wip.

1 files changed, 0 insertions, 539 deletions

diff --git a/aliznayem/RFM69.c b/aliznayem/RFM69.c
deleted file mode 100644
index d92a21b..0000000
--- a/aliznayem/RFM69.c
+++ /dev/null
@@ -1,539 +0,0 @@
-// **********************************************************************************
-// Driver definition for HopeRF RFM69W/RFM69HW/RFM69CW/RFM69HCW, Semtech SX1231/1231H
-// **********************************************************************************
-// Copyright Felix Rusu 2016, http://www.LowPowerLab.com/contact
-// **********************************************************************************
-// License
-// **********************************************************************************
-// This program is free software; you can redistribute it 
-// and/or modify it under the terms of the GNU General    
-// Public License as published by the Free Software       
-// Foundation; either version 3 of the License, or        
-// (at your option) any later version.                    
-//                                                        
-// This program is distributed in the hope that it will   
-// be useful, but WITHOUT ANY WARRANTY; without even the  
-// implied warranty of MERCHANTABILITY or FITNESS FOR A   
-// PARTICULAR PURPOSE. See the GNU General Public        
-// License for more details.                              
-//                                                        
-// Licence can be viewed at                               
-// http://www.gnu.org/licenses/gpl-3.0.txt
-//
-// Please maintain this license information along with authorship
-// and copyright notices in any redistribution of this code
-// **********************************************************************************
-
-
-// **********************************************************************************
-// Converted to AVR environment by Zulkar Nayem
-// **********************************************************************************
-
-
-#include <avr/io.h>
-#include <avr/interrupt.h>
-#include "spi.h"
-#include "RFM69registers.h"
-#include "RFM69.h"
-#include "get_millis.h"
-
-volatile uint8_t DATALEN;
-volatile uint8_t SENDERID;
-volatile uint8_t TARGETID;                 // should match _address
-volatile uint8_t PAYLOADLEN;
-volatile uint8_t ACK_REQUESTED;
-volatile uint8_t ACK_RECEIVED;             // should be polled immediately after sending a packet with ACK request
-volatile int16_t RSSI;                     // most accurate RSSI during reception (closest to the reception)
-volatile uint8_t mode = RF69_MODE_STANDBY; // should be protected?
-volatile uint8_t inISR = 0; 
-uint8_t isRFM69HW = 1;                     // if RFM69HW model matches high power enable possible
-uint8_t address;                           //nodeID
-uint8_t powerLevel = 31;
-uint8_t promiscuousMode = 0;
-unsigned long millis_current;
-
-// freqBand must be selected from 315, 433, 868, 915
-void rfm69_init(uint16_t freqBand, uint8_t nodeID, uint8_t networkID)
-{
-    const uint8_t CONFIG[][2] =
-    {
-        /* 0x01 */ { REG_OPMODE, RF_OPMODE_SEQUENCER_ON | RF_OPMODE_LISTEN_OFF | RF_OPMODE_STANDBY },
-        /* 0x02 */ { REG_DATAMODUL, RF_DATAMODUL_DATAMODE_PACKET | RF_DATAMODUL_MODULATIONTYPE_FSK | RF_DATAMODUL_MODULATIONSHAPING_00 }, // no shaping
-        /* 0x03 */ { REG_BITRATEMSB, RF_BITRATEMSB_55555}, // default: 4.8 KBPS
-        /* 0x04 */ { REG_BITRATELSB, RF_BITRATELSB_55555},
-        /* 0x05 */ { REG_FDEVMSB, RF_FDEVMSB_50000}, // default: 5KHz, (FDEV + BitRate / 2 <= 500KHz)
-        /* 0x06 */ { REG_FDEVLSB, RF_FDEVLSB_50000},
-
-        //* 0x07 */ { REG_FRFMSB, RF_FRFMSB_433},
-        //* 0x08 */ { REG_FRFMID, RF_FRFMID_433},
-        //* 0x09 */ { REG_FRFLSB, RF_FRFLSB_433},
-        
-        /* 0x07 */ { REG_FRFMSB, (uint8_t) (freqBand==RF_315MHZ ? RF_FRFMSB_315 : (freqBand==RF_433MHZ ? RF_FRFMSB_433 : (freqBand==RF_868MHZ ? RF_FRFMSB_868 : RF_FRFMSB_915))) },
-        /* 0x08 */ { REG_FRFMID, (uint8_t) (freqBand==RF_315MHZ ? RF_FRFMID_315 : (freqBand==RF_433MHZ ? RF_FRFMID_433 : (freqBand==RF_868MHZ ? RF_FRFMID_868 : RF_FRFMID_915))) },
-        /* 0x09 */ { REG_FRFLSB, (uint8_t) (freqBand==RF_315MHZ ? RF_FRFLSB_315 : (freqBand==RF_433MHZ ? RF_FRFLSB_433 : (freqBand==RF_868MHZ ? RF_FRFLSB_868 : RF_FRFLSB_915))) },
-
-
-        // looks like PA1 and PA2 are not implemented on RFM69W, hence the max output power is 13dBm
-        // +17dBm and +20dBm are possible on RFM69HW
-        // +13dBm formula: Pout = -18 + OutputPower (with PA0 or PA1**)
-        // +17dBm formula: Pout = -14 + OutputPower (with PA1 and PA2)**
-        // +20dBm formula: Pout = -11 + OutputPower (with PA1 and PA2)** and high power PA settings (section 3.3.7 in datasheet)
-        ///* 0x11 */ { REG_PALEVEL, RF_PALEVEL_PA0_ON | RF_PALEVEL_PA1_OFF | RF_PALEVEL_PA2_OFF | RF_PALEVEL_OUTPUTPOWER_11111},
-        ///* 0x13 */ { REG_OCP, RF_OCP_ON | RF_OCP_TRIM_95 }, // over current protection (default is 95mA)
-
-        // RXBW defaults are { REG_RXBW, RF_RXBW_DCCFREQ_010 | RF_RXBW_MANT_24 | RF_RXBW_EXP_5} (RxBw: 10.4KHz)
-        /* 0x19 */ { REG_RXBW, RF_RXBW_DCCFREQ_010 | RF_RXBW_MANT_16 | RF_RXBW_EXP_2 }, // (BitRate < 2 * RxBw)
-        //for BR-19200: /* 0x19 */ { REG_RXBW, RF_RXBW_DCCFREQ_010 | RF_RXBW_MANT_24 | RF_RXBW_EXP_3 },
-        /* 0x25 */ { REG_DIOMAPPING1, RF_DIOMAPPING1_DIO0_01 }, // DIO0 is the only IRQ we're using
-        /* 0x26 */ { REG_DIOMAPPING2, RF_DIOMAPPING2_CLKOUT_OFF }, // DIO5 ClkOut disable for power saving
-        /* 0x28 */ { REG_IRQFLAGS2, RF_IRQFLAGS2_FIFOOVERRUN }, // writing to this bit ensures that the FIFO & status flags are reset
-        /* 0x29 */ { REG_RSSITHRESH, 220 }, // must be set to dBm = (-Sensitivity / 2), default is 0xE4 = 228 so -114dBm
-        ///* 0x2D */ { REG_PREAMBLELSB, RF_PREAMBLESIZE_LSB_VALUE } // default 3 preamble bytes 0xAAAAAA
-        /* 0x2E */ { REG_SYNCCONFIG, RF_SYNC_ON | RF_SYNC_FIFOFILL_AUTO | RF_SYNC_SIZE_2 | RF_SYNC_TOL_0 },
-        /* 0x2F */ { REG_SYNCVALUE1, 0x2D },      // attempt to make this compatible with sync1 byte of RFM12B lib
-        /* 0x30 */ { REG_SYNCVALUE2, networkID }, // NETWORK ID
-        /* 0x37 */ { REG_PACKETCONFIG1, RF_PACKET1_FORMAT_VARIABLE | RF_PACKET1_DCFREE_OFF | RF_PACKET1_CRC_ON | RF_PACKET1_CRCAUTOCLEAR_ON | RF_PACKET1_ADRSFILTERING_OFF },
-        /* 0x38 */ { REG_PAYLOADLENGTH, 66 }, // in variable length mode: the max frame size, not used in TX
-        ///* 0x39 */ { REG_NODEADRS, nodeID }, // turned off because we're not using address filtering
-        /* 0x3C */ { REG_FIFOTHRESH, RF_FIFOTHRESH_TXSTART_FIFONOTEMPTY | RF_FIFOTHRESH_VALUE }, // TX on FIFO not empty
-        /* 0x3D */ { REG_PACKETCONFIG2, RF_PACKET2_RXRESTARTDELAY_2BITS | RF_PACKET2_AUTORXRESTART_ON | RF_PACKET2_AES_OFF }, // RXRESTARTDELAY must match transmitter PA ramp-down time (bitrate dependent)
-        //for BR-19200: /* 0x3D */ { REG_PACKETCONFIG2, RF_PACKET2_RXRESTARTDELAY_NONE | RF_PACKET2_AUTORXRESTART_ON | RF_PACKET2_AES_OFF }, // RXRESTARTDELAY must match transmitter PA ramp-down time (bitrate dependent)
-        /* 0x6F */ { REG_TESTDAGC, RF_DAGC_IMPROVED_LOWBETA0 }, // run DAGC continuously in RX mode for Fading Margin Improvement, recommended default for AfcLowBetaOn=0
-        {255, 0}
-    };
-    
-    spi_init();                // spi initialize
-    //DDRC |= 1<<PC6;          // temporary for testing LED output
-    SS_DDR |= 1<<SS_PIN;       // setting SS as output
-    SS_PORT |= 1<<SS_PIN;      // setting slave select high
-    INT_DDR &= ~(1<<INT_PIN_n);  // setting interrupt pin input. no problem if not given
-    INT_PORT &= ~(1<<INT_PIN_n); // setting pull down. because rising will cause interrupt. external pull down is needed.
-    
-    while (readReg(REG_SYNCVALUE1) != 0xaa)
-    {
-        writeReg(REG_SYNCVALUE1, 0xaa);
-    }
-
-    while (readReg(REG_SYNCVALUE1) != 0x55)
-    {
-        writeReg(REG_SYNCVALUE1, 0x55);
-    }
-
-    for (uint8_t i = 0; CONFIG[i][0] != 255; i++)
-        writeReg(CONFIG[i][0], CONFIG[i][1]);
-
-    // Encryption is persistent between resets and can trip you up during debugging.
-    // Disable it during initialization so we always start from a known state.
-    encrypt(0);
-
-    setHighPower(isRFM69HW);        // called regardless if it's a RFM69W or RFM69HW
-    setMode(RF69_MODE_STANDBY);
-    while ((readReg(REG_IRQFLAGS1) & RF_IRQFLAGS1_MODEREADY) == 0x00);
-    
-    EICRn |= (1<<ISCn1)|(1<<ISCn0); // setting INTn rising. details datasheet p91. must change with interrupt pin.
-    EIMSK |= 1<<INTn;               // enable INTn
-    inISR = 0;
-    //sei();                        //not needed because sei() called in millis_init() :)
-    millis_init();                  // to get miliseconds
-
-    address = nodeID;
-    setAddress(address);            // setting this node id
-    setNetwork(networkID);
-}
-
-// set this node's address
-void setAddress(uint8_t addr)
-{
-    writeReg(REG_NODEADRS, addr);
-}
-
-// set network address
-void setNetwork(uint8_t networkID)
-{
-    writeReg(REG_SYNCVALUE2, networkID);
-}
-
-uint8_t canSend()
-{
-    if (mode == RF69_MODE_RX && PAYLOADLEN == 0 && readRSSI(0) < CSMA_LIMIT) // if signal stronger than -100dBm is detected assume channel activity
-    {
-        setMode(RF69_MODE_STANDBY);
-        return 1;
-    }
-    return 0;
-}
-
-// Transmit data
-void send(uint8_t toAddress, const void* buffer, uint8_t bufferSize, uint8_t requestACK)
-{
-    writeReg(REG_PACKETCONFIG2, (readReg(REG_PACKETCONFIG2) & 0xFB) | RF_PACKET2_RXRESTART); // avoid RX deadlocks
-    millis_current = millis();
-    while (!canSend() && millis() - millis_current < RF69_CSMA_LIMIT_MS) receiveDone();
-    sendFrame(toAddress, buffer, bufferSize, requestACK, 0);
-}
-
-// check whether an ACK was requested in the last received packet (non-broadcasted packet)
-uint8_t ACKRequested() 
-{
-    return ACK_REQUESTED && (TARGETID != RF69_BROADCAST_ADDR);
-}
-
-// should be called immediately after reception in case sender wants ACK
-void sendACK(const void* buffer, uint8_t bufferSize)
-{
-    ACK_REQUESTED = 0;   // TWS added to make sure we don't end up in a timing race and infinite loop sending Acks
-    uint8_t sender = SENDERID;
-    int16_t _RSSI = RSSI; // save payload received RSSI value
-    writeReg(REG_PACKETCONFIG2, (readReg(REG_PACKETCONFIG2) & 0xFB) | RF_PACKET2_RXRESTART); // avoid RX deadlocks
-    millis_current = millis();
-    while (!canSend() && millis() - millis_current < RF69_CSMA_LIMIT_MS) receiveDone();
-    SENDERID = sender;    // TWS: Restore SenderID after it gets wiped out by receiveDone() n.b. actually now there is no receiveDone() :D
-    sendFrame(sender, buffer, bufferSize, 0, 1);
-    RSSI = _RSSI; // restore payload RSSI
-}
-
-// set *transmit/TX* output power: 0=min, 31=max
-// this results in a "weaker" transmitted signal, and directly results in a lower RSSI at the receiver
-// the power configurations are explained in the SX1231H datasheet (Table 10 on p21; RegPaLevel p66): http://www.semtech.com/images/datasheet/sx1231h.pdf
-// valid powerLevel parameter values are 0-31 and result in a directly proportional effect on the output/transmission power
-// this function implements 2 modes as follows:
-//       - for RFM69W the range is from 0-31 [-18dBm to 13dBm] (PA0 only on RFIO pin)
-//       - for RFM69HW the range is from 0-31 [5dBm to 20dBm]  (PA1 & PA2 on PA_BOOST pin & high Power PA settings - see section 3.3.7 in datasheet, p22)
-void setPowerLevel(uint8_t powerLevel)
-{
-    uint8_t _powerLevel = powerLevel;
-    if (isRFM69HW==1) _powerLevel /= 2;
-    writeReg(REG_PALEVEL, (readReg(REG_PALEVEL) & 0xE0) | _powerLevel);
-}
-
-//put transceiver in sleep mode to save battery - to wake or resume receiving just call receiveDone()
-void sleep() 
-{
-    setMode(RF69_MODE_SLEEP);
-}
-
-uint8_t readTemperature(uint8_t calFactor) // returns centigrade
-{
-    setMode(RF69_MODE_STANDBY);
-    writeReg(REG_TEMP1, RF_TEMP1_MEAS_START);
-    while ((readReg(REG_TEMP1) & RF_TEMP1_MEAS_RUNNING));
-    return ~readReg(REG_TEMP2) + COURSE_TEMP_COEF + calFactor; // 'complement' corrects the slope, rising temp = rising val
-} // COURSE_TEMP_COEF puts reading in the ballpark, user can add additional correction
-
-// return the frequency (in Hz)
-uint32_t getFrequency()
-{
-    return RF69_FSTEP * (((uint32_t) readReg(REG_FRFMSB) << 16) + ((uint16_t) readReg(REG_FRFMID) << 8) + readReg(REG_FRFLSB));
-}
-
-// set the frequency (in Hz)
-void setFrequency(uint32_t freqHz)
-{
-    uint8_t oldMode = mode;
-    if (oldMode == RF69_MODE_TX) {
-        setMode(RF69_MODE_RX);
-    }
-    freqHz /= RF69_FSTEP; // divide down by FSTEP to get FRF
-    writeReg(REG_FRFMSB, freqHz >> 16);
-    writeReg(REG_FRFMID, freqHz >> 8);
-    writeReg(REG_FRFLSB, freqHz);
-    if (oldMode == RF69_MODE_RX) {
-        setMode(RF69_MODE_SYNTH);
-    }
-    setMode(oldMode);
-}
-
-// Read byte from register
-uint8_t readReg(uint8_t addr)
-{
-    select();
-    spi_fast_shift(addr & 0x7F);
-    uint8_t regval = spi_fast_shift(0);
-    unselect();
-    return regval;
-}
-
-// Write byte to register
-void writeReg(uint8_t addr, uint8_t value)
-{
-    select();
-    spi_fast_shift(addr | 0x80);
-    spi_fast_shift(value);
-    unselect();
-}
-
-// To enable encryption: radio.encrypt("ABCDEFGHIJKLMNOP");
-// To disable encryption: encrypt(null) or encrypt(0)
-// KEY HAS TO BE 16 bytes !!!
-void encrypt(const char* key) 
-{
-    setMode(RF69_MODE_STANDBY);
-    if (key != 0)
-    {
-        select();
-        spi_fast_shift(REG_AESKEY1 | 0x80);
-        for (uint8_t i = 0; i < 16; i++)
-            spi_fast_shift(key[i]);
-        unselect();
-    }
-    writeReg(REG_PACKETCONFIG2, (readReg(REG_PACKETCONFIG2) & 0xFE) | (key ? 1:0));
-}
-
-void setMode(uint8_t newMode)
-{
-    if (newMode == mode)
-    return;
-
-    switch (newMode)
-    {
-        case RF69_MODE_TX:
-            writeReg(REG_OPMODE, (readReg(REG_OPMODE) & 0xE3) | RF_OPMODE_TRANSMITTER);
-            if (isRFM69HW) setHighPowerRegs(1);
-            break;
-        case RF69_MODE_RX:
-            writeReg(REG_OPMODE, (readReg(REG_OPMODE) & 0xE3) | RF_OPMODE_RECEIVER);
-            if (isRFM69HW) setHighPowerRegs(0);
-            break;
-        case RF69_MODE_SYNTH:
-            writeReg(REG_OPMODE, (readReg(REG_OPMODE) & 0xE3) | RF_OPMODE_SYNTHESIZER);
-            break;
-        case RF69_MODE_STANDBY:
-            writeReg(REG_OPMODE, (readReg(REG_OPMODE) & 0xE3) | RF_OPMODE_STANDBY);
-            break;
-        case RF69_MODE_SLEEP:
-            writeReg(REG_OPMODE, (readReg(REG_OPMODE) & 0xE3) | RF_OPMODE_SLEEP);
-            break;
-        default:
-        return;
-    }
-    // we are using packet mode, so this check is not really needed
-    // but waiting for mode ready is necessary when going from sleep because the FIFO may not be immediately available from previous mode
-    while (mode == RF69_MODE_SLEEP && (readReg(REG_IRQFLAGS1) & RF_IRQFLAGS1_MODEREADY) == 0x00); // wait for ModeReady
-    mode = newMode;
-}
-    
-// internal function
-void setHighPowerRegs(uint8_t onOff)
-{
-    if(onOff==1)
-    {
-    writeReg(REG_TESTPA1, 0x5D);
-    writeReg(REG_TESTPA2, 0x7C);
-    }
-    else
-    {
-        writeReg(REG_TESTPA1, 0x55);
-        writeReg(REG_TESTPA2, 0x70);
-    }
-}
-    
-// for RFM69HW only: you must call setHighPower(1) after rfm69_init() or else transmission won't work
-void setHighPower(uint8_t onOff) 
-{
-    isRFM69HW = onOff;
-    writeReg(REG_OCP, isRFM69HW ? RF_OCP_OFF : RF_OCP_ON);
-
-    if (isRFM69HW == 1) // turning ON
-        writeReg(REG_PALEVEL, (readReg(REG_PALEVEL) & 0x1F) | RF_PALEVEL_PA1_ON | RF_PALEVEL_PA2_ON); // enable P1 & P2 amplifier stages
-    else
-        writeReg(REG_PALEVEL, RF_PALEVEL_PA0_ON | RF_PALEVEL_PA1_OFF | RF_PALEVEL_PA2_OFF | powerLevel); // enable P0 only
-}
-
-// get the received signal strength indicator (RSSI)
-int16_t readRSSI(uint8_t forceTrigger)
-{
-    int16_t rssi = 0;
-    if (forceTrigger==1)
-    {
-        // RSSI trigger not needed if DAGC is in continuous mode
-        writeReg(REG_RSSICONFIG, RF_RSSI_START);
-        while ((readReg(REG_RSSICONFIG) & RF_RSSI_DONE) == 0x00); // wait for RSSI_Ready
-    }
-    rssi = -readReg(REG_RSSIVALUE);
-    rssi >>= 1;
-    return rssi;
-}
-
-// internal function
-void sendFrame(uint8_t toAddress, const void* buffer, uint8_t bufferSize, uint8_t requestACK, uint8_t sendACK)
-{
-    setMode(RF69_MODE_STANDBY); // turn off receiver to prevent reception while filling fifo
-    while ((readReg(REG_IRQFLAGS1) & RF_IRQFLAGS1_MODEREADY) == 0x00); // wait for ModeReady
-    //writeReg(REG_DIOMAPPING1, RF_DIOMAPPING1_DIO0_00); // DIO0 is "Packet Sent"
-    if (bufferSize > RF69_MAX_DATA_LEN)
-        bufferSize = RF69_MAX_DATA_LEN;
-
-    // control byte
-    uint8_t CTLbyte = 0x00;
-    if (sendACK==1)
-        CTLbyte = RFM69_CTL_SENDACK;
-    else if (requestACK==1)
-        CTLbyte = RFM69_CTL_REQACK;
-	
-	if (toAddress > 0xFF) CTLbyte |= (toAddress & 0x300) >> 6; //assign last 2 bits of address if > 255
-    if (address > 0xFF) CTLbyte |= (address & 0x300) >> 8;   //assign last 2 bits of address if > 255
-
-    // write to FIFO
-    select(); //enable data transfer
-    spi_fast_shift(REG_FIFO | 0x80);
-    spi_fast_shift(bufferSize + 3);
-    spi_fast_shift(toAddress);
-    spi_fast_shift(address);
-    spi_fast_shift(CTLbyte);
-
-    for (uint8_t i = 0; i < bufferSize; i++)
-        spi_fast_shift(((uint8_t*) buffer)[i]);
-    
-    unselect();
-
-    // no need to wait for transmit mode to be ready since its handled by the radio
-    setMode(RF69_MODE_TX);
-    //millis_current = millis();
-    //_delay_ms(500);
-    // wait for DIO to high
-    // for PINE5
-    //while (bit_is_clear(INT_PIN, INT_pin_num) && millis() - millis_current < RF69_TX_LIMIT_MS);
-	while ((readReg(REG_IRQFLAGS2) & RF_IRQFLAGS2_PACKETSENT) == 0x00); // wait for PacketSent
-	setMode(RF69_MODE_STANDBY);
-}
-
-// Calibrate RC
-void rcCalibration()
-{
-    writeReg(REG_OSC1, RF_OSC1_RCCAL_START);
-    while ((readReg(REG_OSC1) & RF_OSC1_RCCAL_DONE) == 0x00);
-}
-
-uint8_t sendWithRetry(uint8_t toAddress, const void* buffer, uint8_t bufferSize, uint8_t retries, uint8_t retryWaitTime)
-{
-    for (uint8_t i = 0; i <= retries; i++)
-    {
-        send(toAddress, buffer, bufferSize, 1);
-        millis_current = millis();
-        while (millis() - millis_current < retryWaitTime)
-        {
-            if (ACKReceived(toAddress))
-            {
-                return 1;
-            }
-        }
-    }
-    return 0;
-}
-
-// should be polled immediately after sending a packet with ACK request
-uint8_t ACKReceived(uint8_t fromNodeID)
-{
-    if (receiveDone())
-        return (SENDERID == fromNodeID || fromNodeID == RF69_BROADCAST_ADDR) && ACK_RECEIVED;
-    return 0;
-}
-
-// checks if a packet was received and/or puts transceiver in receive (ie RX or listen) mode
-uint8_t receiveDone()
-{
-    cli();
-
-    if (mode == RF69_MODE_RX && PAYLOADLEN > 0)
-    {
-        setMode(RF69_MODE_STANDBY); // enables interrupts
-        return 1;
-    }
-    else if (mode == RF69_MODE_RX) // already in RX no payload yet
-    {
-        sei(); // explicitly re-enable interrupts
-        return 0;
-    }
-    receiveBegin();
-    sei();
-    return 0;
-}
-
-// internal function
-void receiveBegin()
-{
-    DATALEN = 0;
-    SENDERID = 0;
-    TARGETID = 0;
-    PAYLOADLEN = 0;
-    ACK_REQUESTED = 0;
-    ACK_RECEIVED = 0;
-    RSSI = 0;
-    if (readReg(REG_IRQFLAGS2) & RF_IRQFLAGS2_PAYLOADREADY)
-    writeReg(REG_PACKETCONFIG2, (readReg(REG_PACKETCONFIG2) & 0xFB) | RF_PACKET2_RXRESTART); // avoid RX deadlocks
-    writeReg(REG_DIOMAPPING1, RF_DIOMAPPING1_DIO0_01); // set DIO0 to "PAYLOADREADY" in receive mode
-    setMode(RF69_MODE_RX);
-}
-
-// 1  = disable filtering to capture all frames on network
-// 0 = enable node/broadcast filtering to capture only frames sent to this/broadcast address
-void promiscuous(uint8_t onOff)
-{
-    promiscuousMode = onOff;
-    if(promiscuousMode==0)
-        writeReg(REG_PACKETCONFIG1, (readReg(REG_PACKETCONFIG1) & 0xF9) | RF_PACKET1_ADRSFILTERING_NODEBROADCAST);
-    else
-        writeReg(REG_PACKETCONFIG1, (readReg(REG_PACKETCONFIG1) & 0xF9) | RF_PACKET1_ADRSFILTERING_OFF);    
-}
-
-// Only reenable interrupts if we're not being called from the ISR
-void maybeInterrupts()
-{
-    if (!inISR) sei();
-}
-
-// Enable SPI transfer
-void select()
-{
-    SS_PORT &= ~(1<<SS_PIN);
-    cli();
-}
-
-// Disable SPI transfer
-void unselect()
-{
-    SS_PORT |= 1<<SS_PIN;
-    maybeInterrupts();
-}
-
-// Interrupt Service Routine
-ISR(INT_VECT)
-{
-    inISR = 1;
-    if (mode == RF69_MODE_RX && (readReg(REG_IRQFLAGS2) & RF_IRQFLAGS2_PAYLOADREADY))
-    {
-        setMode(RF69_MODE_STANDBY);
-        select();
-        spi_fast_shift(REG_FIFO & 0x7F);
-        PAYLOADLEN = spi_fast_shift(0);
-        if(PAYLOADLEN>66) PAYLOADLEN=66;
-        TARGETID = spi_fast_shift(0);
-        if(!(promiscuousMode || TARGETID == address || TARGETID == RF69_BROADCAST_ADDR) // match this node's address, or broadcast address or anything in promiscuous mode
-        || PAYLOADLEN < 3) // address situation could receive packets that are malformed and don't fit this libraries extra fields
-        {
-            PAYLOADLEN = 0;
-            unselect();
-            receiveBegin();
-            return;
-        }
-
-        DATALEN = PAYLOADLEN - 3;
-        SENDERID = spi_fast_shift(0);
-        uint8_t CTLbyte = spi_fast_shift(0);
-
-        ACK_RECEIVED = CTLbyte & RFM69_CTL_SENDACK; // extract ACK-received flag
-        ACK_REQUESTED = CTLbyte & RFM69_CTL_REQACK; // extract ACK-requested flag
-        
-        //interruptHook(CTLbyte);                   // TWS: hook to derived class interrupt function
-
-        for (uint8_t i = 0; i < DATALEN; i++)
-        {
-            DATA[i] = spi_fast_shift(0);
-        }
-        if (DATALEN < RF69_MAX_DATA_LEN) DATA[DATALEN] = 0; // add null at end of string
-        unselect();
-        setMode(RF69_MODE_RX);
-    }
-    RSSI = readRSSI(0);
-    inISR = 0;
-}