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cc1100_arduino.cpp
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cc1100_arduino.cpp
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/*------------------------------------------------------------------------------
' CC1100 Arduino Library
' ----------------------
'
'
'
'
'
' module contains helper code from other people. Thx for that
'-----------------------------------------------------------------------------*/
#include <cc1100_arduino.h>
//-------------------[global EEPROM default settings 868 Mhz]-------------------
static uint8_t cc1100_GFSK_1_2_kb[] EEMEM = {
0x07, // IOCFG2 GDO2 Output Pin Configuration
0x2E, // IOCFG1 GDO1 Output Pin Configuration
0x80, // IOCFG0 GDO0 Output Pin Configuration
0x07, // FIFOTHR RX FIFO and TX FIFO Thresholds
0x57, // SYNC1 Sync Word, High Byte
0x43, // SYNC0 Sync Word, Low Byte
0x3E, // PKTLEN Packet Length
0x0E, // PKTCTRL1 Packet Automation Control
0x45, // PKTCTRL0 Packet Automation Control
0xFF, // ADDR Device Address
0x00, // CHANNR Channel Number
0x08, // FSCTRL1 Frequency Synthesizer Control
0x00, // FSCTRL0 Frequency Synthesizer Control
0x21, // FREQ2 Frequency Control Word, High Byte
0x65, // FREQ1 Frequency Control Word, Middle Byte
0x6A, // FREQ0 Frequency Control Word, Low Byte
0xF5, // MDMCFG4 Modem Configuration
0x83, // MDMCFG3 Modem Configuration
0x13, // MDMCFG2 Modem Configuration
0xA0, // MDMCFG1 Modem Configuration
0xF8, // MDMCFG0 Modem Configuration
0x15, // DEVIATN Modem Deviation Setting
0x07, // MCSM2 Main Radio Control State Machine Configuration
0x0C, // MCSM1 Main Radio Control State Machine Configuration
0x18, // MCSM0 Main Radio Control State Machine Configuration
0x16, // FOCCFG Frequency Offset Compensation Configuration
0x6C, // BSCFG Bit Synchronization Configuration
0x03, // AGCCTRL2 AGC Control
0x40, // AGCCTRL1 AGC Control
0x91, // AGCCTRL0 AGC Control
0x02, // WOREVT1 High Byte Event0 Timeout
0x26, // WOREVT0 Low Byte Event0 Timeout
0x09, // WORCTRL Wake On Radio Control
0x56, // FREND1 Front End RX Configuration
0x17, // FREND0 Front End TX Configuration
0xA9, // FSCAL3 Frequency Synthesizer Calibration
0x0A, // FSCAL2 Frequency Synthesizer Calibration
0x00, // FSCAL1 Frequency Synthesizer Calibration
0x11, // FSCAL0 Frequency Synthesizer Calibration
0x41, // RCCTRL1 RC Oscillator Configuration
0x00, // RCCTRL0 RC Oscillator Configuration
0x59, // FSTEST Frequency Synthesizer Calibration Control,
0x7F, // PTEST Production Test
0x3F, // AGCTEST AGC Test
0x81, // TEST2 Various Test Settings
0x3F, // TEST1 Various Test Settings
0x0B // TEST0 Various Test Settings
};
static uint8_t cc1100_GFSK_38_4_kb[] EEMEM = {
0x07, // IOCFG2 GDO2 Output Pin Configuration
0x2E, // IOCFG1 GDO1 Output Pin Configuration
0x80, // IOCFG0 GDO0 Output Pin Configuration
0x07, // FIFOTHR RX FIFO and TX FIFO Thresholds
0x57, // SYNC1 Sync Word, High Byte
0x43, // SYNC0 Sync Word, Low Byte
0x3E, // PKTLEN Packet Length
0x0E, // PKTCTRL1 Packet Automation Control
0x45, // PKTCTRL0 Packet Automation Control
0xFF, // ADDR Device Address
0x00, // CHANNR Channel Number
0x06, // FSCTRL1 Frequency Synthesizer Control
0x00, // FSCTRL0 Frequency Synthesizer Control
0x21, // FREQ2 Frequency Control Word, High Byte
0x65, // FREQ1 Frequency Control Word, Middle Byte
0x6A, // FREQ0 Frequency Control Word, Low Byte
0xCA, // MDMCFG4 Modem Configuration
0x83, // MDMCFG3 Modem Configuration
0x13, // MDMCFG2 Modem Configuration
0xA0, // MDMCFG1 Modem Configuration
0xF8, // MDMCFG0 Modem Configuration
0x34, // DEVIATN Modem Deviation Setting
0x07, // MCSM2 Main Radio Control State Machine Configuration
0x0C, // MCSM1 Main Radio Control State Machine Configuration
0x18, // MCSM0 Main Radio Control State Machine Configuration
0x16, // FOCCFG Frequency Offset Compensation Configuration
0x6C, // BSCFG Bit Synchronization Configuration
0x43, // AGCCTRL2 AGC Control
0x40, // AGCCTRL1 AGC Control
0x91, // AGCCTRL0 AGC Control
0x02, // WOREVT1 High Byte Event0 Timeout
0x26, // WOREVT0 Low Byte Event0 Timeout
0x09, // WORCTRL Wake On Radio Control
0x56, // FREND1 Front End RX Configuration
0x17, // FREND0 Front End TX Configuration
0xA9, // FSCAL3 Frequency Synthesizer Calibration
0x0A, // FSCAL2 Frequency Synthesizer Calibration
0x00, // FSCAL1 Frequency Synthesizer Calibration
0x11, // FSCAL0 Frequency Synthesizer Calibration
0x41, // RCCTRL1 RC Oscillator Configuration
0x00, // RCCTRL0 RC Oscillator Configuration
0x59, // FSTEST Frequency Synthesizer Calibration Control,
0x7F, // PTEST Production Test
0x3F, // AGCTEST AGC Test
0x81, // TEST2 Various Test Settings
0x3F, // TEST1 Various Test Settings
0x0B // TEST0 Various Test Settings
};
static uint8_t cc1100_GFSK_100_kb[] EEMEM = {
0x07, // IOCFG2 GDO2 Output Pin Configuration
0x2E, // IOCFG1 GDO1 Output Pin Configuration
0x80, // IOCFG0 GDO0 Output Pin Configuration
0x07, // FIFOTHR RX FIFO and TX FIFO Thresholds
0x57, // SYNC1 Sync Word, High Byte
0x43, // SYNC0 Sync Word, Low Byte
0x3E, // PKTLEN Packet Length
0x0E, // PKTCTRL1 Packet Automation Control
0x45, // PKTCTRL0 Packet Automation Control
0xFF, // ADDR Device Address
0x00, // CHANNR Channel Number
0x08, // FSCTRL1 Frequency Synthesizer Control
0x00, // FSCTRL0 Frequency Synthesizer Control
0x21, // FREQ2 Frequency Control Word, High Byte
0x65, // FREQ1 Frequency Control Word, Middle Byte
0x6A, // FREQ0 Frequency Control Word, Low Byte
0x5B, // MDMCFG4 Modem Configuration
0xF8, // MDMCFG3 Modem Configuration
0x13, // MDMCFG2 Modem Configuration
0xA0, // MDMCFG1 Modem Configuration
0xF8, // MDMCFG0 Modem Configuration
0x47, // DEVIATN Modem Deviation Setting
0x07, // MCSM2 Main Radio Control State Machine Configuration
0x0C, // MCSM1 Main Radio Control State Machine Configuration
0x18, // MCSM0 Main Radio Control State Machine Configuration
0x1D, // FOCCFG Frequency Offset Compensation Configuration
0x1C, // BSCFG Bit Synchronization Configuration
0xC7, // AGCCTRL2 AGC Control
0x00, // AGCCTRL1 AGC Control
0xB2, // AGCCTRL0 AGC Control
0x02, // WOREVT1 High Byte Event0 Timeout
0x26, // WOREVT0 Low Byte Event0 Timeout
0x09, // WORCTRL Wake On Radio Control
0xB6, // FREND1 Front End RX Configuration
0x17, // FREND0 Front End TX Configuration
0xEA, // FSCAL3 Frequency Synthesizer Calibration
0x0A, // FSCAL2 Frequency Synthesizer Calibration
0x00, // FSCAL1 Frequency Synthesizer Calibration
0x11, // FSCAL0 Frequency Synthesizer Calibration
0x41, // RCCTRL1 RC Oscillator Configuration
0x00, // RCCTRL0 RC Oscillator Configuration
0x59, // FSTEST Frequency Synthesizer Calibration Control,
0x7F, // PTEST Production Test
0x3F, // AGCTEST AGC Test
0x81, // TEST2 Various Test Settings
0x3F, // TEST1 Various Test Settings
0x0B // TEST0 Various Test Settings
};
static uint8_t cc1100_MSK_250_kb[] EEMEM = {
0x07, // IOCFG2 GDO2 Output Pin Configuration
0x2E, // IOCFG1 GDO1 Output Pin Configuration
0x80, // IOCFG0 GDO0 Output Pin Configuration
0x07, // FIFOTHR RX FIFO and TX FIFO Thresholds
0x57, // SYNC1 Sync Word, High Byte
0x43, // SYNC0 Sync Word, Low Byte
0x3E, // PKTLEN Packet Length
0x0E, // PKTCTRL1 Packet Automation Control
0x45, // PKTCTRL0 Packet Automation Control
0xFF, // ADDR Device Address
0x00, // CHANNR Channel Number
0x0B, // FSCTRL1 Frequency Synthesizer Control
0x00, // FSCTRL0 Frequency Synthesizer Control
0x21, // FREQ2 Frequency Control Word, High Byte
0x65, // FREQ1 Frequency Control Word, Middle Byte
0x6A, // FREQ0 Frequency Control Word, Low Byte
0x2D, // MDMCFG4 Modem Configuration
0x3B, // MDMCFG3 Modem Configuration
0x73, // MDMCFG2 Modem Configuration
0xA0, // MDMCFG1 Modem Configuration
0xF8, // MDMCFG0 Modem Configuration
0x00, // DEVIATN Modem Deviation Setting
0x07, // MCSM2 Main Radio Control State Machine Configuration
0x0C, // MCSM1 Main Radio Control State Machine Configuration
0x18, // MCSM0 Main Radio Control State Machine Configuration
0x1D, // FOCCFG Frequency Offset Compensation Configuration
0x1C, // BSCFG Bit Synchronization Configuration
0xC7, // AGCCTRL2 AGC Control
0x00, // AGCCTRL1 AGC Control
0xB2, // AGCCTRL0 AGC Control
0x02, // WOREVT1 High Byte Event0 Timeout
0x26, // WOREVT0 Low Byte Event0 Timeout
0x09, // WORCTRL Wake On Radio Control
0xB6, // FREND1 Front End RX Configuration
0x17, // FREND0 Front End TX Configuration
0xEA, // FSCAL3 Frequency Synthesizer Calibration
0x0A, // FSCAL2 Frequency Synthesizer Calibration
0x00, // FSCAL1 Frequency Synthesizer Calibration
0x11, // FSCAL0 Frequency Synthesizer Calibration
0x41, // RCCTRL1 RC Oscillator Configuration
0x00, // RCCTRL0 RC Oscillator Configuration
0x59, // FSTEST Frequency Synthesizer Calibration Control,
0x7F, // PTEST Production Test
0x3F, // AGCTEST AGC Test
0x81, // TEST2 Various Test Settings
0x3F, // TEST1 Various Test Settings
0x0B // TEST0 Various Test Settings
};
static uint8_t cc1100_MSK_500_kb[] EEMEM = {
0x07, // IOCFG2 GDO2 Output Pin Configuration
0x2E, // IOCFG1 GDO1 Output Pin Configuration
0x80, // IOCFG0 GDO0 Output Pin Configuration
0x07, // FIFOTHR RX FIFO and TX FIFO Thresholds
0x57, // SYNC1 Sync Word, High Byte
0x43, // SYNC0 Sync Word, Low Byte
0x3E, // PKTLEN Packet Length
0x0E, // PKTCTRL1 Packet Automation Control
0x45, // PKTCTRL0 Packet Automation Control
0xFF, // ADDR Device Address
0x00, // CHANNR Channel Number
0x0C, // FSCTRL1 Frequency Synthesizer Control
0x00, // FSCTRL0 Frequency Synthesizer Control
0x21, // FREQ2 Frequency Control Word, High Byte
0x65, // FREQ1 Frequency Control Word, Middle Byte
0x6A, // FREQ0 Frequency Control Word, Low Byte
0x0E, // MDMCFG4 Modem Configuration
0x3B, // MDMCFG3 Modem Configuration
0x73, // MDMCFG2 Modem Configuration
0xA0, // MDMCFG1 Modem Configuration
0xF8, // MDMCFG0 Modem Configuration
0x00, // DEVIATN Modem Deviation Setting
0x07, // MCSM2 Main Radio Control State Machine Configuration
0x0C, // MCSM1 Main Radio Control State Machine Configuration
0x18, // MCSM0 Main Radio Control State Machine Configuration
0x1D, // FOCCFG Frequency Offset Compensation Configuration
0x1C, // BSCFG Bit Synchronization Configuration
0xC7, // AGCCTRL2 AGC Control
0x40, // AGCCTRL1 AGC Control
0xB2, // AGCCTRL0 AGC Control
0x02, // WOREVT1 High Byte Event0 Timeout
0x26, // WOREVT0 Low Byte Event0 Timeout
0x09, // WORCTRL Wake On Radio Control
0xB6, // FREND1 Front End RX Configuration
0x17, // FREND0 Front End TX Configuration
0xEA, // FSCAL3 Frequency Synthesizer Calibration
0x0A, // FSCAL2 Frequency Synthesizer Calibration
0x00, // FSCAL1 Frequency Synthesizer Calibration
0x19, // FSCAL0 Frequency Synthesizer Calibration
0x41, // RCCTRL1 RC Oscillator Configuration
0x00, // RCCTRL0 RC Oscillator Configuration
0x59, // FSTEST Frequency Synthesizer Calibration Control,
0x7F, // PTEST Production Test
0x3F, // AGCTEST AGC Test
0x81, // TEST2 Various Test Settings
0x3F, // TEST1 Various Test Settings
0x0B // TEST0 Various Test Settings
};
static uint8_t cc1100_OOK_4_8_kb[] EEMEM = {
0x06, // IOCFG2 GDO2 Output Pin Configuration
0x2E, // IOCFG1 GDO1 Output Pin Configuration
0x06, // IOCFG0 GDO0 Output Pin Configuration
0x47, // FIFOTHR RX FIFO and TX FIFO Thresholds
0x57, // SYNC1 Sync Word, High Byte
0x43, // SYNC0 Sync Word, Low Byte
0xFF, // PKTLEN Packet Length
0x04, // PKTCTRL1 Packet Automation Control
0x05, // PKTCTRL0 Packet Automation Control
0x00, // ADDR Device Address
0x00, // CHANNR Channel Number
0x06, // FSCTRL1 Frequency Synthesizer Control
0x00, // FSCTRL0 Frequency Synthesizer Control
0x21, // FREQ2 Frequency Control Word, High Byte
0x65, // FREQ1 Frequency Control Word, Middle Byte
0x6A, // FREQ0 Frequency Control Word, Low Byte
0x87, // MDMCFG4 Modem Configuration
0x83, // MDMCFG3 Modem Configuration
0x3B, // MDMCFG2 Modem Configuration
0x22, // MDMCFG1 Modem Configuration
0xF8, // MDMCFG0 Modem Configuration
0x15, // DEVIATN Modem Deviation Setting
0x07, // MCSM2 Main Radio Control State Machine Configuration
0x30, // MCSM1 Main Radio Control State Machine Configuration
0x18, // MCSM0 Main Radio Control State Machine Configuration
0x14, // FOCCFG Frequency Offset Compensation Configuration
0x6C, // BSCFG Bit Synchronization Configuration
0x07, // AGCCTRL2 AGC Control
0x00, // AGCCTRL1 AGC Control
0x92, // AGCCTRL0 AGC Control
0x87, // WOREVT1 High Byte Event0 Timeout
0x6B, // WOREVT0 Low Byte Event0 Timeout
0xFB, // WORCTRL Wake On Radio Control
0x56, // FREND1 Front End RX Configuration
0x17, // FREND0 Front End TX Configuration
0xE9, // FSCAL3 Frequency Synthesizer Calibration
0x2A, // FSCAL2 Frequency Synthesizer Calibration
0x00, // FSCAL1 Frequency Synthesizer Calibration
0x1F, // FSCAL0 Frequency Synthesizer Calibration
0x41, // RCCTRL1 RC Oscillator Configuration
0x00, // RCCTRL0 RC Oscillator Configuration
0x59, // FSTEST Frequency Synthesizer Calibration Control
0x7F, // PTEST Production Test
0x3F, // AGCTEST AGC Test
0x81, // TEST2 Various Test Settings
0x35, // TEST1 Various Test Settings
0x09, // TEST0 Various Test Settings
};
//Patable index: -30 -20- -15 -10 0 5 7 10 dBm
static uint8_t patable_power_315[] EEMEM = {0x17,0x1D,0x26,0x69,0x51,0x86,0xCC,0xC3};
static uint8_t patable_power_433[] EEMEM = {0x6C,0x1C,0x06,0x3A,0x51,0x85,0xC8,0xC0};
static uint8_t patable_power_868[] EEMEM = {0x03,0x17,0x1D,0x26,0x50,0x86,0xCD,0xC0};
static uint8_t patable_power_915[] EEMEM = {0x0B,0x1B,0x6D,0x67,0x50,0x85,0xC9,0xC1};
//static uint8_t patable_power_2430[] EEMEM = {0x44,0x84,0x46,0x55,0xC6,0x6E,0x9A,0xFE};
//----------------------------------[END]---------------------------------------
//-------------------------[CC1100 reset function]------------------------------
void CC1100::reset(void) // reset defined in cc1100 datasheet
{
digitalWrite(SS_PIN, LOW);
delayMicroseconds(10);
digitalWrite(SS_PIN, HIGH);
delayMicroseconds(40);
spi_write_strobe(SRES);
delay(1);
}
//-----------------------------[END]--------------------------------------------
//------------------------[set Power Down]--------------------------------------
void CC1100::powerdown(void)
{
sidle();
spi_write_strobe(SPWD); // CC1100 Power Down
}
//-----------------------------[end]--------------------------------------------
//---------------------------[WakeUp]-------------------------------------------
void CC1100::wakeup(void)
{
digitalWrite(SS_PIN, LOW);
delayMicroseconds(10);
digitalWrite(SS_PIN, HIGH);
delayMicroseconds(10);
receive(); // go to RX Mode
}
//-----------------------------[end]--------------------------------------------
//---------------------[CC1100 set debug level]---------------------------------
uint8_t CC1100::set_debug_level(uint8_t set_debug_level = 1) //default ON
{
debug_level = set_debug_level; //set debug level of CC1101 outputs
return debug_level;
}
//-----------------------------[end]--------------------------------------------
//---------------------[CC1100 get debug level]---------------------------------
uint8_t CC1100::get_debug_level(void)
{
return debug_level;
}
//-----------------------------[end]--------------------------------------------
//----------------------[CC1100 init functions]---------------------------------
uint8_t CC1100::begin(volatile uint8_t &My_addr)
{
uint8_t cc1100_freq_select, cc1100_mode_select, cc1100_channel_select;
uint8_t partnum, version;
pinMode(GDO0, INPUT); //setup AVR GPIO ports
pinMode(GDO2, INPUT);
set_debug_level(set_debug_level()); //set debug level of CC1101 outputs
if(debug_level > 0){
Serial.println(F("Init CC1100..."));
}
spi_begin(); //inits SPI Interface
reset(); //CC1100 init reset
spi_write_strobe(SFTX);delayMicroseconds(100);//flush the TX_fifo content
spi_write_strobe(SFRX);delayMicroseconds(100);//flush the RX_fifo content
partnum = spi_read_register(PARTNUM); //reads CC1100 partnumber
version = spi_read_register(VERSION); //reads CC1100 version number
//checks if valid Chip ID is found. Usualy 0x03 or 0x14. if not -> abort
if(version == 0x00 || version == 0xFF){
if(debug_level > 0){
Serial.print(F("no CC11xx found!"));
Serial.println();
}
return FALSE;
}
if(debug_level > 0){
Serial.print(F("Partnumber:"));
uart_puthex_byte(partnum);
Serial.println();
Serial.print(F("Version:"));
uart_puthex_byte(version);
Serial.println();
}
//reads setting parameters from eeprom
My_addr = eeprom_read_byte((const uint8_t*)EEPROM_ADDRESS_CC1100_MY_ADDR);
cc1100_freq_select = eeprom_read_byte((const uint8_t*)EEPROM_ADDRESS_CC1100_FREQUENCY);
cc1100_mode_select = eeprom_read_byte((const uint8_t*)EEPROM_ADDRESS_CC1100_MODE);
cc1100_channel_select = eeprom_read_byte((const uint8_t*)EEPROM_ADDRESS_CC1100_CHANNEL);
//if no valid settings are available, CC100 Powerdown and SPI disable
if( My_addr == 0xFF ||
cc1100_freq_select == 0xFF ||
cc1100_mode_select == 0xFF ||
cc1100_channel_select == 0xFF)
{
if(debug_level > 0){
Serial.print(F("no EEPROM settings..."));
Serial.println();
}
end(); //CC1100 Powerdown and disable SPI bus
return FALSE;
}
//set modulation mode
set_mode(cc1100_mode_select);
//set ISM band
set_ISM(cc1100_freq_select);
//set channel
set_channel(cc1100_channel_select);
//set output power amplifier
set_output_power_level(0); //set PA to 0dBm as default
//set my receiver address
set_myaddr(My_addr); //My_Addr from EEPROM to global variable
if(debug_level > 0){
Serial.println(F("...done"));
}
receive(); //set CC1100 in receive mode
return TRUE;
}
//-------------------------------[end]------------------------------------------
//-----------------[finish's the CC1100 operation]------------------------------
void CC1100::end(void)
{
powerdown(); //power down CC1100
spi_end(); //disable SPI Interface
}
//-------------------------------[end]------------------------------------------
//-----------------------[show all CC1100 registers]----------------------------
void CC1100::show_register_settings(void)
{
if(debug_level > 0){
uint8_t config_reg_verify[CFG_REGISTER],Patable_verify[CFG_REGISTER];
spi_read_burst(READ_BURST,config_reg_verify,CFG_REGISTER); //reads all 47 config register
spi_read_burst(PATABLE_BURST,Patable_verify,8); //reads output power settings
//show_main_settings();
Serial.println(F("Cfg_reg:"));
for(uint8_t i = 0 ; i < CFG_REGISTER; i++) //showes rx_buffer for debug
{
uart_puthex_byte(config_reg_verify[i]);Serial.print(F(" "));
if(i==9 || i==19 || i==29 || i==39) //just for beautiful output style
{
Serial.println();
}
}
Serial.println();
Serial.println(F("PaTable:"));
for(uint8_t i = 0 ; i < 8; i++) //showes rx_buffer for debug
{
uart_puthex_byte(Patable_verify[i]);Serial.print(F(" "));
}
Serial.println();
}
}
//-------------------------------[end]------------------------------------------
//--------------------------[show settings]-------------------------------------
void CC1100::show_main_settings(void)
{
if(debug_level > 0){
Serial.print(F("Mode:"));
Serial.print(eeprom_read_byte((const uint8_t*)EEPROM_ADDRESS_CC1100_MODE));
Serial.println();
Serial.print(F("Frequency:"));
Serial.print(eeprom_read_byte((const uint8_t*)EEPROM_ADDRESS_CC1100_FREQUENCY));
Serial.println();
Serial.print(F("Channel:"));
Serial.print(eeprom_read_byte((const uint8_t*)EEPROM_ADDRESS_CC1100_CHANNEL));
Serial.println();
Serial.print(F("My_Addr:"));
Serial.print(eeprom_read_byte((const uint8_t*)EEPROM_ADDRESS_CC1100_MY_ADDR));
Serial.println();
}
}
//-------------------------------[end]------------------------------------------
//----------------------------[idle mode]---------------------------------------
uint8_t CC1100::sidle(void)
{
uint8_t marcstate;
spi_write_strobe(SIDLE); //sets to idle first. must be in
marcstate = 0xFF; //set unknown/dummy state value
while(marcstate != 0x01) //0x01 = sidle
{
marcstate = (spi_read_register(MARCSTATE) & 0x1F); //read out state of cc1100 to be sure in RX
//uart_puthex_byte(marcstate);
}
//Serial.println();
delayMicroseconds(100);
return TRUE;
}
//-------------------------------[end]------------------------------------------
//---------------------------[transmit mode]------------------------------------
uint8_t CC1100::transmit(void)
{
uint8_t marcstate;
sidle(); //sets to idle first.
spi_write_strobe(STX); //sends the data over air
marcstate = 0xFF; //set unknown/dummy state value
while(marcstate != 0x01) //0x01 = ILDE after sending data
{
marcstate = (spi_read_register(MARCSTATE) & 0x1F); //read out state of cc1100 to be sure in IDLE and TX is finished
//uart_puthex_byte(marcstate);
}
//Serial.println();
delayMicroseconds(100);
return TRUE;
}
//-------------------------------[end]------------------------------------------
//---------------------------[receive mode]-------------------------------------
uint8_t CC1100::receive(void)
{
uint8_t marcstate;
sidle(); //sets to idle first.
spi_write_strobe(SRX); //writes receive strobe (receive mode)
marcstate = 0xFF; //set unknown/dummy state value
while(marcstate != 0x0D) //0x0D = RX
{
marcstate = (spi_read_register(MARCSTATE) & 0x1F); //read out state of cc1100 to be sure in RX
//uart_puthex_byte(marcstate);
}
//Serial.println();
delayMicroseconds(100);
return TRUE;
}
//-------------------------------[end]------------------------------------------
//------------[enables WOR Mode EVENT0 ~1890ms; rx_timeout ~235ms]--------------------
void CC1100::wor_enable()
{
/*
EVENT1 = WORCTRL[6:4] -> Datasheet page 88
EVENT0 = (750/Xtal)*(WOREVT1<<8+WOREVT0)*2^(5*WOR_RES) = (750/26Meg)*65407*2^(5*0) = 1.89s
(WOR_RES=0;RX_TIME=0) -> Datasheet page 80
i.E RX_TIMEOUT = EVENT0* (3.6038) *26/26Meg = 235.8ms
(WOR_RES=0;RX_TIME=1) -> Datasheet page 80
i.E.RX_TIMEOUT = EVENT0* (1.8029) *26/26Meg = 117.9ms
*/
sidle();
spi_write_register(MCSM0, 0x18); //FS Autocalibration
spi_write_register(MCSM2, 0x01); //MCSM2.RX_TIME = 1b
// configure EVENT0 time
spi_write_register(WOREVT1, 0xFF); //High byte Event0 timeout
spi_write_register(WOREVT0, 0x7F); //Low byte Event0 timeout
// configure EVENT1 time
spi_write_register(WORCTRL, 0x78); //WOR_RES=0b; tEVENT1=0111b=48d -> 48*(750/26MHz)= 1.385ms
spi_write_strobe(SFRX); //flush RX buffer
spi_write_strobe(SWORRST); //resets the WOR timer to the programmed Event 1
spi_write_strobe(SWOR); //put the radio in WOR mode when CSn is released
delayMicroseconds(100);
}
//-------------------------------[end]------------------------------------------
//------------------------[disable WOR Mode]-------------------------------------
void CC1100::wor_disable()
{
sidle(); //exit WOR Mode
spi_write_register(MCSM2, 0x07); //stay in RX. No RX timeout
}
//-------------------------------[end]------------------------------------------
//------------------------[resets WOR Timer]------------------------------------
void CC1100::wor_reset()
{
sidle(); //go to IDLE
spi_write_register(MCSM2, 0x01); //MCSM2.RX_TIME = 1b
spi_write_strobe(SFRX); //flush RX buffer
spi_write_strobe(SWORRST); //resets the WOR timer to the programmed Event 1
spi_write_strobe(SWOR); //put the radio in WOR mode when CSn is released
delayMicroseconds(100);
}
//-------------------------------[end]------------------------------------------
//-------------------------[tx_payload_burst]-----------------------------------
uint8_t CC1100::tx_payload_burst(uint8_t my_addr, uint8_t rx_addr,
uint8_t *txbuffer, uint8_t length)
{
txbuffer[0] = length-1;
txbuffer[1] = rx_addr;
txbuffer[2] = my_addr;
spi_write_burst(TXFIFO_BURST,txbuffer,length); //writes TX_Buffer +1 because of pktlen must be also transfered
if(debug_level > 0){
Serial.print(F("TX_FIFO:"));
for(uint8_t i = 0 ; i < length; i++) //TX_fifo debug out
{
uart_puthex_byte(txbuffer[i]);
}
Serial.println();
}
return TRUE;
}
//-------------------------------[end]------------------------------------------
//------------------[rx_payload_burst - package received]-----------------------
uint8_t CC1100::rx_payload_burst(uint8_t rxbuffer[], uint8_t &pktlen)
{
uint8_t bytes_in_RXFIFO = 0;
uint8_t res = 0;
bytes_in_RXFIFO = spi_read_register(RXBYTES); //reads the number of bytes in RXFIFO
if((bytes_in_RXFIFO & 0x7F) && !(bytes_in_RXFIFO & 0x80)) //if bytes in buffer and no RX Overflow
{
spi_read_burst(RXFIFO_BURST, rxbuffer, bytes_in_RXFIFO);
pktlen = rxbuffer[0];
res = TRUE;
}
else
{
if(debug_level > 0){
Serial.print(F("no bytes in RX buffer or RX Overflow!: "));Serial.println(bytes_in_RXFIFO);
}
sidle(); //set to IDLE
spi_write_strobe(SFRX);delayMicroseconds(100); //flush RX Buffer
receive(); //set to receive mode
res = FALSE;
}
return res;
}
//-------------------------------[end]------------------------------------------
//---------------------------[sent packet]--------------------------------------
uint8_t CC1100::sent_packet(uint8_t my_addr, uint8_t rx_addr, uint8_t *txbuffer,
uint8_t pktlen, uint8_t tx_retries)
{
uint8_t pktlen_ack; //default package len for ACK
uint8_t rxbuffer[FIFOBUFFER];
uint8_t tx_retries_count = 0;
uint8_t from_sender;
uint16_t ackWaitCounter = 0;
if(pktlen > (FIFOBUFFER - 1)) //FIFO overflow check
{
printf("ERROR: package size overflow\r\n");
return FALSE;
}
do //sent package out with retries
{
tx_payload_burst(my_addr, rx_addr, txbuffer, pktlen); //loads the data in cc1100 buffer
transmit(); //sents data over air
receive(); //receive mode
if(rx_addr == BROADCAST_ADDRESS){ //no wait acknowledge if sent to broadcast address or tx_retries = 0
return TRUE; //successful sent to BROADCAST_ADDRESS
}
while (ackWaitCounter < ACK_TIMEOUT ) //wait for an acknowledge
{
if (packet_available() == TRUE) //if RF package received check package acknowge
{
from_sender = rx_addr; //the original message sender address
rx_fifo_erase(rxbuffer); //erase RX software buffer
rx_payload_burst(rxbuffer, pktlen_ack); //reads package in buffer
check_acknowledge(rxbuffer, pktlen_ack, from_sender, my_addr); //check if received message is an acknowledge from client
return TRUE; //package successfully sent
}
else{
ackWaitCounter++; //increment ACK wait counter
delay(1); //delay to give receiver time
}
}
ackWaitCounter = 0; //resets the ACK_Timeout
tx_retries_count++; //increase tx retry counter
if(debug_level > 0){ //debug output messages
Serial.print(F(" #:"));
uart_puthex_byte(tx_retries_count-1);
Serial.println();
}
}while(tx_retries_count <= tx_retries); //while count of retries is reaches
return FALSE; //sent failed. too many retries
}
//-------------------------------[end]------------------------------------------
//--------------------------[sent ACKNOWLEDGE]------------------------------------
void CC1100::sent_acknowledge(uint8_t my_addr, uint8_t tx_addr)
{
uint8_t pktlen = 0x06; //complete Pktlen for ACK packet
uint8_t tx_buffer[0x06]; //tx buffer array init
tx_buffer[3] = 'A'; tx_buffer[4] = 'c'; tx_buffer[5] = 'k'; //fill buffer with ACK Payload
tx_payload_burst(my_addr, tx_addr, tx_buffer, pktlen); //load payload to CC1100
transmit(); //sent package over the air
receive(); //set CC1100 in receive mode
if(debug_level > 0){ //debut output
Serial.println(F("Ack_sent!"));
}
}
//-------------------------------[end]------------------------------------------
//----------------------[check if Packet is received]---------------------------
uint8_t CC1100::packet_available()
{
if(digitalRead(GDO2) == TRUE) //if RF package received
{
if(spi_read_register(IOCFG2) == 0x06) //if sync word detect mode is used
{
while(digitalRead(GDO2) == TRUE){ //wait till sync word is fully received
Serial.println(F("!"));
}
}
if(debug_level > 0){
//Serial.println("Pkt->:");
}
return TRUE;
}
return FALSE;
}
//-------------------------------[end]------------------------------------------
//------------------[check Payload for ACK or Data]-----------------------------
uint8_t CC1100::get_payload(uint8_t rxbuffer[], uint8_t &pktlen, uint8_t &my_addr,
uint8_t &sender, int8_t &rssi_dbm, uint8_t &lqi)
{
uint8_t crc;
rx_fifo_erase(rxbuffer); //delete rx_fifo bufffer
if(rx_payload_burst(rxbuffer, pktlen) == FALSE) //read package in buffer
{
rx_fifo_erase(rxbuffer); //delete rx_fifo bufffer
return FALSE; //exit
}
else
{
my_addr = rxbuffer[1]; //set receiver address to my_addr
sender = rxbuffer[2];
if(check_acknowledge(rxbuffer, pktlen, sender, my_addr) == TRUE) //acknowlage received?
{
rx_fifo_erase(rxbuffer); //delete rx_fifo bufffer
return FALSE; //Ack received -> finished
}
else //real data, and sent acknowladge
{
rssi_dbm = rssi_convert(rxbuffer[pktlen + 1]); //converts receiver strength to dBm
lqi = lqi_convert(rxbuffer[pktlen + 2]); //get rf quialtiy indicator
crc = check_crc(lqi); //get packet CRC
if(debug_level > 0){ //debug output messages
if(rxbuffer[1] == BROADCAST_ADDRESS) //if my receiver address is BROADCAST_ADDRESS
{
Serial.println(F("BROADCAST message"));
}
Serial.print(F("RX_FIFO:"));
for(uint8_t i = 0 ; i < pktlen + 1; i++) //showes rx_buffer for debug
{
uart_puthex_byte(rxbuffer[i]);
}
Serial.print(" |");
uart_puthex_byte(rxbuffer[pktlen+1]);
uart_puthex_byte(rxbuffer[pktlen+2]);
Serial.print("|");
Serial.println();
Serial.print(F("RSSI:"));uart_puti(rssi_dbm);Serial.print(F(" "));
Serial.print(F("LQI:"));uart_puthex_byte(lqi);Serial.print(F(" "));
Serial.print(F("CRC:"));uart_puthex_byte(crc);
Serial.println();
}
my_addr = rxbuffer[1]; //set receiver address to my_addr
sender = rxbuffer[2]; //set from_sender address
if(my_addr != BROADCAST_ADDRESS) //send only ack if no BROADCAST_ADDRESS
{
sent_acknowledge(my_addr, sender); //sending acknowledge to sender!
}
return TRUE;
}
return FALSE;
}
}
//-------------------------------[end]------------------------------------------
//-------------------------[check ACKNOWLEDGE]------------------------------------
uint8_t CC1100::check_acknowledge(uint8_t *rxbuffer, uint8_t pktlen, uint8_t sender, uint8_t my_addr)
{
int8_t rssi_dbm;
uint8_t crc, lqi;
if((pktlen == 0x05 && \
(rxbuffer[1] == my_addr || rxbuffer[1] == BROADCAST_ADDRESS)) && \
rxbuffer[2] == sender && \
rxbuffer[3] == 'A' && rxbuffer[4] == 'c' && rxbuffer[5] == 'k') //acknowledge received!
{
if(rxbuffer[1] == BROADCAST_ADDRESS){ //if receiver address BROADCAST_ADDRESS skip acknowledge
if(debug_level > 0){
Serial.println(F("BROADCAST ACK"));
}
return FALSE;
}
rssi_dbm = rssi_convert(rxbuffer[pktlen + 1]);
lqi = lqi_convert(rxbuffer[pktlen + 2]);
crc = check_crc(lqi);
if(debug_level > 0){
//Serial.println();
Serial.print(F("ACK! "));
Serial.print(F("RSSI:"));uart_puti(rssi_dbm);Serial.print(F(" "));
Serial.print(F("LQI:"));uart_puthex_byte(lqi);Serial.print(F(" "));
Serial.print(F("CRC:"));uart_puthex_byte(crc);
Serial.println();
}
return TRUE;
}
return FALSE;
}
//-------------------------------[end]------------------------------------------
//------------[check if Packet is received within defined time in ms]-----------
uint8_t CC1100::wait_for_packet(uint16_t milliseconds)
{
for(uint16_t i = 0; i < milliseconds; i++)
{
delay(1); //delay till system has data available
if (packet_available())
{
return TRUE;
}
}
//Serial.println(F("no packet received!"));
return FALSE;
}
//-------------------------------[end]------------------------------------------
//--------------------------[tx_fifo_erase]-------------------------------------
void CC1100::tx_fifo_erase(uint8_t *txbuffer)
{
memset(txbuffer, 0, sizeof(FIFOBUFFER)); //erased the TX_fifo array content to "0"
}
//-------------------------------[end]------------------------------------------
//--------------------------[rx_fifo_erase]-------------------------------------
void CC1100::rx_fifo_erase(uint8_t *rxbuffer)
{
memset(rxbuffer, 0, sizeof(FIFOBUFFER)); //erased the RX_fifo array content to "0"
}
//-------------------------------[end]------------------------------------------
//------------------------[set CC1100 address]----------------------------------
void CC1100::set_myaddr(uint8_t addr)
{
spi_write_register(ADDR,addr); //stores MyAddr in the CC1100
if(eeprom_read_byte((const uint8_t*)EEPROM_ADDRESS_CC1100_MY_ADDR) != addr)
{
eeprom_write_byte((uint8_t*)EEPROM_ADDRESS_CC1100_MY_ADDR, addr); //writes byte to eeprom
}
}
//-------------------------------[end]------------------------------------------
//---------------------------[set channel]--------------------------------------
void CC1100::set_channel(uint8_t channel)
{
spi_write_register(CHANNR,channel); //stores the new channel # in the CC1100
if(eeprom_read_byte((const uint8_t*)EEPROM_ADDRESS_CC1100_CHANNEL) != channel)
{
eeprom_write_byte((uint8_t*)EEPROM_ADDRESS_CC1100_CHANNEL, channel); //writes byte to eeprom
}
}
//-------------------------------[end]------------------------------------------
//-[set modulation mode 1 = GFSK_1_2_kb; 2 = GFSK_38_4_kb; 3 = GFSK_100_kb; 4 = MSK_250_kb; 5 = MSK_500_kb; 6 = OOK_4_8_kb]-
void CC1100::set_mode(uint8_t mode)
{
uint8_t Cfg_reg[CFG_REGISTER];
switch (mode)
{
case 0x01:
eeprom_read_block(Cfg_reg,cc1100_GFSK_1_2_kb,CFG_REGISTER); //sets up settings for GFSK 1,2 kbit mode/speed
break;
case 0x02:
eeprom_read_block(Cfg_reg,cc1100_GFSK_38_4_kb,CFG_REGISTER); //sets up settings for GFSK 38,4 kbit mode/speed
break;
case 0x03:
eeprom_read_block(Cfg_reg,cc1100_GFSK_100_kb,CFG_REGISTER); //sets up settings for GFSK 100 kbit mode/speed
break;
case 0x04:
eeprom_read_block(Cfg_reg,cc1100_MSK_250_kb,CFG_REGISTER); //sets up settings for GFSK 38,4 kbit mode/speed
break;
case 0x05:
eeprom_read_block(Cfg_reg,cc1100_MSK_500_kb,CFG_REGISTER); //sets up settings for GFSK 38,4 kbit mode/speed
break;
case 0x06:
eeprom_read_block(Cfg_reg,cc1100_OOK_4_8_kb,CFG_REGISTER); //sets up settings for GFSK 38,4 kbit mode/speed
break;
default:
eeprom_read_block(Cfg_reg,cc1100_GFSK_38_4_kb,CFG_REGISTER); //sets up settings for GFSK 38,4 kbit mode/speed
mode = 0x02;
break;
}
spi_write_burst(WRITE_BURST,Cfg_reg,CFG_REGISTER); //writes all 47 config register
if(eeprom_read_byte((const uint8_t*)EEPROM_ADDRESS_CC1100_MODE) != mode)
{
eeprom_write_byte((uint8_t*)EEPROM_ADDRESS_CC1100_MODE, mode); //sets the cc1100 frequency
}
}
//-------------------------------[end]------------------------------------------
//---------[set ISM Band 1=315MHz; 2=433MHz; 3=868MHz; 4=915MHz]----------------
void CC1100::set_ISM(uint8_t ism_freq)
{
uint8_t freq2, freq1, freq0;
uint8_t Patable[8];
switch (ism_freq) //loads the RF freq which is defined in cc1100_freq_select
{
case 0x01: //315MHz
freq2=0x0C;
freq1=0x1D;
freq0=0x89;
eeprom_read_block(Patable,patable_power_315,8);
break;
case 0x02: //433.92MHz
freq2=0x10;
freq1=0xB0;
freq0=0x71;
eeprom_read_block(Patable,patable_power_433,8);
break;
case 0x03: //868.3MHz