/*      mija 2008
        demo for RFM01 - RX 868MHz
                
                CPU ATMEGA8
        fcpu = 1MHz

                !! define PIN,PORT,DDR for IOpin !!

                tested with module RFM12B - TX,9600,Fdev 15kHz
*/

#include <avr/io.h>
#include <util/delay.h>
#include "RFM01.h"

//************************************************************************

#define SDI             PB3
 #define SDI_PORT       PORTB
 #define SDI_DDR        DDRB

#define SDO             PB4             // input for mega
 #define SDO_PORT       PORTB
 #define SDO_DDR        DDRB
 #define SDO_PIN        PINB

#define SCK             PB5
 #define SCK_PORT       PORTB
 #define SCK_DDR        DDRB

#define nIRQ            PD2      // input for mega
 #define nIRQ_PORT      PORTD
 #define nIRQ_DDR       DDRD
 #define nIRQ_PIN       PIND

#define nSEL            PB2
 #define nSEL_PORT      PORTB
 #define nSEL_DDR       DDRB

#define LED             PD3
 #define LED_PORT       PORTD
 #define LED_DDR        DDRD

// interni
#define SDI_H           SDI_PORT |= _BV(SDI)
#define SDI_L           SDI_PORT &= (~(_BV(SDI)))
#define SDI_INIT        SDI_DDR |= _BV(SDI)

#define FSK_H           FSK_PORT |= _BV(FSK)
#define FSK_L           FSK_PORT &= (~(_BV(FSK)))
#define FSK_INIT        FSK_DDR |= _BV(FSK)

#define SDO_INPUT       (SDO_PIN & _BV(SDO))
#define SDO_INIT        SDO_DDR &= (~(_BV(SDO)))

#define SCK_H           SCK_PORT |= _BV(SCK)
#define SCK_L           SCK_PORT &= (~(_BV(SCK)))
#define SCK_INIT        SCK_DDR |= _BV(SCK)

#define nIRQ_INPUT      (nIRQ_PIN & _BV(nIRQ))
#define nIRQ_INIT       nIRQ_DDR &= (~(_BV(nIRQ)))

#define nSEL_H          nSEL_PORT |= _BV(nSEL)
#define nSEL_L          nSEL_PORT &= (~(_BV(nSEL)))
#define nSEL_INIT       nSEL_DDR |= _BV(nSEL)

#define LED_H           LED_PORT |= _BV(LED)
#define LED_L           LED_PORT &= (~(_BV(LED)))
#define LED_INIT        LED_DDR |= _BV(LED)

#define START_FIFO      RF_WRITE_CMD(CMD_FIFO|FIFO_8|FIFO_VDI_WORD|FIFO_FF|FIFO_FE)
#define STOP_FIFO       RF_WRITE_CMD(CMD_FIFO)

//************************************************************************

uint8_t rx_buf[16];

//************************************************************************

void delay_ms(uint16_t time)
{
        while(time--) _delay_ms(1);
}

void IO_INIT(void)
{
        SDI_INIT;
        SDO_INIT;
        SCK_INIT;
        nIRQ_INIT;
        nSEL_INIT;
        FSK_INIT;
        LED_INIT;
}

void RF_INIT(void)
{
   nSEL_H;
   SDI_H;
   SCK_L;
   nIRQ_INPUT;
   SDO_INPUT;
   FSK_H;
}

uint16_t RF_WRITE_CMD(uint16_t cmd)
{
   uint8_t i;
   uint16_t temp;

   SCK_L;
   nSEL_L;
   temp=0;
   for (i=0;i<16;i++)
   {
      if (cmd & 0x8000) SDI_H;
      else SDI_L;
          SCK_H;
      cmd <<= 1;
          temp <<= 1;
          if(SDO_INPUT) temp |= 0x0001;
          SCK_L;
   }
   SCK_L;
   nSEL_H;
   return (temp);
}

void RF_WRITE_DATA(uint8_t data)
{
          while (nIRQ_INPUT);
      RF_WRITE_CMD(0xB800 + data);
}

uint8_t RF_READ_DATA(void)
{
        uint8_t i,result;

        while (nIRQ_INPUT);
        SCK_L;
        nSEL_L;
        SDI_L;
        result=0;
        for (i=0;i<24;i++)
        {
                result <<= 1;
                if (SDO_INPUT) result |= 0x01;
                SCK_H;
                SCK_L;
        }
        nSEL_H;
        return (result);
}

void RS232_INIT(void)
{       
        //set baud rate 9600 8N1 for Fosc 1MHz
        UBRRH = 0;
        UBRRL = 12;
        UCSRB = (1<<RXEN)|(1<<TXEN);    //enable RX TX  
        UCSRC = (1<<URSEL) |(3<<UCSZ0); //8N1
        UCSRA  |= _BV(U2X);
}

void put_rs232(char data)
{
        // Wait for empty transmit buffer
        while ( !( UCSRA & (1<<UDRE)) );
        // Put data into buffer, sends the data
        UDR = data;
}

int main()
{
        uint8_t i,ChkSum;
        uint8_t LED_TRG;
        uint8_t b;

        IO_INIT();
        RS232_INIT();
        RF_INIT();
        delay_ms(100);
        LED_L;
        LED_TRG=0;

        
        
        RF_WRITE_CMD(CMD_SETTING        |BAND_868 | C_12pF | BANDWIDTH_67 | SETTING_DC);
        RF_WRITE_CMD(CMD_FREQUENCY      |FREQUENCY_868);
        RF_WRITE_CMD(CMD_RATE           |RATE_9600);
        RF_WRITE_CMD(CMD_FILTER         |FILTER_AL | FILTER_S0 | DQD_4);
        RF_WRITE_CMD(CMD_AFC            |AFC_POWER_ON | AFC_RANG_8 | AFC_ST | AFC_OE | AFC_EN);
        RF_WRITE_CMD(CMD_RX);
        RF_WRITE_CMD(CMD_RX                     |VDI_CLOCK | LNA_GAIN_0 | DRSSI_103 | RX_EN);
        RF_WRITE_CMD(CMD_FIFO);

        while (1)
        {
                
                START_FIFO;
        ChkSum = 0;
        for (i=0;i<16;i++) 
                {
                        b = RF_READ_DATA();
                        rx_buf[i] = b;
                        ChkSum += b;
                }
                b = RF_READ_DATA();
                RF_READ_DATA();
                STOP_FIFO;
          
                for (i=0;i<16;i++)
                {
                        put_rs232(rx_buf[i]);
                        delay_ms(2);
                }
                if (ChkSum == b) 
                {
                        LED_TRG = ~ LED_TRG;
                        put_rs232(' ');
                        put_rs232('o');
                        put_rs232('k');
                }
                else 
                {
                        put_rs232('\n');
                        delay_ms(2);
                        put_rs232('\r');
                        delay_ms(2);
                        put_rs232('e');
                        put_rs232('r');
                        put_rs232('r');
                }
                if (LED_TRG) LED_H;
                else LED_L; 
        }
        return 0;
}