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CC1101.cpp
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CC1101.cpp
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/*
* Author: Klusjesman, modified bij supersjimmie for Arduino/ESP8266
*/
#include "CC1101.h"
// default constructor
CC1101::CC1101()
{
SPI.begin();
#ifdef ESP8266
pinMode(SS, OUTPUT);
#endif
} //CC1101
// default destructor
CC1101::~CC1101()
{
} //~CC1101
/***********************/
// SPI helper functions select() and deselect()
inline void CC1101::select(void) {
digitalWrite(SS, LOW);
}
inline void CC1101::deselect(void) {
digitalWrite(SS, HIGH);
}
void CC1101::spi_waitMiso()
{
while(digitalRead(MISO) == HIGH) yield();
}
void CC1101::init()
{
reset();
}
void CC1101::reset()
{
deselect();
delayMicroseconds(5);
select();
delayMicroseconds(10);
deselect();
delayMicroseconds(45);
select();
spi_waitMiso();
SPI.transfer(CC1101_SRES);
delay(10);
spi_waitMiso();
deselect();
}
uint8_t CC1101::writeCommand(uint8_t command)
{
uint8_t result;
select();
spi_waitMiso();
result = SPI.transfer(command);
deselect();
return result;
}
void CC1101::writeRegister(uint8_t address, uint8_t data)
{
select();
spi_waitMiso();
SPI.transfer(address);
SPI.transfer(data);
deselect();
}
uint8_t CC1101::readRegister(uint8_t address)
{
uint8_t val;
select();
spi_waitMiso();
SPI.transfer(address);
val = SPI.transfer(0);
deselect();
return val;
}
uint8_t CC1101::readRegisterMedian3(uint8_t address)
{
uint8_t val, val1, val2, val3;
select();
spi_waitMiso();
SPI.transfer(address);
val1 = SPI.transfer(0);
SPI.transfer(address);
val2 = SPI.transfer(0);
SPI.transfer(address);
val3 = SPI.transfer(0);
deselect();
// reverse sort (largest in val1) because this is te expected order for TX_BUFFER
if (val3 > val2) {val = val3; val3 = val2; val2 = val; } //Swap(val3,val2)
if (val2 > val1) {val = val2; val2 = val1, val1 = val; } //Swap(val2,val1)
if (val3 > val2) {val = val3; val3 = val2, val2 = val; } //Swap(val3,val2)
return val2;
}
/* Known SPI/26MHz synchronization bug (see CC1101 errata)
This issue affects the following registers: SPI status byte (fields STATE and FIFO_BYTES_AVAILABLE),
FREQEST or RSSI while the receiver is active, MARCSTATE at any time other than an IDLE radio state,
RXBYTES when receiving or TXBYTES when transmitting, and WORTIME1/WORTIME0 at any time.*/
//uint8_t CC1101::readRegisterWithSyncProblem(uint8_t address, uint8_t registerType)
uint8_t /* ICACHE_RAM_ATTR */ CC1101::readRegisterWithSyncProblem(uint8_t address, uint8_t registerType)
{
uint8_t value1, value2;
value1 = readRegister(address | registerType);
//if two consecutive reads gives us the same result then we know we are ok
do
{
value2 = value1;
value1 = readRegister(address | registerType);
}
while (value1 != value2);
return value1;
}
//registerType = CC1101_CONFIG_REGISTER or CC1101_STATUS_REGISTER
uint8_t CC1101::readRegister(uint8_t address, uint8_t registerType)
{
switch (address)
{
case CC1101_FREQEST:
case CC1101_MARCSTATE:
case CC1101_RXBYTES:
case CC1101_TXBYTES:
case CC1101_WORTIME1:
case CC1101_WORTIME0:
return readRegisterWithSyncProblem(address, registerType);
default:
return readRegister(address | registerType);
}
}
void CC1101::writeBurstRegister(uint8_t address, uint8_t* data, uint8_t length)
{
uint8_t i;
select();
spi_waitMiso();
SPI.transfer(address | CC1101_WRITE_BURST);
for (i = 0; i < length; i++) {
SPI.transfer(data[i]);
}
deselect();
}
void CC1101::readBurstRegister(uint8_t* buffer, uint8_t address, uint8_t length)
{
uint8_t i;
select();
spi_waitMiso();
SPI.transfer(address | CC1101_READ_BURST);
for (i = 0; i < length; i++) {
buffer[i] = SPI.transfer(0x00);
}
deselect();
}
//wait for fixed length in rx fifo
uint8_t CC1101::receiveData(CC1101Packet* packet, uint8_t length)
{
uint8_t rxBytes = readRegisterWithSyncProblem(CC1101_RXBYTES, CC1101_STATUS_REGISTER);
rxBytes = rxBytes & CC1101_BITS_RX_BYTES_IN_FIFO;
//check for rx fifo overflow
if ((readRegisterWithSyncProblem(CC1101_MARCSTATE, CC1101_STATUS_REGISTER) & CC1101_BITS_MARCSTATE) == CC1101_MARCSTATE_RXFIFO_OVERFLOW)
{
writeCommand(CC1101_SIDLE); //idle
writeCommand(CC1101_SFRX); //flush RX buffer
writeCommand(CC1101_SRX); //switch to RX state
}
else if (rxBytes == length)
{
readBurstRegister(packet->data, CC1101_RXFIFO, rxBytes);
//continue RX
writeCommand(CC1101_SIDLE); //idle
writeCommand(CC1101_SFRX); //flush RX buffer
writeCommand(CC1101_SRX); //switch to RX state
packet->length = rxBytes;
}
else
{
//empty fifo
packet->length = 0;
}
return packet->length;
}
//This function is able to send packets bigger then the FIFO size.
void CC1101::sendData(CC1101Packet *packet)
{
uint8_t index = 0;
uint8_t txStatus, MarcState;
uint8_t length;
writeCommand(CC1101_SIDLE); //idle
txStatus = readRegisterWithSyncProblem(CC1101_TXBYTES, CC1101_STATUS_REGISTER);
//clear TX fifo if needed
if (txStatus & CC1101_BITS_TX_FIFO_UNDERFLOW)
{
writeCommand(CC1101_SIDLE); //idle
writeCommand(CC1101_SFTX); //flush TX buffer
}
writeCommand(CC1101_SIDLE); //idle
//determine how many bytes to send
length = (packet->length <= CC1101_DATA_LEN ? packet->length : CC1101_DATA_LEN);
writeBurstRegister(CC1101_TXFIFO, packet->data, length);
writeCommand(CC1101_SIDLE);
//start sending packet
writeCommand(CC1101_STX);
//continue sending when packet is bigger than 64 bytes
if (packet->length > CC1101_DATA_LEN)
{
index += length;
//loop until all bytes are transmitted
while (index < packet->length)
{
//check if there is free space in the fifo
while ((txStatus = (readRegisterMedian3(CC1101_TXBYTES | CC1101_STATUS_REGISTER) & CC1101_BITS_RX_BYTES_IN_FIFO)) > (CC1101_DATA_LEN - 2));
//calculate how many bytes we can send
length = (CC1101_DATA_LEN - txStatus);
length = ((packet->length - index) < length ? (packet->length - index) : length);
//send some more bytes
for (int i=0; i<length; i++)
writeRegister(CC1101_TXFIFO, packet->data[index+i]);
index += length;
}
}
//wait until transmission is finished (TXOFF_MODE is expected to be set to 0/IDLE or TXFIFO_UNDERFLOW)
do
{
MarcState = (readRegisterWithSyncProblem(CC1101_MARCSTATE, CC1101_STATUS_REGISTER) & CC1101_BITS_MARCSTATE);
// if (MarcState == CC1101_MARCSTATE_TXFIFO_UNDERFLOW) Serial.print(F("TXFIFO_UNDERFLOW occured in sendData() \n"));
}
while((MarcState != CC1101_MARCSTATE_IDLE) && (MarcState != CC1101_MARCSTATE_TXFIFO_UNDERFLOW));
}