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- // RH_RF69.cpp
- //
- // Copyright (C) 2011 Mike McCauley
- // $Id: RH_RF69.cpp,v 1.26 2015/12/11 01:10:24 mikem Exp $
-
- #include <RH_RF69.h>
-
- // Interrupt vectors for the 3 Arduino interrupt pins
- // Each interrupt can be handled by a different instance of RH_RF69, allowing you to have
- // 2 or more RF69s per Arduino
- RH_RF69* RH_RF69::_deviceForInterrupt[RH_RF69_NUM_INTERRUPTS] = {0, 0, 0};
- uint8_t RH_RF69::_interruptCount = 0; // Index into _deviceForInterrupt for next device
-
- // These are indexed by the values of ModemConfigChoice
- // Stored in flash (program) memory to save SRAM
- // It is important to keep the modulation index for FSK between 0.5 and 10
- // modulation index = 2 * Fdev / BR
- // Note that I have not had much success with FSK with Fd > ~5
- // You have to construct these by hand, using the data from the RF69 Datasheet :-(
- // or use the SX1231 starter kit software (Ctl-Alt-N to use that without a connected radio)
- #define CONFIG_FSK (RH_RF69_DATAMODUL_DATAMODE_PACKET | RH_RF69_DATAMODUL_MODULATIONTYPE_FSK | RH_RF69_DATAMODUL_MODULATIONSHAPING_FSK_NONE)
- #define CONFIG_GFSK (RH_RF69_DATAMODUL_DATAMODE_PACKET | RH_RF69_DATAMODUL_MODULATIONTYPE_FSK | RH_RF69_DATAMODUL_MODULATIONSHAPING_FSK_BT1_0)
- #define CONFIG_OOK (RH_RF69_DATAMODUL_DATAMODE_PACKET | RH_RF69_DATAMODUL_MODULATIONTYPE_OOK | RH_RF69_DATAMODUL_MODULATIONSHAPING_OOK_NONE)
-
- // Choices for RH_RF69_REG_37_PACKETCONFIG1:
- #define CONFIG_NOWHITE (RH_RF69_PACKETCONFIG1_PACKETFORMAT_VARIABLE | RH_RF69_PACKETCONFIG1_DCFREE_NONE | RH_RF69_PACKETCONFIG1_CRC_ON | RH_RF69_PACKETCONFIG1_ADDRESSFILTERING_NONE)
- #define CONFIG_WHITE (RH_RF69_PACKETCONFIG1_PACKETFORMAT_VARIABLE | RH_RF69_PACKETCONFIG1_DCFREE_WHITENING | RH_RF69_PACKETCONFIG1_CRC_ON | RH_RF69_PACKETCONFIG1_ADDRESSFILTERING_NONE)
- #define CONFIG_MANCHESTER (RH_RF69_PACKETCONFIG1_PACKETFORMAT_VARIABLE | RH_RF69_PACKETCONFIG1_DCFREE_MANCHESTER | RH_RF69_PACKETCONFIG1_CRC_ON | RH_RF69_PACKETCONFIG1_ADDRESSFILTERING_NONE)
- PROGMEM static const RH_RF69::ModemConfig MODEM_CONFIG_TABLE[] =
- {
- // 02, 03, 04, 05, 06, 19, 1a, 37
- // FSK, No Manchester, no shaping, whitening, CRC, no address filtering
- // AFC BW == RX BW == 2 x bit rate
- // Low modulation indexes of ~ 1 at slow speeds do not seem to work very well. Choose MI of 2.
- { CONFIG_FSK, 0x3e, 0x80, 0x00, 0x52, 0xf4, 0xf4, CONFIG_WHITE}, // FSK_Rb2Fd5
- { CONFIG_FSK, 0x34, 0x15, 0x00, 0x4f, 0xf4, 0xf4, CONFIG_WHITE}, // FSK_Rb2_4Fd4_8
- { CONFIG_FSK, 0x1a, 0x0b, 0x00, 0x9d, 0xf4, 0xf4, CONFIG_WHITE}, // FSK_Rb4_8Fd9_6
-
- { CONFIG_FSK, 0x0d, 0x05, 0x01, 0x3b, 0xf4, 0xf4, CONFIG_WHITE}, // FSK_Rb9_6Fd19_2
- { CONFIG_FSK, 0x06, 0x83, 0x02, 0x75, 0xf3, 0xf3, CONFIG_WHITE}, // FSK_Rb19_2Fd38_4
- { CONFIG_FSK, 0x03, 0x41, 0x04, 0xea, 0xf2, 0xf2, CONFIG_WHITE}, // FSK_Rb38_4Fd76_8
-
- { CONFIG_FSK, 0x02, 0x2c, 0x07, 0xae, 0xe2, 0xe2, CONFIG_WHITE}, // FSK_Rb57_6Fd120
- { CONFIG_FSK, 0x01, 0x00, 0x08, 0x00, 0xe1, 0xe1, CONFIG_WHITE}, // FSK_Rb125Fd125
- { CONFIG_FSK, 0x00, 0x80, 0x10, 0x00, 0xe0, 0xe0, CONFIG_WHITE}, // FSK_Rb250Fd250
- { CONFIG_FSK, 0x02, 0x40, 0x03, 0x33, 0x42, 0x42, CONFIG_WHITE}, // FSK_Rb55555Fd50
-
- // 02, 03, 04, 05, 06, 19, 1a, 37
- // GFSK (BT=1.0), No Manchester, whitening, CRC, no address filtering
- // AFC BW == RX BW == 2 x bit rate
- { CONFIG_GFSK, 0x3e, 0x80, 0x00, 0x52, 0xf4, 0xf5, CONFIG_WHITE}, // GFSK_Rb2Fd5
- { CONFIG_GFSK, 0x34, 0x15, 0x00, 0x4f, 0xf4, 0xf4, CONFIG_WHITE}, // GFSK_Rb2_4Fd4_8
- { CONFIG_GFSK, 0x1a, 0x0b, 0x00, 0x9d, 0xf4, 0xf4, CONFIG_WHITE}, // GFSK_Rb4_8Fd9_6
-
- { CONFIG_GFSK, 0x0d, 0x05, 0x01, 0x3b, 0xf4, 0xf4, CONFIG_WHITE}, // GFSK_Rb9_6Fd19_2
- { CONFIG_GFSK, 0x06, 0x83, 0x02, 0x75, 0xf3, 0xf3, CONFIG_WHITE}, // GFSK_Rb19_2Fd38_4
- { CONFIG_GFSK, 0x03, 0x41, 0x04, 0xea, 0xf2, 0xf2, CONFIG_WHITE}, // GFSK_Rb38_4Fd76_8
-
- { CONFIG_GFSK, 0x02, 0x2c, 0x07, 0xae, 0xe2, 0xe2, CONFIG_WHITE}, // GFSK_Rb57_6Fd120
- { CONFIG_GFSK, 0x01, 0x00, 0x08, 0x00, 0xe1, 0xe1, CONFIG_WHITE}, // GFSK_Rb125Fd125
- { CONFIG_GFSK, 0x00, 0x80, 0x10, 0x00, 0xe0, 0xe0, CONFIG_WHITE}, // GFSK_Rb250Fd250
- { CONFIG_GFSK, 0x02, 0x40, 0x03, 0x33, 0x42, 0x42, CONFIG_WHITE}, // GFSK_Rb55555Fd50
-
- // 02, 03, 04, 05, 06, 19, 1a, 37
- // OOK, No Manchester, no shaping, whitening, CRC, no address filtering
- // with the help of the SX1231 configuration program
- // AFC BW == RX BW
- // All OOK configs have the default:
- // Threshold Type: Peak
- // Peak Threshold Step: 0.5dB
- // Peak threshiold dec: ONce per chip
- // Fixed threshold: 6dB
- { CONFIG_OOK, 0x7d, 0x00, 0x00, 0x10, 0x88, 0x88, CONFIG_WHITE}, // OOK_Rb1Bw1
- { CONFIG_OOK, 0x68, 0x2b, 0x00, 0x10, 0xf1, 0xf1, CONFIG_WHITE}, // OOK_Rb1_2Bw75
- { CONFIG_OOK, 0x34, 0x15, 0x00, 0x10, 0xf5, 0xf5, CONFIG_WHITE}, // OOK_Rb2_4Bw4_8
- { CONFIG_OOK, 0x1a, 0x0b, 0x00, 0x10, 0xf4, 0xf4, CONFIG_WHITE}, // OOK_Rb4_8Bw9_6
- { CONFIG_OOK, 0x0d, 0x05, 0x00, 0x10, 0xf3, 0xf3, CONFIG_WHITE}, // OOK_Rb9_6Bw19_2
- { CONFIG_OOK, 0x06, 0x83, 0x00, 0x10, 0xf2, 0xf2, CONFIG_WHITE}, // OOK_Rb19_2Bw38_4
- { CONFIG_OOK, 0x03, 0xe8, 0x00, 0x10, 0xe2, 0xe2, CONFIG_WHITE}, // OOK_Rb32Bw64
-
- // { CONFIG_FSK, 0x68, 0x2b, 0x00, 0x52, 0x55, 0x55, CONFIG_WHITE}, // works: Rb1200 Fd 5000 bw10000, DCC 400
- // { CONFIG_FSK, 0x0c, 0x80, 0x02, 0x8f, 0x52, 0x52, CONFIG_WHITE}, // works 10/40/80
- // { CONFIG_FSK, 0x0c, 0x80, 0x02, 0x8f, 0x53, 0x53, CONFIG_WHITE}, // works 10/40/40
-
- };
- RH_RF69::RH_RF69(uint8_t slaveSelectPin, uint8_t interruptPin, RHGenericSPI& spi)
- :
- RHSPIDriver(slaveSelectPin, spi)
- {
- _interruptPin = interruptPin;
- _idleMode = RH_RF69_OPMODE_MODE_STDBY;
- _myInterruptIndex = 0xff; // Not allocated yet
- }
-
- void RH_RF69::setIdleMode(uint8_t idleMode)
- {
- _idleMode = idleMode;
- }
-
- bool RH_RF69::init()
- {
- if (!RHSPIDriver::init())
- return false;
-
- // Determine the interrupt number that corresponds to the interruptPin
- int interruptNumber = digitalPinToInterrupt(_interruptPin);
- if (interruptNumber == NOT_AN_INTERRUPT)
- return false;
- #ifdef RH_ATTACHINTERRUPT_TAKES_PIN_NUMBER
- interruptNumber = _interruptPin;
- #endif
-
- // Get the device type and check it
- // This also tests whether we are really connected to a device
- // My test devices return 0x24
- _deviceType = spiRead(RH_RF69_REG_10_VERSION);
- if (_deviceType == 00 ||
- _deviceType == 0xff)
- return false;
-
- // Add by Adrien van den Bossche <vandenbo@univ-tlse2.fr> for Teensy
- // ARM M4 requires the below. else pin interrupt doesn't work properly.
- // On all other platforms, its innocuous, belt and braces
- pinMode(_interruptPin, INPUT);
-
- // Set up interrupt handler
- // Since there are a limited number of interrupt glue functions isr*() available,
- // we can only support a limited number of devices simultaneously
- // ON some devices, notably most Arduinos, the interrupt pin passed in is actuallt the
- // interrupt number. You have to figure out the interruptnumber-to-interruptpin mapping
- // yourself based on knwledge of what Arduino board you are running on.
- if (_myInterruptIndex == 0xff)
- {
- // First run, no interrupt allocated yet
- if (_interruptCount <= RH_RF69_NUM_INTERRUPTS)
- _myInterruptIndex = _interruptCount++;
- else
- return false; // Too many devices, not enough interrupt vectors
- }
- _deviceForInterrupt[_myInterruptIndex] = this;
- if (_myInterruptIndex == 0)
- attachInterrupt(interruptNumber, isr0, RISING);
- else if (_myInterruptIndex == 1)
- attachInterrupt(interruptNumber, isr1, RISING);
- else if (_myInterruptIndex == 2)
- attachInterrupt(interruptNumber, isr2, RISING);
- else
- return false; // Too many devices, not enough interrupt vectors
-
- setModeIdle();
-
- // Configure important RH_RF69 registers
- // Here we set up the standard packet format for use by the RH_RF69 library:
- // 4 bytes preamble
- // 2 SYNC words 2d, d4
- // 2 CRC CCITT octets computed on the header, length and data (this in the modem config data)
- // 0 to 60 bytes data
- // RSSI Threshold -114dBm
- // We dont use the RH_RF69s address filtering: instead we prepend our own headers to the beginning
- // of the RH_RF69 payload
- spiWrite(RH_RF69_REG_3C_FIFOTHRESH, RH_RF69_FIFOTHRESH_TXSTARTCONDITION_NOTEMPTY | 0x0f); // thresh 15 is default
- // RSSITHRESH is default
- // spiWrite(RH_RF69_REG_29_RSSITHRESH, 220); // -110 dbM
- // SYNCCONFIG is default. SyncSize is set later by setSyncWords()
- // spiWrite(RH_RF69_REG_2E_SYNCCONFIG, RH_RF69_SYNCCONFIG_SYNCON); // auto, tolerance 0
- // PAYLOADLENGTH is default
- // spiWrite(RH_RF69_REG_38_PAYLOADLENGTH, RH_RF69_FIFO_SIZE); // max size only for RX
- // PACKETCONFIG 2 is default
- spiWrite(RH_RF69_REG_6F_TESTDAGC, RH_RF69_TESTDAGC_CONTINUOUSDAGC_IMPROVED_LOWBETAOFF);
- // If high power boost set previously, disable it
- spiWrite(RH_RF69_REG_5A_TESTPA1, RH_RF69_TESTPA1_NORMAL);
- spiWrite(RH_RF69_REG_5C_TESTPA2, RH_RF69_TESTPA2_NORMAL);
-
- // The following can be changed later by the user if necessary.
- // Set up default configuration
- uint8_t syncwords[] = { 0x2d, 0xd4 };
- setSyncWords(syncwords, sizeof(syncwords)); // Same as RF22's
- // Reasonably fast and reliable default speed and modulation
- setModemConfig(GFSK_Rb250Fd250);
-
- // 3 would be sufficient, but this is the same as RF22's
- setPreambleLength(4);
- // An innocuous ISM frequency, same as RF22's
- setFrequency(434.0);
- // No encryption
- setEncryptionKey(NULL);
- // +13dBm, same as power-on default
- setTxPower(13);
-
- return true;
- }
-
- // C++ level interrupt handler for this instance
- // RH_RF69 is unusual in Mthat it has several interrupt lines, and not a single, combined one.
- // On Moteino, only one of the several interrupt lines (DI0) from the RH_RF69 is connnected to the processor.
- // We use this to get PACKETSDENT and PAYLOADRADY interrupts.
- void RH_RF69::handleInterrupt()
- {
- // Get the interrupt cause
- uint8_t irqflags2 = spiRead(RH_RF69_REG_28_IRQFLAGS2);
- if (_mode == RHModeTx && (irqflags2 & RH_RF69_IRQFLAGS2_PACKETSENT))
- {
- // A transmitter message has been fully sent
- setModeIdle(); // Clears FIFO
- _txGood++;
- // Serial.println("PACKETSENT");
- }
- // Must look for PAYLOADREADY, not CRCOK, since only PAYLOADREADY occurs _after_ AES decryption
- // has been done
- if (_mode == RHModeRx && (irqflags2 & RH_RF69_IRQFLAGS2_PAYLOADREADY))
- {
- // A complete message has been received with good CRC
- _lastRssi = -((int8_t)(spiRead(RH_RF69_REG_24_RSSIVALUE) >> 1));
- _lastPreambleTime = millis();
-
- setModeIdle();
- // Save it in our buffer
- readFifo();
- // Serial.println("PAYLOADREADY");
- }
- }
-
- // Low level function reads the FIFO and checks the address
- // Caution: since we put our headers in what the RH_RF69 considers to be the payload, if encryption is enabled
- // we have to suffer the cost of decryption before we can determine whether the address is acceptable.
- // Performance issue?
- void RH_RF69::readFifo()
- {
- ATOMIC_BLOCK_START;
- _spi.beginTransaction();
- digitalWrite(_slaveSelectPin, LOW);
- _spi.transfer(RH_RF69_REG_00_FIFO); // Send the start address with the write mask off
- uint8_t payloadlen = _spi.transfer(0); // First byte is payload len (counting the headers)
- if (payloadlen <= RH_RF69_MAX_ENCRYPTABLE_PAYLOAD_LEN &&
- payloadlen >= RH_RF69_HEADER_LEN)
- {
- _rxHeaderTo = _spi.transfer(0);
- // Check addressing
- if (_promiscuous ||
- _rxHeaderTo == _thisAddress ||
- _rxHeaderTo == RH_BROADCAST_ADDRESS)
- {
- // Get the rest of the headers
- _rxHeaderFrom = _spi.transfer(0);
- _rxHeaderId = _spi.transfer(0);
- _rxHeaderFlags = _spi.transfer(0);
- // And now the real payload
- for (_bufLen = 0; _bufLen < (payloadlen - RH_RF69_HEADER_LEN); _bufLen++)
- _buf[_bufLen] = _spi.transfer(0);
- _rxGood++;
- _rxBufValid = true;
- }
- }
- digitalWrite(_slaveSelectPin, HIGH);
- _spi.endTransaction();
- ATOMIC_BLOCK_END;
- // Any junk remaining in the FIFO will be cleared next time we go to receive mode.
- }
-
- // These are low level functions that call the interrupt handler for the correct
- // instance of RH_RF69.
- // 3 interrupts allows us to have 3 different devices
- void RH_RF69::isr0()
- {
- if (_deviceForInterrupt[0])
- _deviceForInterrupt[0]->handleInterrupt();
- }
- void RH_RF69::isr1()
- {
- if (_deviceForInterrupt[1])
- _deviceForInterrupt[1]->handleInterrupt();
- }
- void RH_RF69::isr2()
- {
- if (_deviceForInterrupt[2])
- _deviceForInterrupt[2]->handleInterrupt();
- }
-
- int8_t RH_RF69::temperatureRead()
- {
- // Caution: must be ins standby.
- // setModeIdle();
- spiWrite(RH_RF69_REG_4E_TEMP1, RH_RF69_TEMP1_TEMPMEASSTART); // Start the measurement
- while (spiRead(RH_RF69_REG_4E_TEMP1) & RH_RF69_TEMP1_TEMPMEASRUNNING)
- ; // Wait for the measurement to complete
- return 166 - spiRead(RH_RF69_REG_4F_TEMP2); // Very approximate, based on observation
- }
-
- bool RH_RF69::setFrequency(float centre, float afcPullInRange)
- {
- // Frf = FRF / FSTEP
- uint32_t frf = (uint32_t)((centre * 1000000.0) / RH_RF69_FSTEP);
- spiWrite(RH_RF69_REG_07_FRFMSB, (frf >> 16) & 0xff);
- spiWrite(RH_RF69_REG_08_FRFMID, (frf >> 8) & 0xff);
- spiWrite(RH_RF69_REG_09_FRFLSB, frf & 0xff);
-
- // afcPullInRange is not used
- return true;
- }
-
- int8_t RH_RF69::rssiRead()
- {
- // Force a new value to be measured
- // Hmmm, this hangs forever!
- #if 0
- spiWrite(RH_RF69_REG_23_RSSICONFIG, RH_RF69_RSSICONFIG_RSSISTART);
- while (!(spiRead(RH_RF69_REG_23_RSSICONFIG) & RH_RF69_RSSICONFIG_RSSIDONE))
- ;
- #endif
- return -((int8_t)(spiRead(RH_RF69_REG_24_RSSIVALUE) >> 1));
- }
-
- void RH_RF69::setOpMode(uint8_t mode)
- {
- uint8_t opmode = spiRead(RH_RF69_REG_01_OPMODE);
- opmode &= ~RH_RF69_OPMODE_MODE;
- opmode |= (mode & RH_RF69_OPMODE_MODE);
- spiWrite(RH_RF69_REG_01_OPMODE, opmode);
-
- // Wait for mode to change.
- while (!(spiRead(RH_RF69_REG_27_IRQFLAGS1) & RH_RF69_IRQFLAGS1_MODEREADY))
- ;
- }
-
- void RH_RF69::setModeIdle()
- {
- if (_mode != RHModeIdle)
- {
- if (_power >= 18)
- {
- // If high power boost, return power amp to receive mode
- spiWrite(RH_RF69_REG_5A_TESTPA1, RH_RF69_TESTPA1_NORMAL);
- spiWrite(RH_RF69_REG_5C_TESTPA2, RH_RF69_TESTPA2_NORMAL);
- }
- setOpMode(_idleMode);
- _mode = RHModeIdle;
- }
- }
-
- bool RH_RF69::sleep()
- {
- if (_mode != RHModeSleep)
- {
- spiWrite(RH_RF69_REG_01_OPMODE, RH_RF69_OPMODE_MODE_SLEEP);
- _mode = RHModeSleep;
- }
- return true;
- }
-
- void RH_RF69::setModeRx()
- {
- if (_mode != RHModeRx)
- {
- if (_power >= 18)
- {
- // If high power boost, return power amp to receive mode
- spiWrite(RH_RF69_REG_5A_TESTPA1, RH_RF69_TESTPA1_NORMAL);
- spiWrite(RH_RF69_REG_5C_TESTPA2, RH_RF69_TESTPA2_NORMAL);
- }
- spiWrite(RH_RF69_REG_25_DIOMAPPING1, RH_RF69_DIOMAPPING1_DIO0MAPPING_01); // Set interrupt line 0 PayloadReady
- setOpMode(RH_RF69_OPMODE_MODE_RX); // Clears FIFO
- _mode = RHModeRx;
- }
- }
-
- void RH_RF69::setModeTx()
- {
- if (_mode != RHModeTx)
- {
- if (_power >= 18)
- {
- // Set high power boost mode
- // Note that OCP defaults to ON so no need to change that.
- spiWrite(RH_RF69_REG_5A_TESTPA1, RH_RF69_TESTPA1_BOOST);
- spiWrite(RH_RF69_REG_5C_TESTPA2, RH_RF69_TESTPA2_BOOST);
- }
- spiWrite(RH_RF69_REG_25_DIOMAPPING1, RH_RF69_DIOMAPPING1_DIO0MAPPING_00); // Set interrupt line 0 PacketSent
- setOpMode(RH_RF69_OPMODE_MODE_TX); // Clears FIFO
- _mode = RHModeTx;
- }
- }
-
- void RH_RF69::setTxPower(int8_t power)
- {
- _power = power;
-
- uint8_t palevel;
- if (_power < -18)
- _power = -18;
-
- // See http://www.hoperf.com/upload/rfchip/RF69-V1.2.pdf section 3.3.6
- // for power formulas
- if (_power <= 13)
- {
- // -18dBm to +13dBm
- palevel = RH_RF69_PALEVEL_PA0ON | ((_power + 18) & RH_RF69_PALEVEL_OUTPUTPOWER);
- }
- else if (_power >= 18)
- {
- // +18dBm to +20dBm
- // Need PA1+PA2
- // Also need PA boost settings change when tx is turned on and off, see setModeTx()
- palevel = RH_RF69_PALEVEL_PA1ON | RH_RF69_PALEVEL_PA2ON | ((_power + 11) & RH_RF69_PALEVEL_OUTPUTPOWER);
- }
- else
- {
- // +14dBm to +17dBm
- // Need PA1+PA2
- palevel = RH_RF69_PALEVEL_PA1ON | RH_RF69_PALEVEL_PA2ON | ((_power + 14) & RH_RF69_PALEVEL_OUTPUTPOWER);
- }
- spiWrite(RH_RF69_REG_11_PALEVEL, palevel);
- }
-
- // Sets registers from a canned modem configuration structure
- void RH_RF69::setModemRegisters(const ModemConfig* config)
- {
- spiBurstWrite(RH_RF69_REG_02_DATAMODUL, &config->reg_02, 5);
- spiBurstWrite(RH_RF69_REG_19_RXBW, &config->reg_19, 2);
- spiWrite(RH_RF69_REG_37_PACKETCONFIG1, config->reg_37);
- }
-
- // Set one of the canned FSK Modem configs
- // Returns true if its a valid choice
- bool RH_RF69::setModemConfig(ModemConfigChoice index)
- {
- if (index > (signed int)(sizeof(MODEM_CONFIG_TABLE) / sizeof(ModemConfig)))
- return false;
-
- ModemConfig cfg;
- memcpy_P(&cfg, &MODEM_CONFIG_TABLE[index], sizeof(RH_RF69::ModemConfig));
- setModemRegisters(&cfg);
-
- return true;
- }
-
- void RH_RF69::setPreambleLength(uint16_t bytes)
- {
- spiWrite(RH_RF69_REG_2C_PREAMBLEMSB, bytes >> 8);
- spiWrite(RH_RF69_REG_2D_PREAMBLELSB, bytes & 0xff);
- }
-
- void RH_RF69::setSyncWords(const uint8_t* syncWords, uint8_t len)
- {
- uint8_t syncconfig = spiRead(RH_RF69_REG_2E_SYNCCONFIG);
- if (syncWords && len && len <= 4)
- {
- spiBurstWrite(RH_RF69_REG_2F_SYNCVALUE1, syncWords, len);
- syncconfig |= RH_RF69_SYNCCONFIG_SYNCON;
- }
- else
- syncconfig &= ~RH_RF69_SYNCCONFIG_SYNCON;
- syncconfig &= ~RH_RF69_SYNCCONFIG_SYNCSIZE;
- syncconfig |= (len-1) << 3;
- spiWrite(RH_RF69_REG_2E_SYNCCONFIG, syncconfig);
- }
-
- void RH_RF69::setEncryptionKey(uint8_t* key)
- {
- if (key)
- {
- spiBurstWrite(RH_RF69_REG_3E_AESKEY1, key, 16);
- spiWrite(RH_RF69_REG_3D_PACKETCONFIG2, spiRead(RH_RF69_REG_3D_PACKETCONFIG2) | RH_RF69_PACKETCONFIG2_AESON);
- }
- else
- {
- spiWrite(RH_RF69_REG_3D_PACKETCONFIG2, spiRead(RH_RF69_REG_3D_PACKETCONFIG2) & ~RH_RF69_PACKETCONFIG2_AESON);
- }
- }
-
- bool RH_RF69::available()
- {
- if (_mode == RHModeTx)
- return false;
- setModeRx(); // Make sure we are receiving
- return _rxBufValid;
- }
-
- bool RH_RF69::recv(uint8_t* buf, uint8_t* len)
- {
- if (!available())
- return false;
-
- if (buf && len)
- {
- ATOMIC_BLOCK_START;
- if (*len > _bufLen)
- *len = _bufLen;
- memcpy(buf, _buf, *len);
- ATOMIC_BLOCK_END;
- }
- _rxBufValid = false; // Got the most recent message
- // printBuffer("recv:", buf, *len);
- return true;
- }
-
- bool RH_RF69::send(const uint8_t* data, uint8_t len)
- {
- if (len > RH_RF69_MAX_MESSAGE_LEN)
- return false;
-
- waitPacketSent(); // Make sure we dont interrupt an outgoing message
- setModeIdle(); // Prevent RX while filling the fifo
-
- ATOMIC_BLOCK_START;
- _spi.beginTransaction();
- digitalWrite(_slaveSelectPin, LOW);
- _spi.transfer(RH_RF69_REG_00_FIFO | RH_RF69_SPI_WRITE_MASK); // Send the start address with the write mask on
- _spi.transfer(len + RH_RF69_HEADER_LEN); // Include length of headers
- // First the 4 headers
- _spi.transfer(_txHeaderTo);
- _spi.transfer(_txHeaderFrom);
- _spi.transfer(_txHeaderId);
- _spi.transfer(_txHeaderFlags);
- // Now the payload
- while (len--)
- _spi.transfer(*data++);
- digitalWrite(_slaveSelectPin, HIGH);
- _spi.endTransaction();
- ATOMIC_BLOCK_END;
-
- setModeTx(); // Start the transmitter
- return true;
- }
-
- uint8_t RH_RF69::maxMessageLength()
- {
- return RH_RF69_MAX_MESSAGE_LEN;
- }
-
- bool RH_RF69::printRegister(uint8_t reg)
- {
- #ifdef RH_HAVE_SERIAL
- Serial.print(reg, HEX);
- Serial.print(" ");
- Serial.println(spiRead(reg), HEX);
- #endif
- return true;
- }
-
- bool RH_RF69::printRegisters()
- {
- uint8_t i;
- for (i = 0; i < 0x50; i++)
- printRegister(i);
- // Non-contiguous registers
- printRegister(RH_RF69_REG_58_TESTLNA);
- printRegister(RH_RF69_REG_6F_TESTDAGC);
- printRegister(RH_RF69_REG_71_TESTAFC);
-
- return true;
- }
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