292 lines
8.0 KiB
C++
292 lines
8.0 KiB
C++
// NRF51.cpp
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//
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// Per: nRF51_Series_Reference_manual v3.0.pdf
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// Copyright (C) 2012 Mike McCauley
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// $Id: RH_NRF51.cpp,v 1.1 2015/07/01 00:46:05 mikem Exp $
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// Set by Arduino IDE when compiling for nRF51 chips:
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#ifdef NRF51
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#include <RH_NRF51.h>
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RH_NRF51::RH_NRF51()
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: _rxBufValid(false)
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{
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}
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bool RH_NRF51::init()
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{
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// Enable the High Frequency clock to the system as a whole
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NRF_CLOCK->EVENTS_HFCLKSTARTED = 0;
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NRF_CLOCK->TASKS_HFCLKSTART = 1;
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/* Wait for the external oscillator to start up */
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while (NRF_CLOCK->EVENTS_HFCLKSTARTED == 0) { }
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// Enables the DC/DC converter when the radio is enabled. Need this!
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NRF_POWER->DCDCEN = 0x00000001;
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// Disable and reset the radio
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NRF_RADIO->POWER = RADIO_POWER_POWER_Disabled;
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NRF_RADIO->POWER = RADIO_POWER_POWER_Enabled;
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NRF_RADIO->EVENTS_DISABLED = 0;
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NRF_RADIO->TASKS_DISABLE = 1;
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// Wait until we are in DISABLE state
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while (NRF_RADIO->EVENTS_DISABLED == 0) {}
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// Physical on-air address is set in PREFIX0 + BASE0 by setNetworkAddress
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NRF_RADIO->TXADDRESS = 0x00; // Use logical address 0 (PREFIX0 + BASE0)
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NRF_RADIO->RXADDRESSES = 0x01; // Enable reception on logical address 0 (PREFIX0 + BASE0)
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// Configure the CRC
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NRF_RADIO->CRCCNF = (RADIO_CRCCNF_LEN_Two << RADIO_CRCCNF_LEN_Pos); // Number of checksum bits
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NRF_RADIO->CRCINIT = 0xFFFFUL; // Initial value
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NRF_RADIO->CRCPOLY = 0x11021UL; // CRC poly: x^16+x^12^x^5+1
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// These shorts will make the radio transition from Ready to Start to Disable automatically
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// for both TX and RX, which makes for much shorter on-air times
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NRF_RADIO->SHORTS = (RADIO_SHORTS_READY_START_Enabled << RADIO_SHORTS_READY_START_Pos)
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| (RADIO_SHORTS_END_DISABLE_Enabled << RADIO_SHORTS_END_DISABLE_Pos);
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NRF_RADIO->PCNF0 = ((8 << RADIO_PCNF0_LFLEN_Pos) & RADIO_PCNF0_LFLEN_Msk); // Payload length in bits
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// Make sure we are powered down
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setModeIdle();
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// Set a default network address
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uint8_t default_network_address[] = {0xE7, 0xE7, 0xE7, 0xE7, 0xE7};
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setNetworkAddress(default_network_address, sizeof(default_network_address));
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setChannel(2); // The default, in case it was set by another app without powering down
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setRF(RH_NRF51::DataRate2Mbps, RH_NRF51::TransmitPower0dBm);
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return true;
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}
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bool RH_NRF51::setChannel(uint8_t channel)
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{
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NRF_RADIO->FREQUENCY = ((channel << RADIO_FREQUENCY_FREQUENCY_Pos) & RADIO_FREQUENCY_FREQUENCY_Msk);
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return true;
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}
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bool RH_NRF51::setNetworkAddress(uint8_t* address, uint8_t len)
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{
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if (len < 3 || len > 5)
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return false;
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// First byte is the prefix, remainder are base
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NRF_RADIO->PREFIX0 = ((address[0] << RADIO_PREFIX0_AP0_Pos) & RADIO_PREFIX0_AP0_Msk);
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uint32_t base;
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memcpy(&base, address+1, len-1);
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NRF_RADIO->BASE0 = base;
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NRF_RADIO->PCNF1 = (
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(((sizeof(_buf)) << RADIO_PCNF1_MAXLEN_Pos) & RADIO_PCNF1_MAXLEN_Msk) // maximum length of payload
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| (((0UL) << RADIO_PCNF1_STATLEN_Pos) & RADIO_PCNF1_STATLEN_Msk) // expand the payload with 0 bytes
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| (((len-1) << RADIO_PCNF1_BALEN_Pos) & RADIO_PCNF1_BALEN_Msk)); // base address length in number of bytes.
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return true;
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}
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bool RH_NRF51::setRF(DataRate data_rate, TransmitPower power)
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{
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uint8_t mode;
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uint8_t p;
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if (data_rate == DataRate2Mbps)
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mode = RADIO_MODE_MODE_Nrf_2Mbit;
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else if (data_rate == DataRate1Mbps)
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mode = RADIO_MODE_MODE_Nrf_1Mbit;
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else if (data_rate == DataRate250kbps)
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mode = RADIO_MODE_MODE_Nrf_250Kbit;
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else
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return false;// Invalid
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if (power == TransmitPower4dBm)
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p = RADIO_TXPOWER_TXPOWER_Pos4dBm;
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else if (power == TransmitPower0dBm)
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p = RADIO_TXPOWER_TXPOWER_0dBm;
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else if (power == TransmitPowerm4dBm)
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p = RADIO_TXPOWER_TXPOWER_Neg4dBm;
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else if (power == TransmitPowerm8dBm)
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p = RADIO_TXPOWER_TXPOWER_Neg8dBm;
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else if (power == TransmitPowerm12dBm)
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p = RADIO_TXPOWER_TXPOWER_Neg12dBm;
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else if (power == TransmitPowerm16dBm)
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p = RADIO_TXPOWER_TXPOWER_Neg16dBm;
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else if (power == TransmitPowerm20dBm)
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p = RADIO_TXPOWER_TXPOWER_Neg20dBm;
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else if (power == TransmitPowerm30dBm)
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p = RADIO_TXPOWER_TXPOWER_Neg30dBm;
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else
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return false; // Invalid
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NRF_RADIO->TXPOWER = ((p << RADIO_TXPOWER_TXPOWER_Pos) & RADIO_TXPOWER_TXPOWER_Msk);
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NRF_RADIO->MODE = ((mode << RADIO_MODE_MODE_Pos) & RADIO_MODE_MODE_Msk);
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return true;
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}
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void RH_NRF51::setModeIdle()
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{
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if (_mode != RHModeIdle)
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{
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NRF_RADIO->TASKS_DISABLE = 1;
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_mode = RHModeIdle;
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}
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}
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void RH_NRF51::setModeRx()
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{
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if (_mode != RHModeRx)
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{
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setModeIdle(); // Can only start RX from DISABLE state
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// Radio will transition automatically to Disable state when a messageis received
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NRF_RADIO->PACKETPTR = (uint32_t)_buf;
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NRF_RADIO->EVENTS_DISABLED = 0U; // So we can detect end of transmission
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NRF_RADIO->TASKS_RXEN = 1;
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_mode = RHModeRx;
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}
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}
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void RH_NRF51::setModeTx()
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{
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if (_mode != RHModeTx)
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{
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setModeIdle(); // Can only start RX from DISABLE state
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// Radio will transition automatically to Disable state at the end of transmission
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NRF_RADIO->PACKETPTR = (uint32_t)_buf;
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NRF_RADIO->EVENTS_DISABLED = 0U; // So we can detect end of transmission
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NRF_RADIO->TASKS_TXEN = 1;
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_mode = RHModeTx;
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}
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}
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bool RH_NRF51::send(const uint8_t* data, uint8_t len)
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{
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if (len > RH_NRF51_MAX_MESSAGE_LEN)
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return false;
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// Set up the headers
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_buf[0] = len + RH_NRF51_HEADER_LEN;
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_buf[1] = _txHeaderTo;
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_buf[2] = _txHeaderFrom;
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_buf[3] = _txHeaderId;
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_buf[4] = _txHeaderFlags;
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memcpy(_buf+RH_NRF51_HEADER_LEN+1, data, len);
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_rxBufValid = false;
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setModeTx();
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// Radio will return to Disabled state after transmission is complete
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_txGood++;
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return true;
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}
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bool RH_NRF51::waitPacketSent()
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{
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// If we are not currently in transmit mode, there is no packet to wait for
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if (_mode != RHModeTx)
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return false;
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// When the Disabled event occurs we know the transmission has completed
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while (NRF_RADIO->EVENTS_DISABLED == 0U)
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{
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YIELD;
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}
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setModeIdle();
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return true;
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}
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bool RH_NRF51::isSending()
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{
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return (NRF_RADIO->STATE == RADIO_STATE_STATE_Tx) ? true : false;
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}
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bool RH_NRF51::printRegisters()
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{
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#ifdef RH_HAVE_SERIAL
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uint16_t i;
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uint32_t* p = (uint32_t*)NRF_RADIO;
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for (i = 0; (p + i) < (uint32_t*) (((NRF_RADIO_Type*)NRF_RADIO) + 1); i++)
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{
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Serial.print("Offset: ");
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Serial.print(i, DEC);
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Serial.print(" ");
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Serial.println(*(p+i), HEX);
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}
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#endif
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return true;
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}
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// Check whether the latest received message is complete and uncorrupted
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void RH_NRF51::validateRxBuf()
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{
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if (_buf[0] < 4)
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return; // Too short to be a real message
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// Extract the 4 headers
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_rxHeaderTo = _buf[1];
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_rxHeaderFrom = _buf[2];
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_rxHeaderId = _buf[3];
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_rxHeaderFlags = _buf[4];
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if (_promiscuous ||
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_rxHeaderTo == _thisAddress ||
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_rxHeaderTo == RH_BROADCAST_ADDRESS)
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{
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_rxGood++;
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_rxBufValid = true;
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}
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}
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bool RH_NRF51::available()
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{
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if (!_rxBufValid)
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{
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if (_mode == RHModeTx)
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return false;
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setModeRx();
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if (NRF_RADIO->EVENTS_DISABLED == 0U)
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return false; // No message yet
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if (NRF_RADIO->CRCSTATUS == ((RADIO_CRCSTATUS_CRCSTATUS_CRCError << RADIO_CRCSTATUS_CRCSTATUS_Pos) & RADIO_CRCSTATUS_CRCSTATUS_Msk))
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{
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// Bad CRC, restart the radio
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_rxBad++;
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setModeRx();
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return false;
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}
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validateRxBuf();
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if (_rxBufValid)
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setModeIdle(); // Got one
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}
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return _rxBufValid;
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}
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void RH_NRF51::clearRxBuf()
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{
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_rxBufValid = false;
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_buf[0] = 0;
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}
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bool RH_NRF51::recv(uint8_t* buf, uint8_t* len)
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{
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if (!available())
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return false;
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if (buf && len)
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{
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// Skip the 4 headers that are at the beginning of the rxBuf
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// the payload length is the first octet in _buf
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if (*len > _buf[0]-RH_NRF51_HEADER_LEN)
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*len = _buf[0]-RH_NRF51_HEADER_LEN;
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memcpy(buf, _buf+RH_NRF51_HEADER_LEN+1, *len);
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}
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clearRxBuf(); // This message accepted and cleared
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return true;
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}
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uint8_t RH_NRF51::maxMessageLength()
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{
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return RH_NRF51_MAX_MESSAGE_LEN;
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}
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#endif // NRF51
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