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main.c
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/*
* SIMPLE CC1101 PACKET RADIO
*
* receives-transmits data over serial port by FT232 converter
* connected to PINS 2 & 3 of ATMEGA
* and uses C1101 to send this data over radio frequency
* based on RFBOOT code by Panagiotis Karagiannis
* from https://github.com/pkarsy/rfboot
* who done great job converting to pure AVR-GCC
* the PANSTAMP library which is the core of this project
*
* (c) Adam Loboda 2018
*
*/
#include <avr/io.h>
#include <avr/boot.h>
#include <inttypes.h>
#include <stdbool.h>
#include <avr/interrupt.h>
#include <avr/pgmspace.h>
#include <string.h>
#include <avr/wdt.h>
#include <util/atomic.h>
#include <util/crc16.h>
#include <inttypes.h>
#define F_CPU 8000000UL
// for serial port communication lowest error rates for 8MHZ CPU clock are 38400, 9600, 2400..
#define BAUDRATE 9600 //The baudrate that we want to use
#define BAUD_PRESCALLER (((F_CPU / (BAUDRATE * 16UL))) - 1) //The formula that does all the required maths
#define LED _BV(PC5) // = (1 << PC5)
#define LED_PORT PORTC
/**
* SPI pins
*/
#define SPI_SS B,2 // PB2 = SPI_SS
#define SPI_MOSI B,3 // PB3 = MOSI
#define SPI_MISO B,4 // PB4 = MISO
#define SPI_SCK B,5 // PB5 = SCK
#define GDO0 D,2 // PD2 = INT0
#define PORT_SPI_MISO PINB
#define BIT_SPI_MISO 4
#define PORT_SPI_SS PORTB
#define BIT_SPI_SS 2
#define PORT_GDO0 PIND
#define BIT_GDO0 2
/**
* Buffer and data lengths
*/
#define CC1101_BUFFER_LEN 64
#define CC1101_DATA_LEN CC1101_BUFFER_LEN - 3
// UART ring buffer
#define BUFFER_SIZE 64
// buffer for RX CC data to further send over serial port
static volatile uint8_t ccreceivebuffer[CC1101_BUFFER_LEN] = "12345678901234567890123456789012345678901234567890123456789012345678901234567890123\x00";
// buffer for RX UART data to further send over CC1101
static volatile uint8_t uartreceivebuffer[BUFFER_SIZE] = "12345678901234567890123456789012345678901234567890123456789012345678901234567890123\x00";
// buffer to send something over CC or serial
static volatile uint8_t tosend[BUFFER_SIZE] = "12345678901234567890123456789012345678901234567890123456789012345678901234567890123\x00";
// a flag that a wireless packet has been received
static volatile uint8_t data_ready = 0;
// flag for reception/tranmission identification
static volatile uint8_t data_reception = 0;
// flag for UART reception identification
static volatile uint8_t uartdatareceived = 0;
// pointer to UART reception buffer
static volatile uint8_t uartreceivebufferpos = 0;
// pointer to CC reception buffer
static volatile uint8_t ccreceivebufferpos = 0;
/**
* Class: CCPACKET
*
* Description:
* CC1101 data packet class
*/
typedef struct
{
//public:
/**
* Data length
*/
uint8_t length;
/**
* Data buffer
*/
uint8_t data[CC1101_DATA_LEN];
/**
* CRC OK flag
*/
uint8_t crc_ok;
/**
* Received Strength Signal Indication
*/
uint8_t rssi;
/**
* Link Quality Index
*/
uint8_t lqi;
} CCPACKET;
/**
* Carrier frequencies
*/
enum CFREQ
{
CFREQ_868 = 0,
CFREQ_915,
CFREQ_433,
CFREQ_LAST
};
/**
* RF STATES
*/
enum RFSTATE
{
RFSTATE_IDLE = 0,
RFSTATE_RX,
RFSTATE_TX
};
/**
* Frequency channels
*/
#define NUMBER_OF_FCHANNELS 10
/**
* Type of transfers
*/
#define WRITE_BURST 0x40
#define READ_SINGLE 0x80
#define READ_BURST 0xC0
/**
* Type of register
*/
#define CC1101_CONFIG_REGISTER READ_SINGLE
#define CC1101_STATUS_REGISTER READ_BURST
/**
* PATABLE & FIFO's
*/
#define CC1101_PATABLE 0x3E // PATABLE address
#define CC1101_TXFIFO 0x3F // TX FIFO address
#define CC1101_RXFIFO 0x3F // RX FIFO address
/**
* Command strobes
*/
#define CC1101_SRES 0x30 // Reset CC1101 chip
#define CC1101_SFSTXON 0x31 // Enable and calibrate frequency synthesizer (if MCSM0.FS_AUTOCAL=1). If in RX (with CCA):
// Go to a wait state where only the synthesizer is running (for quick RX / TX turnaround).
#define CC1101_SXOFF 0x32 // Turn off crystal oscillator
#define CC1101_SCAL 0x33 // Calibrate frequency synthesizer and turn it off. SCAL can be strobed from IDLE mode without
// setting manual calibration mode (MCSM0.FS_AUTOCAL=0)
#define CC1101_SRX 0x34 // Enable RX. Perform calibration first if coming from IDLE and MCSM0.FS_AUTOCAL=1
#define CC1101_STX 0x35 // In IDLE state: Enable TX. Perform calibration first if MCSM0.FS_AUTOCAL=1.
// If in RX state and CCA is enabled: Only go to TX if channel is clear
#define CC1101_SIDLE 0x36 // Exit RX / TX, turn off frequency synthesizer and exit Wake-On-Radio mode if applicable
#define CC1101_SWOR 0x38 // Start automatic RX polling sequence (Wake-on-Radio) as described in Section 19.5 if
// WORCTRL.RC_PD=0
#define CC1101_SPWD 0x39 // Enter power down mode when CSn goes high
#define CC1101_SFRX 0x3A // Flush the RX FIFO buffer. Only issue SFRX in IDLE or RXFIFO_OVERFLOW states
#define CC1101_SFTX 0x3B // Flush the TX FIFO buffer. Only issue SFTX in IDLE or TXFIFO_UNDERFLOW states
#define CC1101_SWORRST 0x3C // Reset real time clock to Event1 value
#define CC1101_SNOP 0x3D // No operation. May be used to get access to the chip status uint8_t
/**
* CC1101 configuration registers
*/
#define CC1101_IOCFG2 0x00 // GDO2 Output Pin Configuration
#define CC1101_IOCFG1 0x01 // GDO1 Output Pin Configuration
#define CC1101_IOCFG0 0x02 // GDO0 Output Pin Configuration
#define CC1101_FIFOTHR 0x03 // RX FIFO and TX FIFO Thresholds
#define CC1101_SYNC1 0x04 // Sync Word, High uint8_t
#define CC1101_SYNC0 0x05 // Sync Word, Low uint8_t
#define CC1101_PKTLEN 0x06 // Packet Length
#define CC1101_PKTCTRL1 0x07 // Packet Automation Control
#define CC1101_PKTCTRL0 0x08 // Packet Automation Control
#define CC1101_ADDR 0x09 // Device Address
#define CC1101_CHANNR 0x0A // Channel Number
#define CC1101_FSCTRL1 0x0B // Frequency Synthesizer Control
#define CC1101_FSCTRL0 0x0C // Frequency Synthesizer Control
#define CC1101_FREQ2 0x0D // Frequency Control Word, High uint8_t
#define CC1101_FREQ1 0x0E // Frequency Control Word, Middle uint8_t
#define CC1101_FREQ0 0x0F // Frequency Control Word, Low uint8_t
#define CC1101_MDMCFG4 0x10 // Modem Configuration
#define CC1101_MDMCFG3 0x11 // Modem Configuration
#define CC1101_MDMCFG2 0x12 // Modem Configuration
#define CC1101_MDMCFG1 0x13 // Modem Configuration
#define CC1101_MDMCFG0 0x14 // Modem Configuration
#define CC1101_DEVIATN 0x15 // Modem Deviation Setting
#define CC1101_MCSM2 0x16 // Main Radio Control State Machine Configuration
#define CC1101_MCSM1 0x17 // Main Radio Control State Machine Configuration
#define CC1101_MCSM0 0x18 // Main Radio Control State Machine Configuration
#define CC1101_FOCCFG 0x19 // Frequency Offset Compensation Configuration
#define CC1101_BSCFG 0x1A // Bit Synchronization Configuration
#define CC1101_AGCCTRL2 0x1B // AGC Control
#define CC1101_AGCCTRL1 0x1C // AGC Control
#define CC1101_AGCCTRL0 0x1D // AGC Control
#define CC1101_WOREVT1 0x1E // High uint8_t Event0 Timeout
#define CC1101_WOREVT0 0x1F // Low uint8_t Event0 Timeout
#define CC1101_WORCTRL 0x20 // Wake On Radio Control
#define CC1101_FREND1 0x21 // Front End RX Configuration
#define CC1101_FREND0 0x22 // Front End TX Configuration
#define CC1101_FSCAL3 0x23 // Frequency Synthesizer Calibration
#define CC1101_FSCAL2 0x24 // Frequency Synthesizer Calibration
#define CC1101_FSCAL1 0x25 // Frequency Synthesizer Calibration
#define CC1101_FSCAL0 0x26 // Frequency Synthesizer Calibration
#define CC1101_RCCTRL1 0x27 // RC Oscillator Configuration
#define CC1101_RCCTRL0 0x28 // RC Oscillator Configuration
#define CC1101_FSTEST 0x29 // Frequency Synthesizer Calibration Control
#define CC1101_PTEST 0x2A // Production Test
#define CC1101_AGCTEST 0x2B // AGC Test
#define CC1101_TEST2 0x2C // Various Test Settings
#define CC1101_TEST1 0x2D // Various Test Settings
#define CC1101_TEST0 0x2E // Various Test Settings
/**
* Status registers
*/
#define CC1101_PARTNUM 0x30 // Chip ID
#define CC1101_VERSION 0x31 // Chip ID
#define CC1101_FREQEST 0x32 // Frequency Offset Estimate from Demodulator
#define CC1101_LQI 0x33 // Demodulator Estimate for Link Quality
#define CC1101_RSSI 0x34 // Received Signal Strength Indication
#define CC1101_MARCSTATE 0x35 // Main Radio Control State Machine State
#define CC1101_WORTIME1 0x36 // High uint8_t of WOR Time
#define CC1101_WORTIME0 0x37 // Low uint8_t of WOR Time
#define CC1101_PKTSTATUS 0x38 // Current GDOx Status and Packet Status
#define CC1101_VCO_VC_DAC 0x39 // Current Setting from PLL Calibration Module
#define CC1101_TXBYTES 0x3A // Underflow and Number of uint8_ts
#define CC1101_RXBYTES 0x3B // Overflow and Number of uint8_ts
#define CC1101_RCCTRL1_STATUS 0x3C // Last RC Oscillator Calibration Result
#define CC1101_RCCTRL0_STATUS 0x3D // Last RC Oscillator Calibration Result
/**
* CC1101 configuration registers - Default values extracted from SmartRF Studio
*
* Configuration:
*
* Deviation = 20.629883
* Base frequency = 867.999939
* Carrier frequency = 867.999939
* Channel number = 0
* Carrier frequency = 867.999939
* Modulated = true
* Modulation format = GFSK
* Manchester enable = false
* Data whitening = off
* Sync word qualifier mode = 30/32 sync word bits detected
* Preamble count = 4
* Channel spacing = 199.951172
* Carrier frequency = 867.999939
* Data rate = 38.3835 Kbps
* RX filter BW = 101.562500
* Data format = Normal mode
* Length config = Variable packet length mode. Packet length configured by the first uint8_t after sync word
* CRC enable = true
* Packet length = 255
* Device address = 1
* Address config = Enable address check
* Append status = Append two status uint8_ts to the payload of the packet. The status uint8_ts contain RSSI and
* LQI values, as well as CRC OK
* CRC autoflush = false
* PA ramping = false
* TX power = 12
* GDO0 mode = Asserts when sync word has been sent / received, and de-asserts at the end of the packet.
* In RX, the pin will also de-assert when a packet is discarded due to address or maximum length filtering
* or when the radio enters RXFIFO_OVERFLOW state. In TX the pin will de-assert if the TX FIFO underflows
* Settings optimized for low current consumption
*/
//#define CC1101_DEFVAL_IOCFG2 0x29 // GDO2 Output Pin Configuration
#define CC1101_DEFVAL_IOCFG2 0x2E // GDO2 Output Pin Configuration
#define CC1101_DEFVAL_IOCFG1 0x2E // GDO1 Output Pin Configuration
#define CC1101_DEFVAL_IOCFG0 0x06 // GDO0 Output Pin Configuration
#define CC1101_DEFVAL_FIFOTHR 0x07 // RX FIFO and TX FIFO Thresholds
#define CC1101_DEFVAL_SYNC1 0xB5 // Synchronization word, high uint8_t
#define CC1101_DEFVAL_SYNC0 0x47 // Synchronization word, low uint8_t
#define CC1101_DEFVAL_PKTLEN 0x3D // Packet Length
#define CC1101_DEFVAL_PKTCTRL1 0x06 // Packet Automation Control
#define CC1101_DEFVAL_PKTCTRL0 0x05 // Packet Automation Control
#define CC1101_DEFVAL_ADDR 0xFF // Device Address
#define CC1101_DEFVAL_CHANNR 0x00 // Channel Number
#define CC1101_DEFVAL_FSCTRL1 0x08 // Frequency Synthesizer Control
#define CC1101_DEFVAL_FSCTRL0 0x00 // Frequency Synthesizer Control
// Carrier frequency = 868 MHz
#define CC1101_DEFVAL_FREQ2_868 0x21 // Frequency Control Word, High uint8_t
#define CC1101_DEFVAL_FREQ1_868 0x62 // Frequency Control Word, Middle uint8_t
#define CC1101_DEFVAL_FREQ0_868 0x76 // Frequency Control Word, Low uint8_t
// Carrier frequency = 902 MHz
#define CC1101_DEFVAL_FREQ2_915 0x22 // Frequency Control Word, High uint8_t
#define CC1101_DEFVAL_FREQ1_915 0xB1 // Frequency Control Word, Middle uint8_t
#define CC1101_DEFVAL_FREQ0_915 0x3B // Frequency Control Word, Low uint8_t
// Carrier frequency = 433 MHz
#define CC1101_DEFVAL_FREQ2_433 0x10 // Frequency Control Word, High uint8_t
#define CC1101_DEFVAL_FREQ1_433 0xA7 // Frequency Control Word, Middle uint8_t
#define CC1101_DEFVAL_FREQ0_433 0x62 // Frequency Control Word, Low uint8_t
#define CC1101_DEFVAL_MDMCFG4 0xCA // Modem Configuration
#define CC1101_DEFVAL_MDMCFG3 0x83 // Modem Configuration
#define CC1101_DEFVAL_MDMCFG2 0x93 // Modem Configuration
#define CC1101_DEFVAL_MDMCFG1 0x22 // Modem Configuration
#define CC1101_DEFVAL_MDMCFG0 0xF8 // Modem Configuration
#define CC1101_DEFVAL_DEVIATN 0x35 // Modem Deviation Setting
#define CC1101_DEFVAL_MCSM2 0x07 // Main Radio Control State Machine Configuration
//#define CC1101_DEFVAL_MCSM1 0x30 // Main Radio Control State Machine Configuration
#define CC1101_DEFVAL_MCSM1 0x20 // Main Radio Control State Machine Configuration
#define CC1101_DEFVAL_MCSM0 0x18 // Main Radio Control State Machine Configuration
#define CC1101_DEFVAL_FOCCFG 0x16 // Frequency Offset Compensation Configuration
#define CC1101_DEFVAL_BSCFG 0x6C // Bit Synchronization Configuration
#define CC1101_DEFVAL_AGCCTRL2 0x43 // AGC Control
#define CC1101_DEFVAL_AGCCTRL1 0x40 // AGC Control
#define CC1101_DEFVAL_AGCCTRL0 0x91 // AGC Control
#define CC1101_DEFVAL_WOREVT1 0x87 // High uint8_t Event0 Timeout
#define CC1101_DEFVAL_WOREVT0 0x6B // Low uint8_t Event0 Timeout
#define CC1101_DEFVAL_WORCTRL 0xFB // Wake On Radio Control
#define CC1101_DEFVAL_FREND1 0x56 // Front End RX Configuration
#define CC1101_DEFVAL_FREND0 0x10 // Front End TX Configuration
#define CC1101_DEFVAL_FSCAL3 0xE9 // Frequency Synthesizer Calibration
#define CC1101_DEFVAL_FSCAL2 0x2A // Frequency Synthesizer Calibration
#define CC1101_DEFVAL_FSCAL1 0x00 // Frequency Synthesizer Calibration
#define CC1101_DEFVAL_FSCAL0 0x1F // Frequency Synthesizer Calibration
#define CC1101_DEFVAL_RCCTRL1 0x41 // RC Oscillator Configuration
#define CC1101_DEFVAL_RCCTRL0 0x00 // RC Oscillator Configuration
#define CC1101_DEFVAL_FSTEST 0x59 // Frequency Synthesizer Calibration Control
#define CC1101_DEFVAL_PTEST 0x7F // Production Test
#define CC1101_DEFVAL_AGCTEST 0x3F // AGC Test
#define CC1101_DEFVAL_TEST2 0x81 // Various Test Settings
#define CC1101_DEFVAL_TEST1 0x35 // Various Test Settings
#define CC1101_DEFVAL_TEST0 0x09 // Various Test Settings
/**
* Macros
*/
// Read CC1101 Config register
#define readConfigReg(regAddr) cc1101_readReg(regAddr, CC1101_CONFIG_REGISTER)
// Read CC1101 Status register
#define readStatusReg(regAddr) cc1101_readReg(regAddr, CC1101_STATUS_REGISTER)
// Enter Rx state
#define setRxState() cc1101_cmdStrobe(CC1101_SRX)
// Enter Tx state
#define setTxState() cc1101_cmdStrobe(CC1101_STX)
// Enter IDLE state
#define setIdleState() cc1101_cmdStrobe(CC1101_SIDLE)
// Flush Rx FIFO
#define flushRxFifo() cc1101_cmdStrobe(CC1101_SFRX)
// Flush Tx FIFO
#define flushTxFifo() cc1101_cmdStrobe(CC1101_SFTX)
// Disable address check
#define disableAddressCheck() cc1101_writeReg(CC1101_PKTCTRL1, 0x04)
// Enable address check
#define enableAddressCheck() cc1101_writeReg(CC1101_PKTCTRL1, 0x06)
// Disable CCA
#define disableCCA() cc1101_writeReg(CC1101_MCSM1, 0)
// Enable CCA
#define enableCCA() cc1101_writeReg(CC1101_MCSM1, CC1101_DEFVAL_MCSM1)
// Set PATABLE single uint8_t
// #define setTxPowerAmp(setting) cc1101_paTableuint8_t = setting
// PATABLE values
#define PA_LowPower 0x60
#define PA_LongDistance 0xC0
// ***********************************
// ******* SPI SPECIFIC ROUTINES
// ***********************************
/**
* init
*
* SPI initialization
*/
void spi_init()
{
//digitalWrite(SPI_SS, HIGH);
// SPI_SS = PORTB2
PORTB |= _BV(2);
// Configure SPI pins
//pinMode(SPI_SS, OUTPUT);
//pinMode(SPI_MOSI, OUTPUT);
//pinMode(SPI_MISO, INPUT);
//pinMode(SPI_SCK, OUTPUT);
// SPI_SS = PORTB2, SPI_MOSI = PORTB3
// SPI_MISO = PORTB4, SPI_SCK = PORTB5
DDRB |= _BV(2);
DDRB |= _BV(3);
DDRB &= ~_BV(4);
DDRB |= _BV(5);
//digitalWrite(SPI_SCK, HIGH);
//digitalWrite(SPI_MOSI, LOW);
PORTB |= _BV(5);
PORTB &= ~_BV(3);
// SPI speed = clk/4
SPCR = _BV(SPE) | _BV(MSTR);
}
/**
* send
*
* Send uint8_t via SPI
*
* 'value' Value to be sent
*
* Return:
* Response received from SPI slave
*/
uint8_t spi_send(uint8_t value)
{
SPDR = value; // Transfer uint8_t via SPI
wait_Spi(); // Wait until SPI operation is terminated
return SPDR;
}
/*
* Wait until SPI operation is terminated
*/
void wait_Spi(void)
{
while(!(SPSR & _BV(SPIF)));
};
// ********************************************************************
// ******* CC1101 CHIP LOW LEVEL COMMUNICATION ROUTINES
// ********************************************************************
/**
* select CC1101 by LOW SS signal
*/
void cc1101_Select(void)
{
PORTB &= ~_BV(2);
};
/**
* deselect CC1101 by HIGH SS signal
*/
void cc1101_Deselect(void)
{
PORTB |= _BV(2);
};
/**
* Wait until GDO0 line goes high
*/
void wait_GDO0_high(void)
{
while(!((PIND >> 2) & 1));
};
/**
* Wait until GDO0 line goes low
*/
void wait_GDO0_low(void)
{
while ((PIND >> 2) & 1);
};
/*
Wait until SPI MISO line goes low
*/
void wait_Miso(void)
{
while(( PINB >> 4) & 1);
};
/**
* cc1101_wakeUp
*
* Wake up CC1101 from Power Down state
*/
void cc1101_wakeUp(void)
{
cc1101_Select(); // Select CC1101
wait_Miso(); // Wait until MISO goes low
cc1101_Deselect(); // Deselect CC1101
}
/**
* cc1101_writeReg
*
* Write single register into the CC1101 IC via SPI
*
* 'regAddr' Register address
* 'value' Value to be writen
*/
void cc1101_writeReg(uint8_t regAddr, uint8_t value)
{
cc1101_Select(); // Select CC1101
wait_Miso(); // Wait until MISO goes low
spi_send(regAddr); // Send register address
spi_send(value); // Send value
cc1101_Deselect(); // Deselect CC1101
}
/**
* cc1101_writeBurstReg
*
* Write multiple registers into the CC1101 IC via SPI
*
* 'regAddr' Register address
* 'buffer' Data to be writen
* 'len' Data length
*/
void cc1101_writeBurstReg(uint8_t regAddr, uint8_t* buffer, uint8_t len)
{
uint8_t addr, i;
addr = regAddr | WRITE_BURST; // Enable burst transfer
cc1101_Select(); // Select CC1101
wait_Miso(); // Wait unt0il MISO goes low
spi_send(addr); // Send register address
for(i=0 ; i<len ; i++)
spi_send(buffer[i]); // Send value
cc1101_Deselect(); // Deselect CC1101
}
/**
* cc1101_cmdStrobe
*
* Send command strobe to the CC1101 IC via SPI
*
* 'cmd' Command strobe
*/
void cc1101_cmdStrobe(uint8_t cmd)
{
cc1101_Select(); // Select CC1101
wait_Miso(); // Wait until MISO goes low
spi_send(cmd); // Send strobe command
cc1101_Deselect(); // Deselect CC1101
}
/**
* cc1101_readReg
*
* Read CC1101 register via SPI
*
* 'regAddr' Register address
* 'regType' Type of register: CC1101_CONFIG_REGISTER or CC1101_STATUS_REGISTER
*
* Return:
* Data uint8_t returned by the CC1101 IC
*/
uint8_t cc1101_readReg(uint8_t regAddr, uint8_t regType)
{
uint8_t addr, val;
addr = regAddr | regType;
cc1101_Select(); // Select CC1101
wait_Miso(); // Wait until MISO goes low
spi_send(addr); // Send register address
val = spi_send(0x00); // Read result
cc1101_Deselect(); // Deselect CC1101
return val;
}
/**
* cc1101_readBurstReg
*
* Read burst data from CC1101 via SPI
*
* 'buffer' Buffer where to copy the result to
* 'regAddr' Register address
* 'len' Data length
*/
void cc1101_readBurstReg(uint8_t * buffer, uint8_t regAddr, uint8_t len)
{
uint8_t addr, i;
addr = regAddr | READ_BURST;
cc1101_Select(); // Select CC1101
wait_Miso(); // Wait until MISO goes low
spi_send(addr); // Send register address
for(i=0 ; i<len ; i++)
buffer[i] = spi_send(0x00); // Read result uint8_t by uint8_t
cc1101_Deselect(); // Deselect CC1101
}
/**
* cc1101_reset
*
* Reset CC1101
*/
void cc1101_reset(void)
{
cc1101_Deselect(); // Deselect CC1101
//delayMicroseconds(5);
// Delay 40 cycles
// 5us at 8.0 MHz
asm volatile (
" ldi r18, 13" "\n"
"1: dec r18" "\n"
" brne 1b" "\n"
" nop" "\n"
);
cc1101_Select(); // Select CC1101
//delayMicroseconds(10);
// Delay 80 cycles
// 10us at 8.0 MHz
asm volatile (
" ldi r18, 26" "\n"
"1: dec r18" "\n"
" brne 1b" "\n"
" rjmp 1f" "\n"
"1:" "\n"
);
cc1101_Deselect(); // Deselect CC1101
//delayMicroseconds(41);
// Delay 328 cycles
// 41us at 8.0 MHz
asm volatile (
" ldi r18, 109" "\n"
"1: dec r18" "\n"
" brne 1b" "\n"
" nop" "\n"
);
cc1101_Select(); // Select CC1101
wait_Miso(); // Wait until MISO goes low
spi_send(CC1101_SRES); // Send cc1101_reset command strobe
wait_Miso(); // Wait until MISO goes low
cc1101_Deselect(); // Deselect CC1101
cc1101_setDefaultRegs(); // Reconfigure CC1101
}
/**
* cc1101_setDefaultRegs
*
* Configure CC1101 registers
*/
void cc1101_setDefaultRegs(void)
{
cc1101_writeReg(CC1101_IOCFG2, CC1101_DEFVAL_IOCFG2);
cc1101_writeReg(CC1101_IOCFG1, CC1101_DEFVAL_IOCFG1);
cc1101_writeReg(CC1101_IOCFG0, CC1101_DEFVAL_IOCFG0);
cc1101_writeReg(CC1101_FIFOTHR, CC1101_DEFVAL_FIFOTHR);
cc1101_writeReg(CC1101_PKTLEN, CC1101_DEFVAL_PKTLEN);
cc1101_writeReg(CC1101_PKTCTRL1, CC1101_DEFVAL_PKTCTRL1);
cc1101_writeReg(CC1101_PKTCTRL0, CC1101_DEFVAL_PKTCTRL0);
// Set default synchronization word
cc1101_setSyncWord(CC1101_DEFVAL_SYNC1, CC1101_DEFVAL_SYNC0);
// Set default device address
cc1101_setDevAddress(CC1101_DEFVAL_ADDR);
// Set default frequency channel
cc1101_setChannel(CC1101_DEFVAL_CHANNR);
cc1101_writeReg(CC1101_FSCTRL1, CC1101_DEFVAL_FSCTRL1);
cc1101_writeReg(CC1101_FSCTRL0, CC1101_DEFVAL_FSCTRL0);
// Set default carrier frequency = 868 MHz
// cc1101_setCarrierFreq(CFREQ_868);
cc1101_setCarrierFreq(CFREQ_433);
cc1101_writeReg(CC1101_MDMCFG4, CC1101_DEFVAL_MDMCFG4);
cc1101_writeReg(CC1101_MDMCFG3, CC1101_DEFVAL_MDMCFG3);
cc1101_writeReg(CC1101_MDMCFG2, CC1101_DEFVAL_MDMCFG2);
cc1101_writeReg(CC1101_MDMCFG1, CC1101_DEFVAL_MDMCFG1);
cc1101_writeReg(CC1101_MDMCFG0, CC1101_DEFVAL_MDMCFG0);
cc1101_writeReg(CC1101_DEVIATN, CC1101_DEFVAL_DEVIATN);
cc1101_writeReg(CC1101_MCSM2, CC1101_DEFVAL_MCSM2);
cc1101_writeReg(CC1101_MCSM1, CC1101_DEFVAL_MCSM1);
cc1101_writeReg(CC1101_MCSM0, CC1101_DEFVAL_MCSM0);
cc1101_writeReg(CC1101_FOCCFG, CC1101_DEFVAL_FOCCFG);
cc1101_writeReg(CC1101_BSCFG, CC1101_DEFVAL_BSCFG);
cc1101_writeReg(CC1101_AGCCTRL2, CC1101_DEFVAL_AGCCTRL2);
cc1101_writeReg(CC1101_AGCCTRL1, CC1101_DEFVAL_AGCCTRL1);
cc1101_writeReg(CC1101_AGCCTRL0, CC1101_DEFVAL_AGCCTRL0);
cc1101_writeReg(CC1101_WOREVT1, CC1101_DEFVAL_WOREVT1);
cc1101_writeReg(CC1101_WOREVT0, CC1101_DEFVAL_WOREVT0);
cc1101_writeReg(CC1101_WORCTRL, CC1101_DEFVAL_WORCTRL);
cc1101_writeReg(CC1101_FREND1, CC1101_DEFVAL_FREND1);
cc1101_writeReg(CC1101_FREND0, CC1101_DEFVAL_FREND0);
cc1101_writeReg(CC1101_FSCAL3, CC1101_DEFVAL_FSCAL3);
cc1101_writeReg(CC1101_FSCAL2, CC1101_DEFVAL_FSCAL2);
cc1101_writeReg(CC1101_FSCAL1, CC1101_DEFVAL_FSCAL1);
cc1101_writeReg(CC1101_FSCAL0, CC1101_DEFVAL_FSCAL0);
cc1101_writeReg(CC1101_RCCTRL1, CC1101_DEFVAL_RCCTRL1);
cc1101_writeReg(CC1101_RCCTRL0, CC1101_DEFVAL_RCCTRL0);
cc1101_writeReg(CC1101_FSTEST, CC1101_DEFVAL_FSTEST);
cc1101_writeReg(CC1101_PTEST, CC1101_DEFVAL_PTEST);
cc1101_writeReg(CC1101_AGCTEST, CC1101_DEFVAL_AGCTEST);
cc1101_writeReg(CC1101_TEST2, CC1101_DEFVAL_TEST2);
cc1101_writeReg(CC1101_TEST1, CC1101_DEFVAL_TEST1);
cc1101_writeReg(CC1101_TEST0, CC1101_DEFVAL_TEST0);
}
void cc1101_setMyRegs(void)
{
// Rf settings for CC1101
// mod GFSK, TX 10dbm, baud 1200, high sensivity, dev 5.2khz, rx bw 58khz
// optimized for packet sending
cc1101_writeReg(CC1101_IOCFG0,0x06); //GDO0 Output Pin Configuration
cc1101_writeReg(CC1101_FIFOTHR,0x47); //RX FIFO and TX FIFO Thresholds
cc1101_writeReg(CC1101_PKTCTRL0,0x05);//Packet Automation Control
cc1101_writeReg(CC1101_FSCTRL1,0x06); //Frequency Synthesizer Control
cc1101_writeReg(CC1101_FREQ2,0x10); //Frequency Control Word, High uint8_t
cc1101_writeReg(CC1101_FREQ1,0xA7); //Frequency Control Word, Middle uint8_t
cc1101_writeReg(CC1101_FREQ0,0x62); //Frequency Control Word, Low uint8_t
cc1101_writeReg(CC1101_MDMCFG4,0xF5); //Modem Configuration
cc1101_writeReg(CC1101_MDMCFG3,0x83); //Modem Configuration
cc1101_writeReg(CC1101_MDMCFG2,0x13); //Modem Configuration
cc1101_writeReg(CC1101_MDMCFG1,0x00); //Modem Configuration
cc1101_writeReg(CC1101_DEVIATN,0x15); //Modem Deviation Setting
cc1101_writeReg(CC1101_MCSM0,0x18); //Main Radio Control State Machine Configuration
cc1101_writeReg(CC1101_FOCCFG,0x16); //Frequency Offset Compensation Configuration
cc1101_writeReg(CC1101_WORCTRL,0xFB); //Wake On Radio Control
cc1101_writeReg(CC1101_FSCAL3,0xE9); //Frequency Synthesizer Calibration
cc1101_writeReg(CC1101_FSCAL2,0x2A); //Frequency Synthesizer Calibration
cc1101_writeReg(CC1101_FSCAL1,0x00); //Frequency Synthesizer Calibration
cc1101_writeReg(CC1101_FSCAL0,0x1F); //Frequency Synthesizer Calibration
cc1101_writeReg(CC1101_TEST2,0x81); //Various Test Settings
cc1101_writeReg(CC1101_TEST1,0x35); //Various Test Settings
cc1101_writeReg(CC1101_TEST0,0x09); //Various Test Settings
}
/**
* cc1101_init
*
* Initialize CC1101
*/
void cc1101_init(void)
{
spi_init(); // Initialize SPI interface
cc1101_reset(); // Reset CC1101
// Configure PATABLE
// for 10 mW power use this option
cc1101_writeReg(CC1101_PATABLE, PA_LongDistance);
// for 1mW power use this option
// cc1101_writeReg(CC1101_PATABLE, PA_LowPower);
}
/**
* cc1101_setSyncWord
*
* Set synchronization word
*
* 'syncH' Synchronization word - High uint8_t
* 'syncL' Synchronization word - Low uint8_t
* 'save' If TRUE, save parameter in EEPROM
*/
void cc1101_setSyncWord(uint8_t syncH, uint8_t syncL)
{
cc1101_writeReg(CC1101_SYNC1, syncH);
cc1101_writeReg(CC1101_SYNC0, syncL);
}
/**
* cc1101_setDevAddress
*
* Set device address
*
* 'addr' Device address
* 'save' If TRUE, save parameter in EEPROM
*/
void cc1101_setDevAddress(uint8_t addr)
{
cc1101_writeReg(CC1101_ADDR, addr);
}
/**
* cc1101_setChannel
*
* Set frequency channel
*
* 'chnl' Frequency channel
* 'save' If TRUE, save parameter in EEPROM
*/
void cc1101_setChannel(uint8_t chnl)
{
cc1101_writeReg(CC1101_CHANNR, chnl);
}
/**
* cc1101_setCarrierFreq
*
* Set carrier frequency
*
* 'freq' New carrier frequency
*/
void cc1101_setCarrierFreq(uint8_t freq)
{
switch(freq)
{
case CFREQ_915:
cc1101_writeReg(CC1101_FREQ2, CC1101_DEFVAL_FREQ2_915);
cc1101_writeReg(CC1101_FREQ1, CC1101_DEFVAL_FREQ1_915);
cc1101_writeReg(CC1101_FREQ0, CC1101_DEFVAL_FREQ0_915);
break;
case CFREQ_433:
cc1101_writeReg(CC1101_FREQ2, CC1101_DEFVAL_FREQ2_433);
cc1101_writeReg(CC1101_FREQ1, CC1101_DEFVAL_FREQ1_433);
cc1101_writeReg(CC1101_FREQ0, CC1101_DEFVAL_FREQ0_433);
break;
default:
cc1101_writeReg(CC1101_FREQ2, CC1101_DEFVAL_FREQ2_868);
cc1101_writeReg(CC1101_FREQ1, CC1101_DEFVAL_FREQ1_868);
cc1101_writeReg(CC1101_FREQ0, CC1101_DEFVAL_FREQ0_868);
break;
}
//cc1101_carrierFreq = freq;
}
/**
* cc1101_setPowerDownState
*
* Put CC1101 into power-down state
*/
void cc1101_setPowerDownState()
{
// Comming from RX state, we need to enter the IDLE state first
cc1101_cmdStrobe(CC1101_SIDLE);
// Enter Power-down state
cc1101_cmdStrobe(CC1101_SPWD);
}
/**
* cc1101_sendData
*
* Send data packet via RF
*
* 'packet' Packet to be transmitted. First uint8_t is the destination address
*
* Return:
* True if the transmission succeeds
* False otherwise
*/
bool cc1101_sendData(CCPACKET packet)
{
uint8_t marcState;
bool res = false;
// Declare to be in Tx state. This will avoid receiving packets whilst
// transmitting
//cc1101_rfState = RFSTATE_TX;
// Enter RX state
setRxState();
// Check that the RX state has been entered
while (((marcState = readStatusReg(CC1101_MARCSTATE)) & 0x1F) != 0x0D)
{
if (marcState == 0x11) // RX_OVERFLOW
flushRxFifo(); // flush receive queue
}
//delayMicroseconds(500);
// Delay 4 000 cycles
// 500us at 8.0 MHz
asm volatile (
" ldi r18, 6" "\n"
" ldi r19, 49" "\n"
"1: dec r19" "\n"
" brne 1b" "\n"
" dec r18" "\n"
" brne 1b" "\n"
);
// Set data length at the first position of the TX FIFO
cc1101_writeReg(CC1101_TXFIFO, packet.length);
// Write data into the TX FIFO
cc1101_writeBurstReg(CC1101_TXFIFO, packet.data, packet.length);
// CCA enabled: will enter TX state only if the channel is clear
setTxState();
// Check that TX state is being entered (state = RXTX_SETTLING)
marcState = readStatusReg(CC1101_MARCSTATE) & 0x1F;
if((marcState != 0x13) && (marcState != 0x14) && (marcState != 0x15))
{
setIdleState(); // Enter IDLE state
flushTxFifo(); // Flush Tx FIFO
setRxState(); // Back to RX state
// Declare to be in Rx state
//cc1101_rfState = RFSTATE_RX;
return false;
}
// Wait for the sync word to be transmitted
wait_GDO0_high();
// Wait until the end of the packet transmission
wait_GDO0_low();
// Check that the TX FIFO is empty
if((readStatusReg(CC1101_TXBYTES) & 0x7F) == 0)
res = true;
setIdleState(); // Enter IDLE state
flushTxFifo(); // Flush Tx FIFO
// Enter back into RX state
setRxState();
// Declare to be in Rx state
//cc1101_rfState = RFSTATE_RX;
return res;
}
/**
* cc1101_receiveData
*
* Read data packet from RX FIFO
*
* 'packet' Container for the packet received
*
* Return:
* Amount of uint8_ts received
*/
uint8_t cc1101_receiveData(CCPACKET * packet)
{
uint8_t val;
uint8_t rxbytes = readStatusReg(CC1101_RXBYTES);
// Any uint8_t waiting to be read and no overflow?
if (rxbytes & 0x7F && !(rxbytes & 0x80))
{
// Read data length
packet->length = readConfigReg(CC1101_RXFIFO);
// If packet is too long
if (packet->length > CC1101_DATA_LEN)
packet->length = 0; // Discard packet
else
{
// Read data packet
cc1101_readBurstReg(packet->data, CC1101_RXFIFO, packet->length);
// Read RSSI
packet->rssi = readConfigReg(CC1101_RXFIFO);
// Read LQI and CRC_OK
val = readConfigReg(CC1101_RXFIFO);
packet->lqi = val & 0x7F;
//packet->crc_ok = bitRead(val, 7);
packet->crc_ok = (val>>7);
}
}
else
packet->length = 0;