#include "SX1262Interface.h" #include SX1262Interface::SX1262Interface(RADIOLIB_PIN_TYPE cs, RADIOLIB_PIN_TYPE irq, RADIOLIB_PIN_TYPE rst, RADIOLIB_PIN_TYPE busy, SPIClass &spi) : RadioLibInterface(cs, irq, rst, busy, spi, &lora), lora(&module) { } /// Initialise the Driver transport hardware and software. /// Make sure the Driver is properly configured before calling init(). /// \return true if initialisation succeeded. bool SX1262Interface::init() { if (!RadioLibInterface::init()) return false; // FIXME, move this to main SPI.begin(); float tcxoVoltage = 0; // None - we use an XTAL bool useRegulatorLDO = false; // Seems to depend on the connection to pin 9/DCC_SW - if an inductor DCDC? applyModemConfig(); int res = lora.begin(freq, bw, sf, cr, syncWord, power, currentLimit, preambleLength, tcxoVoltage, useRegulatorLDO); DEBUG_MSG("LORA init result %d\n", res); return res == ERR_NONE; } bool SX1262Interface::reconfigure() { applyModemConfig(); // set mode to standby int err = lora.standby(); assert(err == ERR_NONE); // configure publicly accessible settings err = lora.setSpreadingFactor(sf); assert(err == ERR_NONE); err = lora.setBandwidth(bw); assert(err == ERR_NONE); err = lora.setCodingRate(cr); assert(err == ERR_NONE); err = lora.setSyncWord(syncWord); assert(err == ERR_NONE); err = lora.setCurrentLimit(currentLimit); assert(err == ERR_NONE); err = lora.setPreambleLength(preambleLength); assert(err == ERR_NONE); err = lora.setFrequency(freq); assert(err == ERR_NONE); err = lora.setOutputPower(power); assert(err == ERR_NONE); assert(0); // FIXME - set mode back to receive? return true; }