Aquatic-Robotic-Courier/software/ARC-FW/usb_start.c

/*
 * Code generated from Atmel Start.
 *
 * This file will be overwritten when reconfiguring your Atmel Start project.
 * Please copy examples or other code you want to keep to a separate file or main.c
 * to avoid loosing it when reconfiguring.
 */
#include "atmel_start.h"
#include "usb_start.h"
#if CONF_USBD_HS_SP
static uint8_t single_desc_bytes[] = {
    /* Device descriptors and Configuration descriptors list. */
    CDCD_ACM_HS_DESCES_LS_FS};
static uint8_t single_desc_bytes_hs[] = {
    /* Device descriptors and Configuration descriptors list. */
    CDCD_ACM_HS_DESCES_HS};
#define CDCD_ECHO_BUF_SIZ CONF_USB_CDCD_ACM_DATA_BULKIN_MAXPKSZ_HS
#else
static uint8_t single_desc_bytes[] = {
    /* Device descriptors and Configuration descriptors list. */
    CDCD_ACM_DESCES_LS_FS};
#define CDCD_ECHO_BUF_SIZ CONF_USB_CDCD_ACM_DATA_BULKIN_MAXPKSZ
#endif

static struct usbd_descriptors single_desc[]
    = {{single_desc_bytes, single_desc_bytes + sizeof(single_desc_bytes)}
#if CONF_USBD_HS_SP
       ,
       {single_desc_bytes_hs, single_desc_bytes_hs + sizeof(single_desc_bytes_hs)}
#endif
};

/** Buffers to receive and echo the communication bytes. */
static uint32_t usbd_cdc_buffer[CDCD_ECHO_BUF_SIZ / 4];

/** Ctrl endpoint buffer */
static uint8_t ctrl_buffer[64];

/**
 * \brief Callback invoked when bulk OUT data received
 */
static bool usb_device_cb_bulk_out(const uint8_t ep, const enum usb_xfer_code rc, const uint32_t count)
{
	cdcdf_acm_write((uint8_t *)usbd_cdc_buffer, count);

	/* No error. */
	return false;
}

/**
 * \brief Callback invoked when bulk IN data received
 */
static bool usb_device_cb_bulk_in(const uint8_t ep, const enum usb_xfer_code rc, const uint32_t count)
{
	/* Echo data. */
	cdcdf_acm_read((uint8_t *)usbd_cdc_buffer, sizeof(usbd_cdc_buffer));

	/* No error. */
	return false;
}

/**
 * \brief Callback invoked when Line State Change
 */
static bool usb_device_cb_state_c(usb_cdc_control_signal_t state)
{
/* 	if (state.rs232.DTR) { */
/* 		/\* Callbacks must be registered after endpoint allocation *\/ */
/* 		cdcdf_acm_register_callback(CDCDF_ACM_CB_READ, (FUNC_PTR)usb_device_cb_bulk_out); */
/* 		cdcdf_acm_register_callback(CDCDF_ACM_CB_WRITE, (FUNC_PTR)usb_device_cb_bulk_in); */
/* 		/\* Start Rx *\/ */
/* 		static uint8_t arr[64]; */
/* 		memset(arr, '\0', 64); */
/* 		memcpy(arr, "Hello World\n", sizeof("Hello World\n")); */
/* 		volatile int32_t ret = cdcdf_acm_write((uint8_t*)arr, sizeof("Hello World\n")); */
/* //		cdcdf_acm_read((uint8_t *)usbd_cdc_buffer, sizeof(usbd_cdc_buffer)); */
/* 	} */
/* 	else if(state.rs232.RTS) */
/* 	{ */
/* 		asm volatile("nop"); */
	
/* 	} */

	/* No error. */
	return false;
}

/**
 * \brief CDC ACM Init
 */
void cdc_device_acm_init(void)
{
	/* usb stack init */
	usbdc_init(ctrl_buffer);

	/* usbdc_register_funcion inside */
	cdcdf_acm_init();

	usbdc_start(single_desc);
	usbdc_attach();
}

/**
 * Example of using CDC ACM Function.
 * \note
 * In this example, we will use a PC as a USB host:
 * - Connect the DEBUG USB on XPLAINED board to PC for program download.
 * - Connect the TARGET USB on XPLAINED board to PC for running program.
 * The application will behave as a virtual COM.
 * - Open a HyperTerminal or other COM tools in PC side.
 * - Send out a character or string and it will echo the content received.
 */
void cdcd_acm_example(void)
{
	while (!cdcdf_acm_is_enabled()) {
		// wait cdc acm to be installed
	};

	cdcdf_acm_register_callback(CDCDF_ACM_CB_STATE_C, (FUNC_PTR)usb_device_cb_state_c);
}

void usb_init(void)
{

	cdc_device_acm_init();
}