SafeDetect
this is the working code for the xdot to read in serial from the pi and send it over LoRa
SxRadio.h
- Committer:
- Jenkins@KEILDM1.dc.multitech.prv
- Date:
- 2019-08-29
- Revision:
- 18:d7332302f5f1
- Parent:
- 16:4a382fe8f51b
- Child:
- 19:aa5b1fcd05be
File content as of revision 18:d7332302f5f1:
/*
/ _____) _ | |
( (____ _____ ____ _| |_ _____ ____| |__
\____ \| ___ | (_ _) ___ |/ ___) _ \
_____) ) ____| | | || |_| ____( (___| | | |
(______/|_____)_|_|_| \__)_____)\____)_| |_|
(C)2013 Semtech
Description: Generic radio driver definition
License: Revised BSD License, see LICENSE.TXT file include in the project
Maintainer: Miguel Luis and Gregory Cristian
*/
#ifndef __SXRADIO_H__
#define __SXRADIO_H__
#include <stdint.h>
#include "SxRadioEvents.h"
/*!
* \brief Radio driver definition
*/
class SxRadio
{
public:
/*!
* Radio driver supported modems
*/
typedef enum
{
MODEM_FSK = 0,
MODEM_LORA,
}RadioModems_t;
/*!
* Radio driver internal state machine states definition
*/
typedef enum
{
RF_IDLE = 0,
RF_RX_RUNNING,
RF_TX_RUNNING,
RF_CAD,
RF_LBT
}RadioState_t;
SxRadio(uint32_t WakeupTime) : WakeupTime(WakeupTime), freq_offset(0), State(RF_IDLE), Modem(MODEM_LORA) { }
virtual ~SxRadio() {};
/*!
* \brief Initializes the radio
*
* \param [IN] events Structure containing the driver callback functions
*/
virtual void Init( SxRadioEvents *events ) = 0;
/*!
* \brief Prepares the radio for destruction
*/
virtual void Terminate( void ) = 0;
/*!
* Return current radio status
*
* \param status Radio status.[RF_IDLE, RF_RX_RUNNING, RF_TX_RUNNING]
*/
virtual RadioState_t Status( void ) { return State; }
/*!
* \brief Configures the radio with the given modem
*
* \param [IN] modem Modem to be used [0: FSK, 1: LoRa]
*/
virtual void SetModem( RadioModems_t modem ) = 0;
virtual RadioModems_t GetModem( void ) { return Modem; }
/*!
* \brief Sets the channel frequency
*
* \param [IN] freq Channel RF frequency
*/
virtual void SetChannel( uint32_t freq ) = 0;
/*!
* \brief Sets the channels configuration
*
* \param [IN] modem Radio modem to be used [0: FSK, 1: LoRa]
* \param [IN] freq Channel RF frequency
* \param [IN] rssiThresh RSSI threshold
* \param [IN] rssiVal pointer to variable to hold RSSI value if desired - ignored if NULL
*
* \retval isFree [true: Channel is free, false: Channel is not free]
*/
virtual bool IsChannelFree( RadioModems_t modem, uint32_t freq, int16_t rssiThresh, uint32_t timeout = 5000, int16_t *rssiVal = NULL ) = 0;
/*!
* \brief Generates a 32 bits random value based on the RSSI readings
*
* \remark This function sets the radio in LoRa modem mode and disables
* all interrupts.
* After calling this function either Radio.SetRxConfig or
* Radio.SetTxConfig functions must be called.
*
* \retval randomValue 32 bits random value
*/
virtual uint32_t Random( void ) = 0;
/*!
* \brief Sets the reception parameters
*
* \param [IN] modem Radio modem to be used [0: FSK, 1: LoRa]
* \param [IN] bandwidth Sets the bandwidth
* FSK : >= 2600 and <= 250000 Hz
* LoRa: [0: 125 kHz, 1: 250 kHz,
* 2: 500 kHz, 3: Reserved]
* \param [IN] datarate Sets the Datarate
* FSK : 600..300000 bits/s
* LoRa: [6: 64, 7: 128, 8: 256, 9: 512,
* 10: 1024, 11: 2048, 12: 4096 chips]
* \param [IN] coderate Sets the coding rate (LoRa only)
* FSK : N/A ( set to 0 )
* LoRa: [1: 4/5, 2: 4/6, 3: 4/7, 4: 4/8]
* \param [IN] bandwidthAfc Sets the AFC Bandwidth (FSK only)
* FSK : >= 2600 and <= 250000 Hz
* LoRa: N/A ( set to 0 )
* \param [IN] preambleLen Sets the Preamble length
* FSK : Number of bytes
* LoRa: Length in symbols (the hardware adds 4 more symbols)
* \param [IN] symbTimeout Sets the RxSingle timeout value (LoRa only)
* FSK : N/A ( set to 0 )
* LoRa: timeout in symbols
* \param [IN] fixLen Fixed length packets [0: variable, 1: fixed]
* \param [IN] payloadLen Sets payload length when fixed length is used
* \param [IN] crcOn Enables/Disables the CRC [0: OFF, 1: ON]
* \param [IN] FreqHopOn Enables disables the intra-packet frequency hopping
* FSK : N/A ( set to 0 )
* LoRa: [0: OFF, 1: ON]
* \param [IN] HopPeriod Number of symbols bewteen each hop
* FSK : N/A ( set to 0 )
* LoRa: Number of symbols
* \param [IN] iqInverted Inverts IQ signals (LoRa only)
* FSK : N/A ( set to 0 )
* LoRa: [0: not inverted, 1: inverted]
* \param [IN] rxContinuous Sets the reception in continuous mode
* [false: single mode, true: continuous mode]
* \param [IN] fskPad Duration in ms to increase FSK rx window
* FSK: time in ms to increase FSK rx window duration
* LoRa: N/A
*/
virtual void SetRxConfig( RadioModems_t modem, uint32_t bandwidth,
uint32_t datarate, uint8_t coderate,
uint32_t bandwidthAfc, uint16_t preambleLen,
uint16_t symbTimeout, bool fixLen,
uint8_t payloadLen,
bool crcOn, bool FreqHopOn, uint8_t HopPeriod,
bool iqInverted, bool rxContinuous , uint32_t fskPad = 0) = 0;
/*!
* \brief Sets the transmission parameters
*
* \param [IN] modem Radio modem to be used [0: FSK, 1: LoRa]
* \param [IN] power Sets the output power [dBm]
* \param [IN] fdev Sets the frequency deviation (FSK only)
* FSK : [Hz]
* LoRa: 0
* \param [IN] bandwidth Sets the bandwidth (LoRa only)
* FSK : 0
* LoRa: [0: 125 kHz, 1: 250 kHz,
* 2: 500 kHz, 3: Reserved]
* \param [IN] datarate Sets the Datarate
* FSK : 600..300000 bits/s
* LoRa: [6: 64, 7: 128, 8: 256, 9: 512,
* 10: 1024, 11: 2048, 12: 4096 chips]
* \param [IN] coderate Sets the coding rate (LoRa only)
* FSK : N/A ( set to 0 )
* LoRa: [1: 4/5, 2: 4/6, 3: 4/7, 4: 4/8]
* \param [IN] preambleLen Sets the preamble length
* FSK : Number of bytes
* LoRa: Length in symbols (the hardware adds 4 more symbols)
* \param [IN] fixLen Fixed length packets [0: variable, 1: fixed]
* \param [IN] crcOn Enables disables the CRC [0: OFF, 1: ON]
* \param [IN] FreqHopOn Enables disables the intra-packet frequency hopping
* FSK : N/A ( set to 0 )
* LoRa: [0: OFF, 1: ON]
* \param [IN] HopPeriod Number of symbols bewteen each hop
* FSK : N/A ( set to 0 )
* LoRa: Number of symbols
* \param [IN] iqInverted Inverts IQ signals (LoRa only)
* FSK : N/A ( set to 0 )
* LoRa: [0: not inverted, 1: inverted]
* \param [IN] timeout Transmission timeout [us]
*/
virtual void SetTxConfig( RadioModems_t modem, int8_t power, uint32_t fdev,
uint32_t bandwidth, uint32_t datarate,
uint8_t coderate, uint16_t preambleLen,
bool fixLen, bool crcOn, bool FreqHopOn,
uint8_t HopPeriod, bool iqInverted, uint32_t timeout ) = 0;
virtual void SetTxPower(int8_t power) = 0;
virtual void SetTxContinuousWave( uint32_t freq, int8_t power, uint16_t time ) = 0;
/*!
* \brief Checks if the given RF frequency is supported by the hardware
*
* \param [IN] frequency RF frequency to be checked
* \retval isSupported [true: supported, false: unsupported]
*/
virtual bool CheckRfFrequency( uint32_t frequency ) { return true; }
/*!
* \brief Computes the packet time on air for the given payload
*
* \Remark Can only be called once SetRxConfig or SetTxConfig have been called
*
* \param [IN] modem Radio modem to be used [0: FSK, 1: LoRa]
* \param [IN] pktLen Packet payload length
*
* \retval airTime Computed airTime for the given packet payload length
*/
virtual double TimeOnAir( RadioModems_t modem, uint8_t pktLen ) = 0;
/*!
* \brief Sends the buffer of size. Prepares the packet to be sent and sets
* the radio in transmission
*
* \param [IN]: buffer Buffer pointer
* \param [IN]: size Buffer size
*/
virtual void Send( const uint8_t *buffer, uint8_t size ) = 0;
/*!
* \brief Sets the radio in sleep mode
*/
virtual void Sleep( void ) = 0;
/*!
* \brief Sets the radio in standby mode
*/
virtual void Standby( void ) = 0;
/*!
* \brief Sets the radio in reception mode for the given time
* \param [IN] timeout Reception timeout [us]
* [0: continuous, others timeout]
*/
virtual void Rx( uint32_t timeout ) = 0;
/*!
* \brief Start a Channel Activity Detection
*/
virtual void StartCad( void ) = 0;
/*!
* \brief Reads the current RSSI value
*
* \retval rssiValue Current RSSI value in [dBm]
*/
virtual int16_t Rssi( RadioModems_t modem ) = 0;
/*!
* \brief Writes the radio register at the specified address
*
* \param [IN]: addr Register address
* \param [IN]: data New register value
*/
virtual void Write( uint8_t addr, uint8_t data ) = 0;
/*!
* \brief Reads the radio register at the specified address
*
* \param [IN]: addr Register address
* \retval data Register value
*/
virtual uint8_t Read ( uint8_t addr ) = 0;
/*!
* \brief Writes multiple radio registers starting at address
*
* \param [IN] addr First Radio register address
* \param [IN] buffer Buffer containing the new register's values
* \param [IN] size Number of registers to be written
*/
virtual void WriteBuffer( uint8_t addr, const uint8_t *buffer, uint8_t size ) = 0;
/*!
* \brief Reads multiple radio registers starting at address
*
* \param [IN] addr First Radio register address
* \param [OUT] buffer Buffer where to copy the registers data
* \param [IN] size Number of registers to be read
*/
virtual void ReadBuffer( uint8_t addr, uint8_t *buffer, uint8_t size ) = 0;
virtual void SignalMacEvent(void) {};
virtual void SignalLinkEvent(void) {};
virtual void ResetRadio(void) {};
virtual uint32_t GetTimeOnAir(void) = 0;
void GrabMutex(void) { mutex.lock(); }
void ReleaseMutex(void) { mutex.unlock(); }
int32_t GetFrequencyOffset() { return freq_offset; }
void SetFrequencyOffset(int32_t offset) { freq_offset = offset; }
const uint32_t WakeupTime;
protected:
int32_t freq_offset;
RadioState_t State;
RadioModems_t Modem;
/*!
* Access protection
*/
Mutex mutex;
};
#endif // __SXRADIO_H__