commit/17416221d63f92dc9b0703ebeeb187e7dd3f9bdb/_module_8h_source.html

 #if !defined(_RADIOLIB_MODULE_H)

 #define _RADIOLIB_MODULE_H


 #include "TypeDef.h"

 #include "Hal.h"


 #if defined(RADIOLIB_BUILD_ARDUINO)

   #include <SPI.h>

 #endif


 #if defined(STM32WLxx)

   #include <SubGhz.h>

 #endif


 #define END_OF_MODE_TABLE    { Module::MODE_END_OF_TABLE, {} }


 class Module {

   public:

     static const size_t RFSWITCH_MAX_PINS = 3;


     struct RfSwitchMode_t {

       uint8_t mode;

       uint32_t values[RFSWITCH_MAX_PINS];

     };


     enum OpMode_t {

       MODE_END_OF_TABLE = 0,

       MODE_IDLE,

       MODE_RX,

       MODE_TX,

     };


     #if defined(RADIOLIB_BUILD_ARDUINO)

     Module(uint32_t cs, uint32_t irq, uint32_t rst, uint32_t gpio = RADIOLIB_NC);


     Module(uint32_t cs, uint32_t irq, uint32_t rst, uint32_t gpio, SPIClass& spi, SPISettings spiSettings = RADIOLIB_DEFAULT_SPI_SETTINGS);

     #endif


     Module(RadioLibHal *hal, uint32_t cs, uint32_t irq, uint32_t rst, uint32_t gpio = RADIOLIB_NC);


     Module(const Module& mod);


     Module& operator=(const Module& mod);


     // public member variables

     RadioLibHal* hal = NULL;


     uint8_t SPIreadCommand = 0b00000000;


     uint8_t SPIwriteCommand = 0b10000000;


     uint8_t SPInopCommand = 0x00;


     uint8_t SPIstatusCommand = 0x00;


     uint8_t SPIaddrWidth = 8;


     bool SPIstreamType = false;


     int16_t SPIstreamError = RADIOLIB_ERR_UNKNOWN;


     typedef int16_t (*SPIparseStatusCb_t)(uint8_t in);


     SPIparseStatusCb_t SPIparseStatusCb = nullptr;


     #if defined(RADIOLIB_INTERRUPT_TIMING)


     typedef void (*TimerSetupCb_t)(uint32_t len);


     TimerSetupCb_t TimerSetupCb = nullptr;


     volatile bool TimerFlag = false;


     #endif


     // basic methods


     void init();


     void term();


     // SPI methods


     int16_t SPIgetRegValue(uint16_t reg, uint8_t msb = 7, uint8_t lsb = 0);


     int16_t SPIsetRegValue(uint16_t reg, uint8_t value, uint8_t msb = 7, uint8_t lsb = 0, uint8_t checkInterval = 2, uint8_t checkMask = 0xFF);


     void SPIreadRegisterBurst(uint16_t reg, size_t numBytes, uint8_t* inBytes);


     uint8_t SPIreadRegister(uint16_t reg);


     void SPIwriteRegisterBurst(uint16_t reg, uint8_t* data, size_t numBytes);


     void SPIwriteRegister(uint16_t reg, uint8_t data);


     void SPItransfer(uint8_t cmd, uint16_t reg, uint8_t* dataOut, uint8_t* dataIn, size_t numBytes);


     int16_t SPIcheckStream();


     int16_t SPIreadStream(uint8_t cmd, uint8_t* data, size_t numBytes, bool waitForGpio = true, bool verify = true);


     int16_t SPIreadStream(uint8_t* cmd, uint8_t cmdLen, uint8_t* data, size_t numBytes, bool waitForGpio = true, bool verify = true);


     int16_t SPIwriteStream(uint8_t cmd, uint8_t* data, size_t numBytes, bool waitForGpio = true, bool verify = true);


     int16_t SPIwriteStream(uint8_t* cmd, uint8_t cmdLen, uint8_t* data, size_t numBytes, bool waitForGpio = true, bool verify = true);


     int16_t SPItransferStream(uint8_t* cmd, uint8_t cmdLen, bool write, uint8_t* dataOut, uint8_t* dataIn, size_t numBytes, bool waitForGpio, uint32_t timeout);


     // pin number access methods


     uint32_t getCs() const { return(csPin); }


     uint32_t getIrq() const { return(irqPin); }


     uint32_t getRst() const { return(rstPin); }


     uint32_t getGpio() const { return(gpioPin); }


     void setRfSwitchPins(uint32_t rxEn, uint32_t txEn);


     void setRfSwitchTable(const uint32_t (&pins)[RFSWITCH_MAX_PINS], const RfSwitchMode_t table[]);


     const RfSwitchMode_t *findRfSwitchMode(uint8_t mode) const;


     void setRfSwitchState(uint8_t mode);


     void waitForMicroseconds(uint32_t start, uint32_t len);


     static uint8_t flipBits(uint8_t b);


     static uint16_t flipBits16(uint16_t i);


     static void hexdump(uint8_t* data, size_t len, uint32_t offset = 0, uint8_t width = 1, bool be = false);


     void regdump(uint16_t start, size_t len);


     #if defined(RADIOLIB_DEBUG) and defined(RADIOLIB_BUILD_ARDUINO)

     static size_t serialPrintf(const char* format, ...);

     #endif


 #if !defined(RADIOLIB_GODMODE)

   private:

 #endif

     uint32_t csPin = RADIOLIB_NC;

     uint32_t irqPin = RADIOLIB_NC;

     uint32_t rstPin = RADIOLIB_NC;

     uint32_t gpioPin = RADIOLIB_NC;


     // RF switch pins and table

     uint32_t rfSwitchPins[RFSWITCH_MAX_PINS] = { RADIOLIB_NC, RADIOLIB_NC, RADIOLIB_NC };

     const RfSwitchMode_t *rfSwitchTable = nullptr;


     #if defined(RADIOLIB_INTERRUPT_TIMING)

     uint32_t prevTimingLen = 0;

     #endif

 };


 #endif

Module
Implements all common low-level methods to control the wireless module. Every module class contains o...
Definition: Module.h:28

Module::SPIgetRegValue
int16_t SPIgetRegValue(uint16_t reg, uint8_t msb=7, uint8_t lsb=0)
SPI read method that automatically masks unused bits. This method is the preferred SPI read mechanism...
Definition: Module.cpp:54

Module::SPIstatusCommand
uint8_t SPIstatusCommand
Basic SPI status read command. Defaults to 0x00.
Definition: Module.h:139

Module::SPIsetRegValue
int16_t SPIsetRegValue(uint16_t reg, uint8_t value, uint8_t msb=7, uint8_t lsb=0, uint8_t checkInterval=2, uint8_t checkMask=0xFF)
Overwrite-safe SPI write method with verification. This method is the preferred SPI write mechanism.
Definition: Module.cpp:64

Module::RFSWITCH_MAX_PINS
static const size_t RFSWITCH_MAX_PINS
The maximum number of pins supported by the RF switch code.
Definition: Module.h:39

Module::flipBits16
static uint16_t flipBits16(uint16_t i)
Function to reflect bits within an integer.
Definition: Module.cpp:382

Module::SPIstreamType
bool SPIstreamType
Whether the SPI interface is stream-type (e.g. SX126x) or register-type (e.g. SX127x)....
Definition: Module.h:150

Module::SPIwriteRegister
void SPIwriteRegister(uint16_t reg, uint8_t data)
SPI basic write method. Use of this method is reserved for special cases, SPIsetRegValue should be us...
Definition: Module.cpp:132

Module::hal
RadioLibHal * hal
Hardware abstraction layer to be used.
Definition: Module.h:119

Module::term
void term()
Terminate low-level module control.
Definition: Module.cpp:49

Module::SPInopCommand
uint8_t SPInopCommand
Basic SPI no-operation command. Defaults to 0x00.
Definition: Module.h:134

Module::waitForMicroseconds
void waitForMicroseconds(uint32_t start, uint32_t len)
Wait for time to elapse, either using the microsecond timer, or the TimerFlag. Note that in interrupt...
Definition: Module.cpp:357

Module::operator=
Module & operator=(const Module &mod)
Overload for assignment operator.
Definition: Module.cpp:33

Module::getGpio
uint32_t getGpio() const
Access method to get the pin number of second interrupt/GPIO.
Definition: Module.h:352

Module::findRfSwitchMode
const RfSwitchMode_t * findRfSwitchMode(uint8_t mode) const
Find a mode in the RfSwitchTable.
Definition: Module.cpp:497

Module::OpMode_t
OpMode_t
Definition: Module.h:58

Module::MODE_TX
@ MODE_TX
Definition: Module.h:68

Module::MODE_IDLE
@ MODE_IDLE
Definition: Module.h:64

Module::MODE_RX
@ MODE_RX
Definition: Module.h:66

Module::MODE_END_OF_TABLE
@ MODE_END_OF_TABLE
Definition: Module.h:62

Module::SPIcheckStream
int16_t SPIcheckStream()
Method to check the result of last SPI stream transfer.
Definition: Module.cpp:224

Module::SPIstreamError
int16_t SPIstreamError
The last recorded SPI stream error.
Definition: Module.h:155

Module::SPIwriteStream
int16_t SPIwriteStream(uint8_t cmd, uint8_t *data, size_t numBytes, bool waitForGpio=true, bool verify=true)
Method to perform a write transaction with SPI stream.
Definition: Module.cpp:207

Module::SPItransfer
void SPItransfer(uint8_t cmd, uint16_t reg, uint8_t *dataOut, uint8_t *dataIn, size_t numBytes)
SPI single transfer method.
Definition: Module.cpp:141

Module::setRfSwitchPins
void setRfSwitchPins(uint32_t rxEn, uint32_t txEn)
Some modules contain external RF switch controlled by pins. This function gives RadioLib control over...
Definition: Module.cpp:474

Module::flipBits
static uint8_t flipBits(uint8_t b)
Function to reflect bits within a byte.
Definition: Module.cpp:375

Module::Module
Module(RadioLibHal *hal, uint32_t cs, uint32_t irq, uint32_t rst, uint32_t gpio=RADIOLIB_NC)
Module constructor.
Definition: Module.cpp:25

Module::SPIreadCommand
uint8_t SPIreadCommand
Basic SPI read command. Defaults to 0x00.
Definition: Module.h:124

Module::SPIreadRegisterBurst
void SPIreadRegisterBurst(uint16_t reg, size_t numBytes, uint8_t *inBytes)
SPI burst read method.
Definition: Module.cpp:103

Module::SPIparseStatusCb_t
int16_t(* SPIparseStatusCb_t)(uint8_t in)
SPI status parsing callback typedef.
Definition: Module.h:160

Module::SPIreadRegister
uint8_t SPIreadRegister(uint16_t reg)
SPI basic read method. Use of this method is reserved for special cases, SPIgetRegValue should be use...
Definition: Module.cpp:112

Module::getCs
uint32_t getCs() const
Access method to get the pin number of SPI chip select.
Definition: Module.h:334

Module::getIrq
uint32_t getIrq() const
Access method to get the pin number of interrupt/GPIO.
Definition: Module.h:340

Module::SPIreadStream
int16_t SPIreadStream(uint8_t cmd, uint8_t *data, size_t numBytes, bool waitForGpio=true, bool verify=true)
Method to perform a read transaction with SPI stream.
Definition: Module.cpp:190

Module::regdump
void regdump(uint16_t start, size_t len)
Function to dump device registers as hex into the debug port.
Definition: Module.cpp:435

Module::SPIaddrWidth
uint8_t SPIaddrWidth
SPI address width. Defaults to 8, currently only supports 8 and 16-bit addresses.
Definition: Module.h:144

Module::setRfSwitchTable
void setRfSwitchTable(const uint32_t(&pins)[RFSWITCH_MAX_PINS], const RfSwitchMode_t table[])
Some modules contain external RF switch controlled by pins. This function gives RadioLib control over...
Definition: Module.cpp:490

Module::SPItransferStream
int16_t SPItransferStream(uint8_t *cmd, uint8_t cmdLen, bool write, uint8_t *dataOut, uint8_t *dataIn, size_t numBytes, bool waitForGpio, uint32_t timeout)
SPI single transfer method for modules with stream-type SPI interface (SX126x, SX128x etc....
Definition: Module.cpp:243

Module::hexdump
static void hexdump(uint8_t *data, size_t len, uint32_t offset=0, uint8_t width=1, bool be=false)
Function to dump data as hex into the debug port.
Definition: Module.cpp:390

Module::init
void init()
Initialize low-level module control.
Definition: Module.cpp:43

Module::getRst
uint32_t getRst() const
Access method to get the pin number of hardware reset pin.
Definition: Module.h:346

Module::SPIwriteCommand
uint8_t SPIwriteCommand
Basic SPI write command. Defaults to 0x80.
Definition: Module.h:129

Module::SPIwriteRegisterBurst
void SPIwriteRegisterBurst(uint16_t reg, uint8_t *data, size_t numBytes)
SPI burst write method.
Definition: Module.cpp:123

Module::SPIparseStatusCb
SPIparseStatusCb_t SPIparseStatusCb
Callback to function that will parse the module-specific status codes to RadioLib status codes....
Definition: Module.h:166

Module::setRfSwitchState
void setRfSwitchState(uint8_t mode)
Set RF switch state.
Definition: Module.cpp:507

RadioLibHal
Definition: Hal.h:11

RADIOLIB_ERR_UNKNOWN
#define RADIOLIB_ERR_UNKNOWN
There was an unexpected, unknown error. If you see this, something went incredibly wrong....
Definition: TypeDef.h:110

Module::RfSwitchMode_t
Definition: Module.h:46