/* This file has been prepared for Doxygen automatic documentation generation.*/
/*! \file cdc_task.c **********************************************************
 *
 * \brief
 *      Manages the CDC-ACM Virtual Serial Port Dataclass for the USB Device
 *
 * \addtogroup usbstick
 *
 * \author 
 *        Colin O'Flynn <coflynn@newae.com>
 *
 ******************************************************************************/
/* Copyright (c) 2008  ATMEL Corporation
   All rights reserved.

   Redistribution and use in source and binary forms, with or without
   modification, are permitted provided that the following conditions are met:

   * Redistributions of source code must retain the above copyright
     notice, this list of conditions and the following disclaimer.
   * Redistributions in binary form must reproduce the above copyright
     notice, this list of conditions and the following disclaimer in
     the documentation and/or other materials provided with the
     distribution.
   * Neither the name of the copyright holders nor the names of
     contributors may be used to endorse or promote products derived
     from this software without specific prior written permission.

  THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
  AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
  IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
  ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
  LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
  CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
  SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
  INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
  CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
  ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
  POSSIBILITY OF SUCH DAMAGE.
*/
/**
 \ingroup usbstick
 \defgroup cdctask CDC Task
 @{
 */

//_____  I N C L U D E S ___________________________________________________


#include "contiki.h"
#include "usb_drv.h"
#include "usb_descriptors.h"
#include "usb_specific_request.h"
#include "cdc_task.h"
#include "serial/uart_usb_lib.h"
#include "rndis/rndis_protocol.h"
#include "rndis/rndis_task.h"
#include "sicslow_ethernet.h"
#if RF230BB
#include "rf230bb.h"
#else
#include "radio.h"
#endif

#include <stdio.h>
#include <stdlib.h>
#include "dev/watchdog.h"
#include "rng.h"

#include "bootloader.h"

#include <avr/pgmspace.h>
#include <avr/eeprom.h>
#include <avr/wdt.h>
#include <util/delay.h>

#if JACKDAW_CONF_USE_SETTINGS
#include "settings.h"
#endif

#define BUF ((struct uip_eth_hdr *)&uip_buf[0])
#define PRINTF printf
#define PRINTF_P printf_P

//_____ M A C R O S ________________________________________________________


#define bzero(ptr,size)	memset(ptr,0,size)

//_____ D E F I N I T I O N S ______________________________________________


#define IAD_TIMEOUT_DETACH 300
#define IAD_TIMEOUT_ATTACH 600

//_____ D E C L A R A T I O N S ____________________________________________


void menu_print(void);
void menu_process(char c);

extern char usb_busy;

//! Counter for USB Serial port
extern U8    tx_counter;

//! Timers for LEDs
uint8_t led3_timer;


//! previous configuration
static uint8_t previous_uart_usb_control_line_state = 0;


static uint8_t timer = 0;
static struct etimer et;

#define CONVERTTXPOWER 1
#if CONVERTTXPOWER  //adds ~120 bytes to program flash size
const char txonesdigit[16]   PROGMEM = {'3','2','2','1','1','0','0','1','2','3','4','5','7','9','2','7'};
const char txtenthsdigit[16] PROGMEM = {'0','6','1','6','1','5','2','2','2','2','2','2','2','2','2','2'};
static void printtxpower(void) {
    uint8_t power=rf230_get_txpower()&0xf;
    char sign=(power<6?'+':'-');
    char tens=(power>14?'1':'0');
    char ones=pgm_read_byte(&txonesdigit[power]);
    char tenths=pgm_read_byte(&txtenthsdigit[power]);
    if (tens=='0') {tens=sign;sign=' ';}
    PRINTF_P(PSTR("%c%c%c.%cdBm"),sign,tens,ones,tenths);
}
#endif

PROCESS(cdc_process, "CDC serial process");

/**
 * \brief Communication Data Class (CDC) Process
 *
 *   This is the link between USB and the "good stuff". In this routine data
 *   is received and processed by CDC-ACM Class
 */
PROCESS_THREAD(cdc_process, ev, data_proc)
{
	PROCESS_BEGIN();

#if USB_CONF_RS232
	static FILE *rs232_stdout,*usb_stdout;
	rs232_stdout=stdout;
#endif

	while(1) {
	    // turn off LED's if necessary
		if (led3_timer) led3_timer--;
		else			Led3_off();
		
 		if(Is_device_enumerated()) {
			// If the configuration is different than the last time we checked...
			if((uart_usb_get_control_line_state()&1)!=previous_uart_usb_control_line_state) {
				previous_uart_usb_control_line_state = uart_usb_get_control_line_state()&1;
				static FILE* previous_stdout;
				
				if(previous_uart_usb_control_line_state&1) {
					previous_stdout = stdout;
					uart_usb_init();
					uart_usb_set_stdout();
				//	menu_print(); do this later
				} else {
					stdout = previous_stdout;
				}
#if USB_CONF_RS232
				usb_stdout=stdout;
#endif
			}

			//Flush buffer if timeout
	        if(timer >= 4 && tx_counter!=0 ){
	            timer = 0;
	            uart_usb_flush();
	        } else {
				timer++;
			}

#if USB_CONF_RS232
			stdout=usb_stdout;
#endif
			while (uart_usb_test_hit()){
  		  	   menu_process(uart_usb_getchar());   // See what they want
            }
#if USB_CONF_RS232
            if (usbstick_mode.debugOn) {
			  stdout=rs232_stdout;
			} else {
			  stdout=NULL;
			}
#endif
		}//if (Is_device_enumerated())



		if (USB_CONFIG_HAS_DEBUG_PORT(usb_configuration_nb)) {
			etimer_set(&et, CLOCK_SECOND/80);
		} else {
			etimer_set(&et, CLOCK_SECOND);
		}

		PROCESS_WAIT_EVENT_UNTIL(etimer_expired(&et));	
		
	} // while(1)

	PROCESS_END();
}

/**
 \brief Print debug menu
 */
void menu_print(void)
{
		PRINTF_P(PSTR("\n\r*********** Jackdaw Menu **********\n\r"));
		PRINTF_P(PSTR("        [Built "__DATE__"]      \n\r"));
//		PRINTF_P(PSTR("*                                 *\n\r"));
		PRINTF_P(PSTR("*  m        Print current mode    *\n\r"));
		PRINTF_P(PSTR("*  s        Set to sniffer mode   *\n\r"));
		PRINTF_P(PSTR("*  n        Set to network mode   *\n\r"));
		PRINTF_P(PSTR("*  c        Set RF channel        *\n\r"));
		PRINTF_P(PSTR("*  p        Set RF power          *\n\r"));
		PRINTF_P(PSTR("*  6        Toggle 6lowpan        *\n\r"));
		PRINTF_P(PSTR("*  r        Toggle raw mode       *\n\r"));
#if USB_CONF_RS232
		PRINTF_P(PSTR("*  d        Toggle RS232 output   *\n\r"));
#endif
#if RF230BB && RF230_CONF_SNEEZER
		PRINTF_P(PSTR("*  S        Enable sneezer mode   *\n\r"));
#endif
#if UIP_CONF_IPV6_RPL
		PRINTF_P(PSTR("*  N        RPL Neighbors         *\n\r"));
		PRINTF_P(PSTR("*  G        RPL Global Repair     *\n\r"));
#endif
		PRINTF_P(PSTR("*  e        Energy Scan           *\n\r"));
#if USB_CONF_STORAGE
		PRINTF_P(PSTR("*  u        Switch to mass-storage*\n\r"));
#endif
		if(bootloader_is_present())
		PRINTF_P(PSTR("*  D        Switch to DFU mode    *\n\r"));
		PRINTF_P(PSTR("*  R        Reset (via WDT)       *\n\r"));
		PRINTF_P(PSTR("*  h,?      Print this menu       *\n\r"));
		PRINTF_P(PSTR("*                                 *\n\r"));
		PRINTF_P(PSTR("* Make selection at any time by   *\n\r"));
		PRINTF_P(PSTR("* pressing your choice on keyboard*\n\r"));
		PRINTF_P(PSTR("***********************************\n\r"));
}

#if UIP_CONF_IPV6_RPL
static void
ipaddr_add(const uip_ipaddr_t *addr)
{
  uint16_t a;
  int8_t i, f;
  for(i = 0, f = 0; i < sizeof(uip_ipaddr_t); i += 2) {
    a = (addr->u8[i] << 8) + addr->u8[i + 1];
    if(a == 0 && f >= 0) {
      if(f++ == 0) PRINTF_P(PSTR("::"));
    } else {
      if(f > 0) {
        f = -1;
      } else if(i > 0) {
	    PRINTF_P(PSTR(":"));
      }
	  PRINTF_P(PSTR("%x"),a);
    }
  }
}
#endif

/**
 \brief Process incomming char on debug port
 */
void menu_process(char c)
{

	static enum menustate_enum            /* Defines an enumeration type    */
	{
		normal,
		channel,
        txpower
	} menustate = normal;
	
	static char channel_string[3];
	static uint8_t channel_string_i;// = 0;
	
	int tempchannel;

	if (menustate == channel) {

		switch(c) {
			case '\r':
			case '\n':		
								
				if (channel_string_i)  {
					channel_string[channel_string_i] = 0;
					tempchannel = atoi(channel_string);

#if RF230BB
					if ((tempchannel < 11) || (tempchannel > 26))  {
						PRINTF_P(PSTR("\n\rInvalid input\n\r"));
					} else {
						rf230_set_channel(tempchannel);
#else
					if(radio_set_operating_channel(tempchannel)!=RADIO_SUCCESS) {
						PRINTF_P(PSTR("\n\rInvalid input\n\r"));
					} else {
#endif
#if JACKDAW_CONF_USE_SETTINGS
						if(settings_set_uint8(SETTINGS_KEY_CHANNEL, tempchannel)==SETTINGS_STATUS_OK) {                       
                            PRINTF_P(PSTR("\n\rChannel changed to %d and stored in EEPROM.\n\r"),tempchannel);
						} else {
                            PRINTF_P(PSTR("\n\rChannel changed to %d, but unable to store in EEPROM!\n\r"),tempchannel);
                        }
#else
						PRINTF_P(PSTR("\n\rChannel changed to %d.\n\r"),tempchannel);
#endif
					}
				} else {
					PRINTF_P(PSTR("\n\rChannel unchanged.\n\r"));
				}

				menustate = normal;
				break;
		
			case '\b':
			
				if (channel_string_i) {
					channel_string_i--;
					PRINTF_P(PSTR("\b \b"));
				}
				break;
					
			case '0':
			case '1':
			case '2':
			case '3':
			case '4':
			case '5':
			case '6':
			case '7':
			case '8':
			case '9':
				if (channel_string_i > 1) {
					// This time the user has gone too far.
					// Beep at them.
					putc('\a', stdout);
					//uart_usb_putchar('\a');
					break;
				}
				putc(c, stdout);
				//uart_usb_putchar(c);
				
				channel_string[channel_string_i] = c;
				channel_string_i++;
				break;

			default:
				break;
		}
	} else if (menustate == txpower) {

		switch(c) {
			case '\r':
			case '\n':		
								
				if (channel_string_i)  {
					channel_string[channel_string_i] = 0;
					tempchannel = atoi(channel_string);
#if RF230BB
					if ((tempchannel < 0) || (tempchannel > 15))  {
						PRINTF_P(PSTR("\n\rInvalid input\n\r"));
					} else {
                    	PRINTF_P(PSTR(" ")); //for some reason needs a print here to clear the string input...
						rf230_set_txpower(tempchannel);
#else
					if(radio_set_tx_power_level(tempchannel)!=RADIO_SUCCESS) {
						PRINTF_P(PSTR("\n\rInvalid input\n\r"));
					} else {
#endif
#if JACKDAW_CONF_USE_SETTINGS
						if(settings_set_uint8(SETTINGS_KEY_TXPOWER, tempchannel)==SETTINGS_STATUS_OK) {
							PRINTF_P(PSTR("\n\rTransmit power changed to %d, and stored in EEPROM.\n\r"),tempchannel);
						} else {
							PRINTF_P(PSTR("\n\rTransmit power changed to %d, but unable to store in EEPROM!\n\r"),tempchannel);
						}
#else
						PRINTF_P(PSTR("\n\rTransmit power changed to %d.\n\r"),tempchannel);
#endif
					}
				} else {
					PRINTF_P(PSTR("\n\rTransmit power unchanged.\n\r"));
				}

				menustate = normal;
				break;
		
			case '\b':
			
				if (channel_string_i) {
					channel_string_i--;
					PRINTF_P(PSTR("\b \b"));
				}
				break;
					
			case '0':
			case '1':
			case '2':
			case '3':
			case '4':
			case '5':
			case '6':
			case '7':
			case '8':
			case '9':
				if (channel_string_i > 1) {
					// This time the user has gone too far.
					// Beep at them.
					putc('\a', stdout);
					//uart_usb_putchar('\a');
					break;
				}
				putc(c, stdout);
				//uart_usb_putchar(c);
				
				channel_string[channel_string_i] = c;
				channel_string_i++;
				break;

			default:
				break;
		}
 
	} else {

		uint8_t i;

        /* Any attempt to read an RF230 register in sneeze mode (e.g. rssi) will hang the MCU */
        /* So convert any command into a sneeze off */
        if (usbstick_mode.sneeze) c='S';

		switch(c) {
			case '\r':
			case '\n':
				break;

			case 'h':
			case '?':
				menu_print();
				break;
			case '-':
				PRINTF_P(PSTR("Bringing interface down\n\r"));
				usb_eth_set_active(0);
				break;
			case '=':
			case '+':
				PRINTF_P(PSTR("Bringing interface up\n\r"));
				usb_eth_set_active(1);
				break;
#if JACKDAW_CONF_RANDOM_MAC
			case 'T':
				// Test "strong" random number generator of R Quattlebaum
                // This can potentially reboot the stick!
				PRINTF_P(PSTR("RNG Output: "));
				{
					uint8_t value = rng_get_uint8();
					uint8_t i;
					for(i=0;i<8;i++) {
						uart_usb_putchar(((value>>(7-i))&1)?'1':'0');
					}
					PRINTF_P(PSTR("\n\r"));
					uart_usb_flush();
					watchdog_periodic();
				}
				break;
#endif
			case 's':
				PRINTF_P(PSTR("Jackdaw now in sniffer mode\n\r"));
				usbstick_mode.sendToRf = 0;
				usbstick_mode.translate = 0;
#if RF230BB
				rf230_listen_channel(rf230_get_channel());
#else		
				radio_set_trx_state(RX_ON);
#endif
				break;

#if RF230BB && RF230_CONF_SNEEZER
 			case 'S':
 				if (usbstick_mode.sneeze) {
					rf230_warm_reset();
					PRINTF_P(PSTR("Jackdaw now behaving itself.\n\r"));
					usbstick_mode.sneeze = 0;
				} else {
					if (rf230_get_txpower()<3)
						PRINTF_P(PSTR("*****WARNING Radio may overheat in this mode*******\n\r"));
					rf230_start_sneeze();
					PRINTF_P(PSTR("********Jackdaw is continuously broadcasting*******\n\r"));
#if CONVERTTXPOWER
					PRINTF_P(PSTR("*********on channel %2d with power "),rf230_get_channel());
					printtxpower();
					PRINTF_P(PSTR("*********\n\r"));
#else
					PRINTF_P(PSTR("************on channel %2d with power %2d************\n\r"),rf230_get_channel(),rf230_get_txpower());
#endif
					PRINTF_P(PSTR("Press any key to stop.\n\r"));
					watchdog_periodic();
					usbstick_mode.sneeze = 1;
				}
				break;
#endif

			case 'n':
				PRINTF_P(PSTR("Jackdaw now in network mode\n\r"));
				usbstick_mode.sendToRf = 1;
				usbstick_mode.translate = 1;
#if RF230BB
				rf230_set_channel(rf230_get_channel());
#else		
			    radio_set_trx_state(RX_AACK_ON);  //TODO: Use startup state which may be RX_ON
#endif
				break;

			case '6':
				if (usbstick_mode.sicslowpan) {
					PRINTF_P(PSTR("Jackdaw does not perform 6lowpan translation\n\r"));
					usbstick_mode.sicslowpan = 0;
				} else {
					PRINTF_P(PSTR("Jackdaw now performs 6lowpan translations\n\r"));
					usbstick_mode.sicslowpan = 1;
				}	
				
				break;

			case 'r':
				if (usbstick_mode.raw) {
					PRINTF_P(PSTR("Jackdaw does not capture raw frames\n\r"));
					usbstick_mode.raw = 0;
				} else {
					PRINTF_P(PSTR("Jackdaw now captures raw frames\n\r"));
					usbstick_mode.raw = 1;
				}	
				break;
#if USB_CONF_RS232
			case 'd':
				if (usbstick_mode.debugOn) {
					PRINTF_P(PSTR("Jackdaw does not output debug strings\n\r"));
					usbstick_mode.debugOn = 0;
				} else {
					PRINTF_P(PSTR("Jackdaw now outputs debug strings\n\r"));
					usbstick_mode.debugOn = 1;
				}	
				break;
#endif


			case 'c':
#if RF230BB
				PRINTF_P(PSTR("\nSelect 802.15.4 Channel in range 11-26 [%d]: "), rf230_get_channel());
#else
				PRINTF_P(PSTR("\nSelect 802.15.4 Channel in range 11-26 [%d]: "), radio_get_operating_channel());
#endif
				menustate = channel;
				channel_string_i = 0;
				break;

			case 'p':
#if RF230BB
				PRINTF_P(PSTR("\nSelect transmit power (0=+3dBm 15=-17.2dBm) [%d]: "), rf230_get_txpower());
#else
//				PRINTF_P(PSTR("\nSelect transmit power (0=+3dBm 15=-17.2dBm) [%d]: "), ?_power());;
#endif
				menustate = txpower;
				channel_string_i = 0;
				break;


#if UIP_CONF_IPV6_RPL
#include "rpl.h"
extern uip_ds6_nbr_t uip_ds6_nbr_cache[];
extern uip_ds6_route_t uip_ds6_routing_table[];
extern uip_ds6_netif_t uip_ds6_if;
			case 'N':
			{	uint8_t i,j;
				PRINTF_P(PSTR("\n\rAddresses [%u max]\n\r"),UIP_DS6_ADDR_NB);
				for (i=0;i<UIP_DS6_ADDR_NB;i++) {
					if (uip_ds6_if.addr_list[i].isused) {	  
						ipaddr_add(&uip_ds6_if.addr_list[i].ipaddr);
						PRINTF_P(PSTR("\n\r"));
					}
				}
				PRINTF_P(PSTR("\n\rNeighbors [%u max]\n\r"),UIP_DS6_NBR_NB);
				for(i = 0,j=1; i < UIP_DS6_NBR_NB; i++) {
					if(uip_ds6_nbr_cache[i].isused) {
						ipaddr_add(&uip_ds6_nbr_cache[i].ipaddr);
						PRINTF_P(PSTR("\n\r"));
						j=0;
					}
				}
				if (j) PRINTF_P(PSTR("  <none>"));
				PRINTF_P(PSTR("\n\rRoutes [%u max]\n\r"),UIP_DS6_ROUTE_NB);
				for(i = 0,j=1; i < UIP_DS6_ROUTE_NB; i++) {
					if(uip_ds6_routing_table[i].isused) {
						ipaddr_add(&uip_ds6_routing_table[i].ipaddr);
						PRINTF_P(PSTR("/%u (via "), uip_ds6_routing_table[i].length);
						ipaddr_add(&uip_ds6_routing_table[i].nexthop);
						if(uip_ds6_routing_table[i].state.lifetime < 600) {
							PRINTF_P(PSTR(") %lus\n\r"), uip_ds6_routing_table[i].state.lifetime);
						} else {
							PRINTF_P(PSTR(")\n\r"));
						}
						j=0;
					}
				}
				if (j) PRINTF_P(PSTR("  <none>"));
				PRINTF_P(PSTR("\n\r---------\n\r"));
				break;
			}
			
			case 'G':
				PRINTF_P(PSTR("Global repair returns %d\n\r"),rpl_repair_root(RPL_DEFAULT_INSTANCE));
				break;
            
            case 'L':
                rpl_local_repair(rpl_get_any_dag());
                 PRINTF_P(PSTR("Local repair initiated\n\r")); 
                 break;
 
            case 'Z':     //zap the routing table           
            {   uint8_t i; 
				for (i = 0; i < UIP_DS6_ROUTE_NB; i++) {
					uip_ds6_routing_table[i].isused=0;
                }
                PRINTF_P(PSTR("Routing table cleared!\n\r")); 
                break;
            }
#endif				
			
			case 'm':
				PRINTF_P(PSTR("Currently Jackdaw:\n\r  * Will "));
				if (usbstick_mode.sendToRf == 0) { PRINTF_P(PSTR("not "));}
				PRINTF_P(PSTR("send data over RF\n\r  * Will "));
				if (usbstick_mode.translate == 0) { PRINTF_P(PSTR("not "));}
				PRINTF_P(PSTR("change link-local addresses inside IP messages\n\r  * Will "));
				if (usbstick_mode.sicslowpan == 0) { PRINTF_P(PSTR("not "));}
				PRINTF_P(PSTR("decompress 6lowpan headers\n\r  * Will "));
				if (usbstick_mode.raw == 0) { PRINTF_P(PSTR("not "));}

#if USB_CONF_RS232
				PRINTF_P(PSTR("Output raw 802.15.4 frames\n\r  * Will "));
				if (usbstick_mode.debugOn == 0) { PRINTF_P(PSTR("not "));}
				PRINTF_P(PSTR("Output RS232 debug strings\n\r"));
#else
				PRINTF_P(PSTR("Output raw 802.15.4 frames\n\r"));
#endif

				PRINTF_P(PSTR("  * USB Ethernet MAC: %02x:%02x:%02x:%02x:%02x:%02x\n"),
					((uint8_t *)&usb_ethernet_addr)[0],
					((uint8_t *)&usb_ethernet_addr)[1],
					((uint8_t *)&usb_ethernet_addr)[2],
					((uint8_t *)&usb_ethernet_addr)[3],
					((uint8_t *)&usb_ethernet_addr)[4],
					((uint8_t *)&usb_ethernet_addr)[5]
				);
				extern uint64_t macLongAddr;
				PRINTF_P(PSTR("  * 802.15.4 EUI-64: %02x:%02x:%02x:%02x:%02x:%02x:%02x:%02x\n"),
					((uint8_t *)&macLongAddr)[0],
					((uint8_t *)&macLongAddr)[1],
					((uint8_t *)&macLongAddr)[2],
					((uint8_t *)&macLongAddr)[3],
					((uint8_t *)&macLongAddr)[4],
					((uint8_t *)&macLongAddr)[5],
					((uint8_t *)&macLongAddr)[6],
					((uint8_t *)&macLongAddr)[7]
				);
#if RF230BB
#if CONVERTTXPOWER
				PRINTF_P(PSTR("  * Operates on channel %d with TX power "),rf230_get_channel());
				printtxpower();
				PRINTF_P(PSTR("\n\r"));
#else  //just show the raw value          
				PRINTF_P(PSTR("  * Operates on channel %d\n\r"), rf230_get_channel());
				PRINTF_P(PSTR("  * TX Power(0=+3dBm, 15=-17.2dBm): %d\n\r"), rf230_get_txpower());
#endif
				if (rf230_smallest_rssi) {
					PRINTF_P(PSTR("  * Current/Last/Smallest RSSI: %d/%d/%ddBm\n\r"), -91+(rf230_rssi()-1), -91+(rf230_last_rssi-1),-91+(rf230_smallest_rssi-1));
					rf230_smallest_rssi=0;
				} else {
					PRINTF_P(PSTR("  * Current/Last/Smallest RSSI: %d/%d/--dBm\n\r"), -91+(rf230_rssi()-1), -91+(rf230_last_rssi-1));
				}

#else /* RF230BB */
				PRINTF_P(PSTR("  * Operates on channel %d\n\r"), radio_get_operating_channel());
				PRINTF_P(PSTR("  * TX Power Level: 0x%02X\n\r"), radio_get_tx_power_level());
				{
					PRINTF_P(PSTR("  * Current RSSI: "));
					int8_t rssi = 0;
					if(radio_get_rssi_value(&rssi)==RADIO_SUCCESS)
						PRINTF_P(PSTR("%ddB\n\r"), -91+3*(rssi-1));
					else
						PRINTF_P(PSTR("Unknown\n\r"));
				}
				
#endif /* RF230BB */

				PRINTF_P(PSTR("  * Configuration: %d, USB<->ETH is "), usb_configuration_nb);
				if (usb_eth_is_active == 0) PRINTF_P(PSTR("not "));
				PRINTF_P(PSTR("active\n\r"));

#if CONFIG_STACK_MONITOR
/* See contiki-raven-main.c for initialization of the magic numbers */
{
extern uint16_t __bss_end;
uint16_t p=(uint16_t)&__bss_end;
    do {
      if (*(uint16_t *)p != 0x4242) {
        printf_P(PSTR("  * Never-used stack > %d bytes\n\r"),p-(uint16_t)&__bss_end);
        break;
      }
      p+=100;
    } while (p<RAMEND-100);
}
#endif

				break;

			case 'e':
				PRINTF_P(PSTR("Energy Scan:\n"));
				uart_usb_flush();
				{
					uint8_t i;
					uint16_t j;
#if RF230BB
					uint8_t previous_channel = rf230_get_channel();
#else // RF230BB
					uint8_t previous_channel = radio_get_operating_channel();
#endif
					int8_t RSSI, maxRSSI[17];
					uint16_t accRSSI[17];
					
					bzero((void*)accRSSI,sizeof(accRSSI));
					bzero((void*)maxRSSI,sizeof(maxRSSI));
					
					for(j=0;j<(1<<12);j++) {
						for(i=11;i<=26;i++) {
#if RF230BB
							rf230_listen_channel(i);
#else // RF230BB
							radio_set_operating_channel(i);
#endif
							_delay_us(3*10);
#if RF230BB
							RSSI = rf230_rssi();  //multiplies rssi register by 3 for consistency with energy-detect register
#else // RF230BB
							radio_get_rssi_value(&RSSI);
							RSSI*=3;
#endif
							maxRSSI[i-11]=Max(maxRSSI[i-11],RSSI);
							accRSSI[i-11]+=RSSI;
						}
						if(j&(1<<7)) {
							Led3_on();
							if(!(j&((1<<7)-1))) {
								PRINTF_P(PSTR("."));
								uart_usb_flush();
							}
						}
						else
							Led3_off();
						watchdog_periodic();
					}
#if RF230BB
					rf230_set_channel(previous_channel);
#else // RF230BB
					radio_set_operating_channel(previous_channel);
#endif
					PRINTF_P(PSTR("\n"));
					for(i=11;i<=26;i++) {
						uint8_t activity=Min(maxRSSI[i-11],accRSSI[i-11]/(1<<7));
						PRINTF_P(PSTR(" %d: %02ddB "),i, -91+(maxRSSI[i-11]-1));
						for(;activity--;maxRSSI[i-11]--) {
							PRINTF_P(PSTR("#"));
						}
						for(;maxRSSI[i-11]>0;maxRSSI[i-11]--) {
							PRINTF_P(PSTR(":"));
						}
						PRINTF_P(PSTR("\n"));
						uart_usb_flush();
					}

				}
				PRINTF_P(PSTR("Done.\n"));
				uart_usb_flush();
				
				break;


			case 'D':
				{
					PRINTF_P(PSTR("Entering DFU Mode...\n\r"));
					uart_usb_flush();
					Leds_on();
					for(i = 0; i < 10; i++)_delay_ms(100);
					Leds_off();
					Jump_To_Bootloader();
				}
				break;
			case 'R':
				{
					PRINTF_P(PSTR("Resetting...\n\r"));
					uart_usb_flush();
					Leds_on();
					for(i = 0; i < 10; i++)_delay_ms(100);
					Usb_detach();
					for(i = 0; i < 20; i++)_delay_ms(100);
					watchdog_reboot();
				}
				break;
				
#if USB_CONF_STORAGE
			case 'u':

				//Mass storage mode
				usb_mode = mass_storage;

				//No more serial port
				stdout = NULL;
#if USB_CONF_RS232
//				usb_stdout = NULL;
#endif

				//RNDIS is over
				rndis_state = 	rndis_uninitialized;
				Leds_off();

				//Deatch USB
				Usb_detach();

				//Wait a few seconds
				for(i = 0; i < 50; i++)
                    watchdog_periodic();
					_delay_ms(100);

				//Attach USB
				Usb_attach();


				break;
#endif

			default:
				PRINTF_P(PSTR("%c is not a valid option! h for menu\n\r"), c);
				break;
		}


	}

	return;

}


/**
    @brief This will enable the VCP_TRX_END LED for a period
*/
void vcptx_end_led(void)
{
    Led3_on();
    led3_timer = 5;
}
/** @}  */