 - PB31) */
  INTC_register_interrupt(&touch_button_isr, AVR32_GPIO_IRQ_7, 0);
  Enable_global_interrupt();
#endif

  // Initialize USB task
  usb_task_init();

#if USB_DEVICE_FEATURE == true
  // Initialize device mouse USB task
  device_mouse_hid_task_init();
#endif
#if USB_HOST_FEATURE == true
  //host_keyboard_hid_task_init();

  // Initialize host mouse USB task
  host_mouse_hid_task_init();
#endif

#ifdef FREERTOS_USED
  // Start OS scheduler
  vTaskStartScheduler();
  portDBG_TRACE("FreeRTOS returned.");
  return 42;
#else
  // No OS here. Need to call each task in round-robin mode.
  while (true)
  {
    usb_task();
  #if USB_DEVICE_FEATURE == true
    device_mouse_hid_task();
  #endif
  #if USB_HOST_FEATURE == true
    //host_keyboard_hid_task();
    host_mouse_hid_task();
  #endif
  }
#endif  // FREERTOS_USED
}

Ejemplo n.º 5

Archivo: cdc_example.c Proyecto: InSoonPark/asf

/*! \brief Main function. Execution starts here.
 *
 * \retval 42 Fatal error.
 */
int main(void)
{
  // Configure system clocks.
  if (pcl_configure_clocks(&pcl_freq_param) != PASS)
    return 42;

  // Initialize usart comm
  init_dbg_rs232(pcl_freq_param.pba_f);

#ifndef FREERTOS_USED
# if (defined __GNUC__)
  // Give the used CPU clock frequency to Newlib, so it can work properly.
  set_cpu_hz(pcl_freq_param.pba_f);
# endif
#endif

  // Initialize USB clock.
  pcl_configure_usb_clock();

  // Initialize USB task
  usb_task_init();

  // Display a welcome banner on USART
  printf("                                                       ......       ......     \r\n");
  printf("       IIIIII  IIIII        IIII   IIIIIIIIIII      IIIIIIIIIII. .IIIIIIIIII.  \r\n");
  printf("      IIIIIII   IIIII      IIIII  IIIIIIIIIIIII     IIIIIIIIIIII..IIIIIIIIIII. \r\n");
  printf("     IIIIIIIII  IIIII     IIIII   IIIII   IIIII     I.      IIIII.:.     IIIII \r\n");
  printf("     IIII IIIII  IIIII    IIII   IIIII    IIIII            .IIII.        IIIII \r\n");
  printf("    IIIII  IIII   IIII   IIIII  IIIIIIIIIIIIII         IIIIIIII          IIII. \r\n");
  printf("    IIII   IIIII  IIIII IIIII   IIIIIIIIIIIII          IIIIIIII.       .IIII:  \r\n");
  printf("   IIIII    IIIII  IIIIIIIII   IIIIIIIIIII                 .IIIII     IIIII.   \r\n");
  printf("  IIIIIIIIIIIIIII   IIIIIIII   IIIII IIIII                  .IIII   .IIII:     \r\n");
  printf("  IIIIIIIIIIIIIIII  IIIIIII   IIIII   IIII         II:.    .IIIII .IIIII.      \r\n");
  printf(" IIIII        IIIII  IIIIII  IIIII    IIIII        IIIIIIIIIIIII.IIIIIIIIIIIIII\r\n");
  printf(" IIIII        IIIII  IIIII   IIIII    IIIII        :IIIIIIIIII.  IIIIIIIIIIIIII\r\n");
  printf("                      III                                                      \r\n");
  printf("                       II                                                      \r\n");

#if USB_DEVICE_FEATURE == true
  // Initialize device CDC USB task
  device_cdc_task_init();
#endif
#if USB_HOST_FEATURE == true
  // Initialize host CDC USB task
  host_cdc_task_init();
#endif

#ifdef FREERTOS_USED
  // Start OS scheduler
  vTaskStartScheduler();
  portDBG_TRACE("FreeRTOS returned.");
  return 42;
#else
  // No OS here. Need to call each task in round-robin mode.
  while (true)
  {
    usb_task();
  #if USB_DEVICE_FEATURE == true
    device_cdc_task();
  #endif
  #if USB_HOST_FEATURE == true
    host_cdc_task();
  #endif
  }
#endif  // FREERTOS_USED
}

Ejemplo n.º 6

Archivo: nitrokey.c Proyecto: Nitrokey/nitrokey-storage-firmware

int main (void)
{
    pcl_freq_param_t local_pcl_freq_param;

    /*
       USART_Int_Test ();

       return (0); */

    // Configure system clocks.
    local_pcl_freq_param = pcl_freq_param;

    if (pcl_configure_clocks (&local_pcl_freq_param) != PASS)
    {
        return 42;
    }

    /* Load the Exception Vector Base Address in the corresponding system register. */
    Set_system_register (AVR32_EVBA, (int) &_evba);

    /* Enable exceptions. */
    ENABLE_ALL_EXCEPTIONS ();

    /* Initialize interrupt handling. */
    INTC_init_interrupts ();

#if ((defined SD_MMC_MCI_0_MEM) && (SD_MMC_MCI_0_MEM == ENABLE)) || ((defined SD_MMC_MCI_1_MEM) && (SD_MMC_MCI_1_MEM == ENABLE))
    sd_mmc_mci_resources_init ();
#endif


#ifdef FREERTOS_USED
    if (!ctrl_access_init ())
    {
        return 42;
    }
#endif // FREERTOS_USED

    // Init Hmatrix bus
    init_hmatrix ();

    // Initialize USB clock.
    pcl_configure_usb_clock ();

    /*
       SmartCard_test (); return 42;

       Test_ALL_Pins ();

       Test_MCI_Pins ();

       Test_LEDs_Pins ();

       TestUart0 ();

       while (1); return (0); */

#ifdef TIME_MEASURING_ENABLE
    TIME_MEASURING_Init ();
#endif


    // For debugging
    BUFFERED_SIO_Init ();

#ifdef INTERPRETER_ENABLE
    IDF_task_init ();
#endif

    // Internal work task - FAT Access
    IW_task_init ();

    // Initialize USB tasks.
    usb_task_init ();




#if USB_DEVICE_FEATURE == ENABLED
#ifdef  USB_MSD
    device_mass_storage_task_init ();
#endif // USB_MSD
#endif


    // CCID_Test_task_init ();
#ifdef  USB_CCID
    USB_CCID_task_init ();
#endif

    DFU_DisableFirmwareUpdate ();   // Stick always starts in application mode

     /**/
        // Protect bootloader
#ifdef STICK_20_A_MUSTER_PROD   //
        flashc_set_bootloader_protected_size (0x2000);
//        flashc_activate_security_bit ();    // Debugging disabled, only chip erase works (bootloader is save) , AES storage keys and setup
                                        // are erased
        flashc_lock_external_privileged_fetch (TRUE);     // Disable external instruction fetch
#endif

    // DFU_FirmwareResetUserpage ();


    // Set BOD33 detection reset to 3.06 Volt
    pm_bod33_ResetDisable ();
    pm_bod33_set_level (AVR32_PM_BOD33_LEVEL_306_VOLT);
    pm_bod33_ResetEnable ();

    // ushell_task_init(pcl_freq_param.pba_f);


    // Create the semaphore
    vSemaphoreCreateBinary (AES_semphr);


    // Wait for the semaphore
    while (!xSemaphoreTake (AES_semphr, portMAX_DELAY));

    // Release the semaphore in order to start a new device/host task
    portBASE_TYPE task_woken = pdFALSE;
/*
    taskENTER_CRITICAL ();
    xSemaphoreGiveFromISR (AES_semphr, &task_woken);
    taskEXIT_CRITICAL ();
*/
    taskENTER_CRITICAL ();
    xSemaphoreGive (AES_semphr);
    taskEXIT_CRITICAL ();


    // Start stick
    vTaskStartScheduler ();

    // It never gets to this point
    return 42;
}