SX126xDevKit
Dependencies: mbed DmTftLibrary SX126xLib
Demo/DemoApplication.cpp
- Committer:
- GregCr
- Date:
- 2018-03-09
- Revision:
- 1:b96176a4ccb8
- Parent:
- 0:e5420f1a8a1a
- Child:
- 2:8e1b4210df6b
File content as of revision 1:b96176a4ccb8:
/* ______ _ / _____) _ | | ( (____ _____ ____ _| |_ _____ ____| |__ \____ \| ___ | (_ _) ___ |/ ___) _ \ _____) ) ____| | | || |_| ____( (___| | | | (______/|_____)_|_|_| \__)_____)\____)_| |_| (C)2016 Semtech Description: PingPong, PER demo implementation. Maintainer: Gregory Cristian & Gilbert Menth */ #include "mbed.h" #include "radio.h" #include "sx126x-hal.h" #include "Eeprom.h" #include "DemoApplication.h" /*! * \brief Defines the local payload buffer size */ #define BUFFER_SIZE 255 /*! * \brief Defines the size of the token defining message type in the payload * cf. above. */ #define PINGPONG_SIZE 4 #define PER_SIZE 3 /*! * \brief Define time used in PingPong demo to synch with cycle * RX_TIMEOUT_MARGIN is the free time between each cycle (time reserve) */ #define RX_TIMEOUT_MARGIN 150 // ms #define RX_TX_TRANSITION_WAIT 5 // ms /*! * \brief Define the possible message type for the Ping-Pong and PER apps */ const uint8_t PingMsg[] = "PING"; const uint8_t PongMsg[] = "PONG"; const uint8_t PerMsg[] = "PER"; /*! * \brief Buffer and its size */ uint8_t BufferSize = BUFFER_SIZE; uint8_t Buffer[BUFFER_SIZE]; /*! * \brief Function to be executed on Radio Tx Done event */ void OnTxDone( void ); /*! * \brief Function to be executed on Radio Rx Done event */ void OnRxDone( void ); /*! * \brief Function executed on Radio Tx Timeout event */ void OnTxTimeout( void ); /*! * \brief Function executed on Radio Rx Timeout event */ void OnRxTimeout( void ); /*! * \brief Function executed on Radio Rx Error event */ void OnRxError( IrqErrorCode_t ); /*! * \brief Function executed on Radio CAD Done event */ void OnCadDone( bool channelActivityDetected ); /*! * \brief All the callbacks are stored in a structure */ RadioCallbacks_t RadioEvents = { &OnTxDone, // txDone &OnRxDone, // rxDone NULL, // rxPreambleDetect NULL, // rxSyncWordDone NULL, // rxHeaderDone &OnTxTimeout, // txTimeout &OnRxTimeout, // rxTimeout &OnRxError, // rxError &OnCadDone, // cadDone }; // SPI // mosi, miso, sclk, nss, dio0, dio1, dio2, dio3, rst, freqSel, deviceSel, antSwPower, callbacks... SX126xHal Radio( D11, D12, D13, D7, D3, D5, NC, NC, A0, A1, A2, D8, &RadioEvents ); /*! * \brief Tx LED toggling on transmition success */ DigitalOut TX_LED( A4 ); /*! * \brief Rx LED toggling on reception success */ DigitalOut RX_LED( A5 ); /*! * \brief Mask of IRQs */ uint16_t IrqMask = 0x0000; /*! * \brief Locals parameters and status for radio API * NEED TO BE OPTIMIZED, COPY OF STUCTURE ALREADY EXISTING */ PacketParams_t PacketParams; PacketStatus_t PacketStatus; ModulationParams_t ModulationParams; /*! * \brief Flag to indicate if the demo is already running */ static bool DemoRunning = false; /*! * \brief Frequency Error (only LSB) */ static double FreErrorLsb = 0.0; /*! * \brief Flag holding the current internal state of the demo application */ static uint8_t DemoInternalState = APP_IDLE; /*! * \brief Ticker for master to synch Tx frames. Flags for PER and PingPong demo * for Synch TX in cycle. */ Ticker SendNextPacket; static bool SendNext = false; /*! * \brief Hold last Rx packet number to compute PER in PER and PingPong demo */ static uint32_t PacketRxSequence = 0; static uint32_t PacketRxSequencePrev = 0; void LedBlink( void ); void InitializeDemoParameters( uint8_t modulation ); uint16_t GetTimeOnAir( uint8_t modulation ); void SendNextPacketEvent( void ); // ************************** RF Test Demo ****************************** // * * // * * // * * // ***************************************************************************** uint8_t RunDemoTestRssi( void ) { uint8_t refreshDisplay = 0; static uint16_t i; if( Eeprom.EepromData.DemoSettings.HoldDemo == true ) { return 0; } if( DemoRunning == false ) { DemoRunning = true; printf( "Start RunDemoTestRssi\n\r" ); TX_LED = 0; RX_LED = 0; Eeprom.EepromData.DemoSettings.CntPacketTx = 0; Eeprom.EepromData.DemoSettings.CntPacketRxOK = 0; Eeprom.EepromData.DemoSettings.CntPacketRxKO = 0; InitializeDemoParameters( Eeprom.EepromData.DemoSettings.ModulationType ); IrqMask = IRQ_RX_DONE | IRQ_CRC_ERROR | IRQ_RX_TX_TIMEOUT; Radio.SetDioIrqParams( IrqMask, IrqMask, IRQ_RADIO_NONE, IRQ_RADIO_NONE ); // Rx Continuous if( Eeprom.EepromData.DemoSettings.BoostedRx == false ) { Radio.SetRx( 0xFFFFFF ); } else { Radio.SetRxBoosted( 0xFFFFFF ); } DemoInternalState = APP_IDLE; i = 0; } Radio.ProcessIrqs( ); if( i < 5000 ) { i++; } else { i = 0; Eeprom.EepromData.DemoSettings.RssiValue = Radio.GetRssiInst( ); refreshDisplay = 1; } return refreshDisplay; } uint8_t RunDemoSleepMode( void ) { SleepParams_t SleepParam; if( Eeprom.EepromData.DemoSettings.HoldDemo == true ) { return 0; } if( DemoRunning == false ) { DemoRunning = true; InitializeDemoParameters( PACKET_TYPE_LORA ); TX_LED = 0; RX_LED = 0; SleepParam.Fields.WakeUpRTC = 0; //!< Get out of sleep mode if wakeup signal received from RTC SleepParam.Fields.Reset = 0; //!< SleepParam.Fields.WarmStart = 1; //!< Radio.SetSleep( SleepParam ); } else { LedBlink( ); } return 0; } uint8_t RunDemoStandbyRcMode( void ) { if( Eeprom.EepromData.DemoSettings.HoldDemo == true ) { return 0; } if( DemoRunning == false ) { DemoRunning = true; InitializeDemoParameters( PACKET_TYPE_LORA ); TX_LED = 0; RX_LED = 0; Radio.SetRegulatorMode( ( RadioRegulatorMode_t )Eeprom.EepromData.DemoSettings.RadioPowerMode ); Radio.SetStandby( STDBY_RC ); DemoRunning = true; } else { LedBlink( ); } return 0; } uint8_t RunDemoStandbyXoscMode( void ) { if( Eeprom.EepromData.DemoSettings.HoldDemo == true ) { return 0; } if( DemoRunning == false ) { DemoRunning = true; InitializeDemoParameters( PACKET_TYPE_LORA ); TX_LED = 0; RX_LED = 0; Radio.SetRegulatorMode( ( RadioRegulatorMode_t )Eeprom.EepromData.DemoSettings.RadioPowerMode ); Radio.SetStandby( STDBY_XOSC ); DemoRunning = true; } else { LedBlink( ); } return 0; } uint8_t RunDemoTxCw( void ) { if( Eeprom.EepromData.DemoSettings.HoldDemo == true ) { return 0; } if( DemoRunning == false ) { DemoRunning = true; InitializeDemoParameters( PACKET_TYPE_LORA ); TX_LED = 0; RX_LED = 0; Radio.SetStandby( STDBY_RC ); Radio.SetRegulatorMode( ( RadioRegulatorMode_t )Eeprom.EepromData.DemoSettings.RadioPowerMode ); Radio.SetRfFrequency( Eeprom.EepromData.DemoSettings.Frequency ); Radio.SetTxParams( Eeprom.EepromData.DemoSettings.TxPower, RADIO_RAMP_200_US ); Radio.SetTxContinuousWave( ); DemoRunning = true; } else { LedBlink( ); } return 0; } uint8_t RunDemoTxContinuousModulation( void ) { uint8_t localPayloadSize = 250; uint8_t i = 0; if( Eeprom.EepromData.DemoSettings.HoldDemo == true ) { return 0; } Radio.ProcessIrqs( ); if( DemoRunning == false ) { DemoRunning = true; InitializeDemoParameters( Eeprom.EepromData.DemoSettings.ModulationType ); Radio.SetTxParams( Eeprom.EepromData.DemoSettings.TxPower, RADIO_RAMP_3400_US ); TX_LED = 0; RX_LED = 0; IrqMask = IRQ_TX_DONE | IRQ_RX_TX_TIMEOUT; Radio.SetDioIrqParams( IrqMask, IrqMask, IRQ_RADIO_NONE, IRQ_RADIO_NONE ); for( i = 0; i < localPayloadSize; i++ ) { Buffer[i] = ( uint8_t )rand( ); } Radio.SendPayload( Buffer, localPayloadSize, 0xFFFFFF ); DemoInternalState = APP_IDLE; } else { switch( DemoInternalState ) { case APP_RX: break; case APP_TX: DemoInternalState = APP_IDLE; LedBlink( ); // Send the next frame IrqMask = IRQ_TX_DONE | IRQ_RX_TX_TIMEOUT; Radio.SetDioIrqParams( IrqMask, IrqMask, IRQ_RADIO_NONE, IRQ_RADIO_NONE ); Radio.SendPayload( Buffer, localPayloadSize, 0xFFFFFF ); // we prepare next payload during transmission for( i = 0; i < localPayloadSize; i++ ) { Buffer[i] = ( uint8_t )rand( ); } break; case APP_RX_TIMEOUT: DemoInternalState = APP_IDLE; break; case APP_RX_ERROR: DemoInternalState = APP_IDLE; break; case APP_TX_TIMEOUT: DemoInternalState = APP_IDLE; break; case APP_IDLE: break; default: break; } } return 0; } uint8_t RunDemoRxContinuous( void ) { uint8_t refreshDisplay = 0; if( Eeprom.EepromData.DemoSettings.HoldDemo == true ) { return 0; } if( DemoRunning == false ) { DemoRunning = true; printf( "Start RunDemoRxContinuous\n\r" ); TX_LED = 0; RX_LED = 0; Eeprom.EepromData.DemoSettings.CntPacketTx = 0; Eeprom.EepromData.DemoSettings.CntPacketRxOK = 0; Eeprom.EepromData.DemoSettings.CntPacketRxKO = 0; InitializeDemoParameters( Eeprom.EepromData.DemoSettings.ModulationType ); // set preamble to max size to avoid filtering of the receiver on preamble lenght if( Eeprom.EepromData.DemoSettings.ModulationType == PACKET_TYPE_LORA ) { PacketParams.Params.LoRa.PreambleLength = 0xFFFF; PacketParams.Params.LoRa.HeaderType = ( RadioLoRaPacketLengthsMode_t )Eeprom.EepromData.DemoSettings.PacketParam2; PacketParams.Params.LoRa.PayloadLength = Eeprom.EepromData.DemoSettings.PacketParam3; PacketParams.Params.LoRa.CrcMode = ( RadioLoRaCrcModes_t ) Eeprom.EepromData.DemoSettings.PacketParam4; PacketParams.Params.LoRa.InvertIQ = ( RadioLoRaIQModes_t ) Eeprom.EepromData.DemoSettings.PacketParam5; Radio.SetPacketParams( &PacketParams ); } IrqMask = IRQ_RX_DONE | IRQ_CRC_ERROR | IRQ_RX_TX_TIMEOUT; Radio.SetDioIrqParams( IrqMask, IrqMask, IRQ_RADIO_NONE, IRQ_RADIO_NONE ); // Rx Continuous if( Eeprom.EepromData.DemoSettings.BoostedRx == false ) { Radio.SetRx( 0xFFFFFF ); } else { Radio.SetRxBoosted( 0xFFFFFF ); } DemoInternalState = APP_IDLE; } if( Eeprom.EepromData.DemoSettings.MaxNumPacket > 0 ) // != Infinite { if( ( Eeprom.EepromData.DemoSettings.CntPacketRxOK + \ Eeprom.EepromData.DemoSettings.CntPacketRxKO ) >= \ Eeprom.EepromData.DemoSettings.MaxNumPacket ) { RX_LED = 0; TX_LED = 0; DemoInternalState = APP_IDLE; Radio.SetStandby( STDBY_RC ); SendNextPacket.detach( ); Eeprom.EepromData.DemoSettings.HoldDemo = true; refreshDisplay = 1; } } Radio.ProcessIrqs( ); switch( DemoInternalState ) { case APP_TX: break; case APP_RX: RX_LED = !RX_LED; Radio.GetPayload( Buffer, &BufferSize, BUFFER_SIZE ); Radio.GetPacketStatus( &PacketStatus ); if( Eeprom.EepromData.DemoSettings.ModulationType == PACKET_TYPE_LORA ) { Eeprom.EepromData.DemoSettings.RssiValue = PacketStatus.Params.LoRa.RssiPkt; Eeprom.EepromData.DemoSettings.SnrValue = PacketStatus.Params.LoRa.SnrPkt; if( ( PacketStatus.Params.LoRa.FreqError & 0x00080000 ) == 0x00080000 ) { PacketStatus.Params.LoRa.FreqError = 0xFFFFF - PacketStatus.Params.LoRa.FreqError; } Eeprom.EepromData.DemoSettings.FreqErrorEst = ( double )PacketStatus.Params.LoRa.FreqError * FreErrorLsb; } else // Eeprom.EepromData.DemoSettings.ModulationType == PACKET_TYPE_GFSK { Eeprom.EepromData.DemoSettings.RssiValue = PacketStatus.Params.Gfsk.RssiAvg; Eeprom.EepromData.DemoSettings.SnrValue = 0; } DemoInternalState = APP_IDLE; Eeprom.EepromData.DemoSettings.CntPacketRxOK ++; refreshDisplay = 1; break; case APP_RX_ERROR: case APP_RX_TIMEOUT: Eeprom.EepromData.DemoSettings.CntPacketRxKO ++; DemoInternalState = APP_IDLE; refreshDisplay = 1; break; case APP_TX_TIMEOUT: break; case APP_IDLE: break; default: break; } return refreshDisplay; } // ************************* PER Demo ****************************** // * * // * * // * * // ***************************************************************************** uint8_t RunDemoApplicationPer( void ) { uint8_t i = 0; uint8_t refreshDisplay = 0; if( Eeprom.EepromData.DemoSettings.HoldDemo == true ) { return 0; } if( DemoRunning == false ) { DemoRunning = true; printf( "Start RunDemoApplicationPer\n\r" ); TX_LED = 0; RX_LED = 0; Eeprom.EepromData.DemoSettings.CntPacketTx = 0; Eeprom.EepromData.DemoSettings.CntPacketRxOK = 0; Eeprom.EepromData.DemoSettings.CntPacketRxKO = 0; Eeprom.EepromData.DemoSettings.RxTimeOutCount = 0; InitializeDemoParameters( Eeprom.EepromData.DemoSettings.ModulationType ); Eeprom.EepromData.DemoSettings.InterPacketDelay = GetTimeOnAir( Eeprom.EepromData.DemoSettings.ModulationType ) + RX_TX_TRANSITION_WAIT; if( Eeprom.EepromData.DemoSettings.Entity == MASTER ) { SendNextPacket.attach_us( &SendNextPacketEvent, ( uint32_t )( ( Eeprom.EepromData.DemoSettings.InterPacketDelay + RX_TIMEOUT_MARGIN ) * 1000 ) ); DemoInternalState = APP_TX; } else { IrqMask = /*0xFFFF; */IRQ_HEADER_VALID | IRQ_RX_DONE | IRQ_CRC_ERROR | IRQ_RX_TX_TIMEOUT; Radio.SetDioIrqParams( IrqMask, IrqMask, IRQ_RADIO_NONE, IRQ_RADIO_NONE ); // Rx Single without timeout for the start if( Eeprom.EepromData.DemoSettings.BoostedRx == false ) { Radio.SetRx( 0x0000 ); } else { Radio.SetRxBoosted( 0x0000 ); } DemoInternalState = APP_IDLE; } } Radio.ProcessIrqs( ); if( Eeprom.EepromData.DemoSettings.MaxNumPacket > 0 ) // != Infinite { if( ( Eeprom.EepromData.DemoSettings.CntPacketRxOK + \ Eeprom.EepromData.DemoSettings.CntPacketRxKO + \ Eeprom.EepromData.DemoSettings.RxTimeOutCount) >= \ Eeprom.EepromData.DemoSettings.MaxNumPacket ) { RX_LED = 0; TX_LED = 0; DemoInternalState = APP_IDLE; Radio.SetStandby( STDBY_RC ); SendNextPacket.detach( ); Eeprom.EepromData.DemoSettings.HoldDemo = true; refreshDisplay = 1; } } switch( DemoInternalState ) { case PER_TX_START: Eeprom.EepromData.DemoSettings.CntPacketTx++; DemoInternalState = APP_IDLE; Buffer[0] = 0x00; Buffer[1] = ( Eeprom.EepromData.DemoSettings.CntPacketTx >> 24 ) & 0xFF; Buffer[2] = ( Eeprom.EepromData.DemoSettings.CntPacketTx >> 16 ) & 0xFF; Buffer[3] = ( Eeprom.EepromData.DemoSettings.CntPacketTx >> 8 ) & 0xFF; Buffer[4] = Eeprom.EepromData.DemoSettings.CntPacketTx & 0xFF; Buffer[5] = PerMsg[0]; Buffer[6] = PerMsg[1]; Buffer[7] = PerMsg[2]; for( i = 8; i < Eeprom.EepromData.DemoSettings.PayloadLength; i++ ) { Buffer[i] = i; } TX_LED = !TX_LED; IrqMask = 0xFFFF; //IRQ_TX_DONE | IRQ_RX_TX_TIMEOUT; Radio.SetDioIrqParams( IrqMask, IrqMask, IRQ_RADIO_NONE, IRQ_RADIO_NONE ); Radio.SendPayload( Buffer, Eeprom.EepromData.DemoSettings.PayloadLength, ( Eeprom.EepromData.DemoSettings.InterPacketDelay ) << 6 ); break; case PER_RX_START: IrqMask = /*0xFFFF;*/ IRQ_HEADER_VALID | IRQ_RX_DONE | IRQ_CRC_ERROR | IRQ_RX_TX_TIMEOUT; Radio.SetDioIrqParams( IrqMask, IrqMask, IRQ_RADIO_NONE, IRQ_RADIO_NONE ); if( Eeprom.EepromData.DemoSettings.BoostedRx == false ) { Radio.SetRx( ( Eeprom.EepromData.DemoSettings.InterPacketDelay + RX_TIMEOUT_MARGIN ) << 6 ); } else { Radio.SetRxBoosted( ( Eeprom.EepromData.DemoSettings.InterPacketDelay + RX_TIMEOUT_MARGIN ) << 6 ); } DemoInternalState = APP_IDLE; break; case APP_TX: if( SendNext == true ) { SendNext = false; if( Eeprom.EepromData.DemoSettings.MaxNumPacket == 0 ) { DemoInternalState = PER_TX_START; // Infinite -> send next refreshDisplay = 1; } else if( Eeprom.EepromData.DemoSettings.CntPacketTx < \ Eeprom.EepromData.DemoSettings.MaxNumPacket ) { DemoInternalState = PER_TX_START; // MaxNumPacket not sent refreshDisplay = 1; } else // MaxNumPacket sent -> end of demo { RX_LED = 0; TX_LED = 0; DemoInternalState = APP_IDLE; Radio.SetStandby( STDBY_RC ); SendNextPacket.detach( ); Eeprom.EepromData.DemoSettings.HoldDemo = true; refreshDisplay = 1; } } break; case APP_RX: RX_LED = !RX_LED; Radio.GetPayload( Buffer, &BufferSize, BUFFER_SIZE ); Radio.GetPacketStatus( &PacketStatus ); if( Eeprom.EepromData.DemoSettings.ModulationType == PACKET_TYPE_LORA ) { Eeprom.EepromData.DemoSettings.RssiValue = PacketStatus.Params.LoRa.RssiPkt; Eeprom.EepromData.DemoSettings.SnrValue = PacketStatus.Params.LoRa.SnrPkt; if( ( PacketStatus.Params.LoRa.FreqError & 0x00080000 ) == 0x00080000 ) { PacketStatus.Params.LoRa.FreqError = 0xFFFFF - PacketStatus.Params.LoRa.FreqError; } Eeprom.EepromData.DemoSettings.FreqErrorEst = ( double )PacketStatus.Params.LoRa.FreqError * FreErrorLsb; } else // Eeprom.EepromData.DemoSettings.ModulationType == PACKET_TYPE_GFSK { Eeprom.EepromData.DemoSettings.RssiValue = PacketStatus.Params.Gfsk.RssiAvg; Eeprom.EepromData.DemoSettings.SnrValue = 0; if( ( PacketStatus.Params.Gfsk.FreqError & 0x00000800 ) == 0x00000800 ) { PacketStatus.Params.Gfsk.FreqError = 0x00000FFF - PacketStatus.Params.Gfsk.FreqError; } PacketStatus.Params.LoRa.FreqError = PacketStatus.Params.LoRa.FreqError / 2048; Eeprom.EepromData.DemoSettings.FreqErrorEst = ( ( double )PacketStatus.Params.Gfsk.FreqError / 2048.0 ); } DemoInternalState = PER_RX_START; if( ( BufferSize >= PER_SIZE ) && ( strncmp( ( const char* )( Buffer + 5 ), ( const char* )PerMsg, PER_SIZE ) == 0 ) ) { ComputePerPayload( Buffer, BufferSize ); refreshDisplay = 1; } else { Eeprom.EepromData.DemoSettings.RxTimeOutCount++; } break; case APP_RX_ERROR: case APP_RX_TIMEOUT: Eeprom.EepromData.DemoSettings.RxTimeOutCount++; DemoInternalState = PER_RX_START; refreshDisplay = 1; break; case APP_TX_TIMEOUT: printf( "Failure: timeout in Tx is shorter than the packet time on air\n\r" ); DemoInternalState = APP_IDLE; Eeprom.EepromData.DemoSettings.HoldDemo = true; refreshDisplay = 1; break; case APP_IDLE: // do nothing /* val = Radio.GetSysErrors( ); if( val.Value != 0x0000 ) { printf(" Dev Error = 0x%04x \n\r", val.Value ); } */ break; default: break; } return refreshDisplay; } void ComputePerPayload( uint8_t *buffer, uint8_t bufferSize ) { uint32_t i = 0; Eeprom.EepromData.DemoSettings.CntPacketRxOK++; PacketRxSequence = ( ( uint32_t )buffer[1] << 24 ) | \ ( ( uint32_t )buffer[2] << 16 ) | \ ( ( uint32_t )buffer[3] << 8 ) | \ buffer[4]; if( ( PacketRxSequence <= PacketRxSequencePrev ) || \ ( PacketRxSequencePrev == 0xFFFFFFFF ) ) { // Sequence went back => resynchronization // Don't count missed packets this time i = 0; } else { // Determine number of missed packets i = PacketRxSequence - PacketRxSequencePrev - 1; } // Be ready for the next PacketRxSequencePrev = PacketRxSequence; // increment 'missed' counter for the RX session Eeprom.EepromData.DemoSettings.CntPacketRxKO += i; Eeprom.EepromData.DemoSettings.RxTimeOutCount = 0; } // ************************ Ping Pong Demo ***************************** // * * // * * // * * // ***************************************************************************** uint8_t RunDemoApplicationPingPong( void ) { uint8_t i = 0; uint8_t refreshDisplay = 0; if( Eeprom.EepromData.DemoSettings.HoldDemo == true ) { return 0; // quit without refresh display } if( DemoRunning == false ) { DemoRunning = true; TX_LED = 0; RX_LED = 0; Eeprom.EepromData.DemoSettings.CntPacketTx = 0; Eeprom.EepromData.DemoSettings.CntPacketRxOK = 0; Eeprom.EepromData.DemoSettings.CntPacketRxOKSlave = 0; Eeprom.EepromData.DemoSettings.CntPacketRxKO = 0; Eeprom.EepromData.DemoSettings.CntPacketRxKOSlave = 0; Eeprom.EepromData.DemoSettings.RxTimeOutCount = 0; InitializeDemoParameters( Eeprom.EepromData.DemoSettings.ModulationType ); Eeprom.EepromData.DemoSettings.InterPacketDelay = GetTimeOnAir( Eeprom.EepromData.DemoSettings.ModulationType ) + RX_TX_TRANSITION_WAIT; printf( "Start RunDemoApplicationPingPong.\n\r" ); if( Eeprom.EepromData.DemoSettings.Entity == MASTER ) { DemoInternalState = SEND_PING_MSG; uint32_t temp = ( Eeprom.EepromData.DemoSettings.InterPacketDelay << 1 ) + RX_TIMEOUT_MARGIN; float val = ( float )temp / 1000.0; SendNextPacket.attach( &SendNextPacketEvent, val ); } else { IrqMask = IRQ_RX_DONE | IRQ_CRC_ERROR | IRQ_RX_TX_TIMEOUT; Radio.SetDioIrqParams( IrqMask, IrqMask, IRQ_RADIO_NONE, IRQ_RADIO_NONE ); // Rx Single without timeout for the start RX_LED = !RX_LED; if( Eeprom.EepromData.DemoSettings.BoostedRx == false ) { Radio.SetRx( 0x0000 ); } else { Radio.SetRxBoosted( 0x0000 ); } DemoInternalState = APP_IDLE; } } Radio.ProcessIrqs( ); if( Eeprom.EepromData.DemoSettings.Entity == MASTER ) { switch( DemoInternalState ) { case SEND_PING_MSG: if( ( Eeprom.EepromData.DemoSettings.MaxNumPacket != 0 ) \ && ( Eeprom.EepromData.DemoSettings.CntPacketTx >= Eeprom.EepromData.DemoSettings.MaxNumPacket ) ) { SendNextPacket.detach( ); SendNext = false; RX_LED = 0; TX_LED = 0; DemoInternalState = APP_IDLE; Radio.SetStandby( STDBY_RC ); Eeprom.EepromData.DemoSettings.HoldDemo = true; refreshDisplay = 1; } else { if( SendNext == true ) { SendNext = false; Radio.SetStandby( STDBY_RC ); DemoInternalState = APP_IDLE; Eeprom.EepromData.DemoSettings.CntPacketTx++; // Send the next PING frame Buffer[0] = ( Eeprom.EepromData.DemoSettings.CntPacketTx >> 24 ) & 0xFF; Buffer[1] = ( Eeprom.EepromData.DemoSettings.CntPacketTx >> 16 ) & 0xFF; Buffer[2] = ( Eeprom.EepromData.DemoSettings.CntPacketTx >> 8 ) & 0xFF; Buffer[3] = ( Eeprom.EepromData.DemoSettings.CntPacketTx & 0xFF ); Buffer[4] = PingMsg[0]; Buffer[5] = PingMsg[1]; Buffer[6] = PingMsg[2]; Buffer[7] = PingMsg[3]; for( i = 8; i < Eeprom.EepromData.DemoSettings.PayloadLength; i++ ) { Buffer[i] = i; } TX_LED = !TX_LED; IrqMask = IRQ_TX_DONE | IRQ_RX_TX_TIMEOUT; Radio.SetDioIrqParams( IrqMask, IrqMask, IRQ_RADIO_NONE, IRQ_RADIO_NONE ); Radio.SendPayload( Buffer, Eeprom.EepromData.DemoSettings.PayloadLength, \ Eeprom.EepromData.DemoSettings.InterPacketDelay << 6 ); } } break; case APP_TX: DemoInternalState = APP_IDLE; TX_LED = !TX_LED; RX_LED = !RX_LED; IrqMask = IRQ_RX_DONE | IRQ_CRC_ERROR | IRQ_RX_TX_TIMEOUT; Radio.SetDioIrqParams( IrqMask, IrqMask, IRQ_RADIO_NONE, IRQ_RADIO_NONE ); if( Eeprom.EepromData.DemoSettings.BoostedRx == false ) { Radio.SetRx( ( ( Eeprom.EepromData.DemoSettings.InterPacketDelay << 1 ) + RX_TIMEOUT_MARGIN ) << 6 ); } else { Radio.SetRxBoosted( ( ( Eeprom.EepromData.DemoSettings.InterPacketDelay << 1 ) + RX_TIMEOUT_MARGIN ) << 6 ); } break; case APP_RX: RX_LED = !RX_LED; Radio.GetPayload( Buffer, &BufferSize, BUFFER_SIZE ); Radio.GetPacketStatus( &PacketStatus ); if( Eeprom.EepromData.ModulationParams.PacketType == PACKET_TYPE_LORA ) { Eeprom.EepromData.DemoSettings.RssiValue = PacketStatus.Params.LoRa.RssiPkt; Eeprom.EepromData.DemoSettings.SnrValue = PacketStatus.Params.LoRa.SnrPkt; } else // Eeprom.EepromData.ModulationParams.PacketType == PACKET_TYPE_GFSK { Eeprom.EepromData.DemoSettings.RssiValue = PacketStatus.Params.Gfsk.RssiAvg; Eeprom.EepromData.DemoSettings.SnrValue = 0; } if( ( BufferSize >= PINGPONG_SIZE ) && ( strncmp( ( const char* )( Buffer + 8 ), ( const char* )PongMsg, PINGPONG_SIZE ) == 0 ) ) { ComputePingPongPayload( Buffer, BufferSize ); } else { Eeprom.EepromData.DemoSettings.CntPacketRxKO++; } DemoInternalState = SEND_PING_MSG; refreshDisplay = 1; break; case APP_RX_TIMEOUT: case APP_RX_ERROR: RX_LED = !RX_LED; Eeprom.EepromData.DemoSettings.CntPacketRxKO++; DemoInternalState = SEND_PING_MSG; refreshDisplay = 1; break; case APP_TX_TIMEOUT: printf( "Failure: timeout in Tx is shorter than the packet time on air\n\r" ); DemoInternalState = APP_IDLE; Eeprom.EepromData.DemoSettings.HoldDemo = true; refreshDisplay = 1; break; case APP_IDLE: // do nothing break; default: break; } } else // SLAVE { switch( DemoInternalState ) { case SEND_PONG_MSG: wait_ms( RX_TX_TRANSITION_WAIT ); DemoInternalState = APP_IDLE; // Send the next PING frame Buffer[0] = ( Eeprom.EepromData.DemoSettings.CntPacketTx >> 24 ) & 0xFF; Buffer[1] = ( Eeprom.EepromData.DemoSettings.CntPacketTx >> 16 ) & 0xFF; Buffer[2] = ( Eeprom.EepromData.DemoSettings.CntPacketTx >> 8 ) & 0xFF; Buffer[3] = ( Eeprom.EepromData.DemoSettings.CntPacketTx & 0xFF ); Buffer[4] = ( ( Eeprom.EepromData.DemoSettings.CntPacketRxKO + \ Eeprom.EepromData.DemoSettings.RxTimeOutCount ) >> 24 ) & 0xFF; Buffer[5] = ( ( Eeprom.EepromData.DemoSettings.CntPacketRxKO + \ Eeprom.EepromData.DemoSettings.RxTimeOutCount ) >> 16 ) & 0xFF; Buffer[6] = ( ( Eeprom.EepromData.DemoSettings.CntPacketRxKO + \ Eeprom.EepromData.DemoSettings.RxTimeOutCount ) >> 8 ) & 0xFF; Buffer[7] = ( ( Eeprom.EepromData.DemoSettings.CntPacketRxKO + \ Eeprom.EepromData.DemoSettings.RxTimeOutCount ) & 0xFF ); Buffer[8] = PongMsg[0]; Buffer[9] = PongMsg[1]; Buffer[10] = PongMsg[2]; Buffer[11] = PongMsg[3]; for( i = 12; i < Eeprom.EepromData.DemoSettings.PayloadLength; i++ ) { Buffer[i] = i; } TX_LED = !TX_LED; IrqMask = IRQ_TX_DONE | IRQ_RX_TX_TIMEOUT; Radio.SetDioIrqParams( IrqMask, IrqMask, IRQ_RADIO_NONE, IRQ_RADIO_NONE ); Radio.SendPayload( Buffer, Eeprom.EepromData.DemoSettings.PayloadLength, \ ( Eeprom.EepromData.DemoSettings.InterPacketDelay ) << 6 ); break; case APP_TX: if( ( Eeprom.EepromData.DemoSettings.MaxNumPacket != 0 ) \ && ( ( Eeprom.EepromData.DemoSettings.CntPacketRxOK + Eeprom.EepromData.DemoSettings.CntPacketRxKO + \ Eeprom.EepromData.DemoSettings.RxTimeOutCount ) >= Eeprom.EepromData.DemoSettings.MaxNumPacket ) ) { SendNextPacket.detach( ); SendNext = false; RX_LED = 0; TX_LED = 0; DemoInternalState = APP_IDLE; Radio.SetStandby( STDBY_RC ); Eeprom.EepromData.DemoSettings.HoldDemo = true; refreshDisplay = 1; } else { DemoInternalState = APP_IDLE; TX_LED = !TX_LED; RX_LED = !RX_LED; IrqMask = IRQ_RX_DONE | IRQ_CRC_ERROR | IRQ_RX_TX_TIMEOUT; Radio.SetDioIrqParams( IrqMask, IrqMask, IRQ_RADIO_NONE, IRQ_RADIO_NONE ); if( Eeprom.EepromData.DemoSettings.BoostedRx == false ) { Radio.SetRx( ( ( Eeprom.EepromData.DemoSettings.InterPacketDelay << 1 ) + RX_TIMEOUT_MARGIN ) << 6 ); } else { Radio.SetRxBoosted( ( ( Eeprom.EepromData.DemoSettings.InterPacketDelay << 1 ) + RX_TIMEOUT_MARGIN) << 6 ); } refreshDisplay = 1; } break; case APP_RX: DemoInternalState = APP_IDLE; RX_LED = !RX_LED; Radio.GetPayload( Buffer, &BufferSize, BUFFER_SIZE ); Radio.GetPacketStatus( &PacketStatus ); if( Eeprom.EepromData.ModulationParams.PacketType == PACKET_TYPE_LORA ) { Eeprom.EepromData.DemoSettings.RssiValue = PacketStatus.Params.LoRa.RssiPkt; Eeprom.EepromData.DemoSettings.SnrValue = PacketStatus.Params.LoRa.SnrPkt; } else // Eeprom.EepromData.ModulationParams.PacketType == PACKET_TYPE_GFSK { Eeprom.EepromData.DemoSettings.RssiValue = PacketStatus.Params.Gfsk.RssiAvg; Eeprom.EepromData.DemoSettings.SnrValue = 0; } if( ( BufferSize >= PINGPONG_SIZE ) && ( strncmp( ( const char* )( Buffer + 4 ), ( const char* )PingMsg, PINGPONG_SIZE ) == 0 ) ) { ComputePingPongPayload( Buffer, BufferSize ); DemoInternalState = SEND_PONG_MSG; } else { Eeprom.EepromData.DemoSettings.CntPacketRxKO++; RX_LED = !RX_LED; IrqMask = IRQ_RX_DONE | IRQ_CRC_ERROR | IRQ_RX_TX_TIMEOUT; Radio.SetDioIrqParams( IrqMask, IrqMask, IRQ_RADIO_NONE, IRQ_RADIO_NONE ); if( Eeprom.EepromData.DemoSettings.BoostedRx == false ) { Radio.SetRx( ( Eeprom.EepromData.DemoSettings.InterPacketDelay ) << 6 ); } else { Radio.SetRxBoosted( ( Eeprom.EepromData.DemoSettings.InterPacketDelay ) << 6 ); } refreshDisplay = 1; } break; case APP_RX_TIMEOUT: case APP_RX_ERROR: DemoInternalState = APP_IDLE; Eeprom.EepromData.DemoSettings.RxTimeOutCount++; IrqMask = IRQ_RX_DONE | IRQ_CRC_ERROR | IRQ_RX_TX_TIMEOUT; Radio.SetDioIrqParams( IrqMask, IrqMask, IRQ_RADIO_NONE, IRQ_RADIO_NONE ); if( Eeprom.EepromData.DemoSettings.BoostedRx == false ) { Radio.SetRx( ( Eeprom.EepromData.DemoSettings.InterPacketDelay ) << 6 ); } else { Radio.SetRxBoosted( ( Eeprom.EepromData.DemoSettings.InterPacketDelay ) << 6 ); } refreshDisplay = 1; break; case APP_TX_TIMEOUT: printf( "Failure: timeout in Tx is shorter than the packet time on air\n\r" ); DemoInternalState = APP_IDLE; Eeprom.EepromData.DemoSettings.HoldDemo = true; refreshDisplay = 1; break; case APP_IDLE: // do nothing break; default: break; } } return refreshDisplay; } void ComputePingPongPayload( uint8_t *buffer, uint8_t bufferSize ) { uint32_t i = 0; PacketRxSequence = ( ( uint32_t )buffer[0] << 24 ) | \ ( ( uint32_t )buffer[1] << 16 ) | \ ( ( uint32_t )buffer[2] << 8 ) | \ buffer[3]; if( Eeprom.EepromData.DemoSettings.Entity == MASTER ) { Eeprom.EepromData.DemoSettings.CntPacketRxKOSlave = ( ( uint32_t )buffer[4] << 24 ) | \ ( ( uint32_t )buffer[5] << 16 ) | \ ( ( uint32_t )buffer[6] << 8 ) | \ buffer[7]; if( PacketRxSequence > Eeprom.EepromData.DemoSettings.CntPacketRxKOSlave ) { Eeprom.EepromData.DemoSettings.CntPacketRxOKSlave = PacketRxSequence - \ Eeprom.EepromData.DemoSettings.CntPacketRxKOSlave; } else { Eeprom.EepromData.DemoSettings.CntPacketRxOKSlave = 0; } if( PacketRxSequence == Eeprom.EepromData.DemoSettings.CntPacketTx ) { Eeprom.EepromData.DemoSettings.CntPacketRxOK += 1; } else { Eeprom.EepromData.DemoSettings.CntPacketRxKO += 1; } } else { Eeprom.EepromData.DemoSettings.CntPacketRxOK += 1; if( ( PacketRxSequence <= PacketRxSequencePrev ) || \ ( PacketRxSequencePrev == 0 ) ) { // Sequence went back => resynchronization // Don't count missed packets this time i = 0; } else { // Determine number of missed packets i = PacketRxSequence - PacketRxSequencePrev - 1; } // Be ready for the next PacketRxSequencePrev = PacketRxSequence; Eeprom.EepromData.DemoSettings.CntPacketTx = PacketRxSequence; // increment 'missed' counter for the RX session Eeprom.EepromData.DemoSettings.CntPacketRxKO += i; Eeprom.EepromData.DemoSettings.RxTimeOutCount = 0; } } // ************************ Utils **************************** // * * // * * // * * // ***************************************************************************** uint8_t GetConnectedDevice( void ) { return( Radio.GetDeviceType( ) ); } uint8_t GetMatchingFrequency( void ) { return( Radio.GetFreqSelect( ) ); } void InitDemoApplication( void ) { RX_LED = 1; TX_LED = 1; Radio.Init( ); // Can also be set in LDO mode but consume more power Radio.SetRegulatorMode( ( RadioRegulatorMode_t )Eeprom.EepromData.DemoSettings.RadioPowerMode ); Radio.SetStandby( STDBY_RC ); memset( &Buffer, 0x00, BufferSize ); RX_LED = 0; TX_LED = 0; PacketRxSequence = 0; PacketRxSequencePrev = 0; Eeprom.EepromData.DemoSettings.CntPacketTx = 0; Eeprom.EepromData.DemoSettings.CntPacketRxOK = 0; Eeprom.EepromData.DemoSettings.CntPacketRxKO = 0; Eeprom.EepromData.DemoSettings.RxTimeOutCount = 0; } void StopDemoApplication( void ) { if( DemoRunning == true ) { Radio.CheckDeviceReady( ); RX_LED = 0; TX_LED = 0; DemoRunning = false; SendNext = false; PacketRxSequence = 0; PacketRxSequencePrev = 0; Eeprom.EepromData.DemoSettings.CntPacketTx = 0; Eeprom.EepromData.DemoSettings.CntPacketRxOK = 0; Eeprom.EepromData.DemoSettings.CntPacketRxKO = 0; Eeprom.EepromData.DemoSettings.RxTimeOutCount = 0; DemoInternalState = APP_IDLE; Radio.SetStandby( STDBY_RC ); Radio.ClearIrqStatus( IRQ_RADIO_ALL ); SendNextPacket.detach( ); } } /* * Function still being implemented >>> To be completed * WARNING: Computation is in float and his really slow * LongInterLeaving vs LegacyInterLeaving has no influence on TimeOnAir. */ uint16_t GetTimeOnAir( uint8_t modulation ) { uint16_t result = 2000; uint8_t LowDatarateOptimize = 0; if( modulation == PACKET_TYPE_LORA ) { volatile double loraBw = 0.0; volatile double FreqErrorUnits = 0.0; switch( Eeprom.EepromData.ModulationParams.Params.LoRa.Bandwidth ) { case LORA_BW_500: loraBw = 500e3; break; case LORA_BW_250: loraBw = 250e3; break; case LORA_BW_125: loraBw = 125e3; break; case LORA_BW_062: loraBw = 62e3; break; case LORA_BW_041: loraBw = 41e3; break; case LORA_BW_031: loraBw = 31e3; break; case LORA_BW_020: loraBw = 20e3; break; case LORA_BW_015: loraBw = 15e3; break; case LORA_BW_010: loraBw = 10e3; break; case LORA_BW_007: loraBw = 7e3; break; default: loraBw = 7e3; break; } /* Used to compute the freq Error */ FreqErrorUnits = FREQ_ERR; FreErrorLsb = FreqErrorUnits * ( ( double )loraBw / 1000 ) / 500; float ts = 1 << Eeprom.EepromData.ModulationParams.Params.LoRa.SpreadingFactor; // time for one symbol in ms ts = (float)ts / (float)loraBw; ts = ts * 1000; // from seconds to miliseconds float tPreamble = ( Eeprom.EepromData.PacketParams.Params.LoRa.PreambleLength + 4.25 + ( ( Eeprom.EepromData.ModulationParams.Params.LoRa.SpreadingFactor > 6 ) ? 2 : 0 )) * ts; // time of preamble switch( Eeprom.EepromData.ModulationParams.Params.LoRa.Bandwidth ) { case LORA_BW_500: break; case LORA_BW_250: if( Eeprom.EepromData.ModulationParams.Params.LoRa.SpreadingFactor == LORA_SF12 ) { LowDatarateOptimize = 1; } break; case LORA_BW_125: if( Eeprom.EepromData.ModulationParams.Params.LoRa.SpreadingFactor >= LORA_SF11 ) { LowDatarateOptimize = 1; } break; case LORA_BW_062: if( Eeprom.EepromData.ModulationParams.Params.LoRa.SpreadingFactor >= LORA_SF10 ) { LowDatarateOptimize = 1; } break; case LORA_BW_041: case LORA_BW_031: if( Eeprom.EepromData.ModulationParams.Params.LoRa.SpreadingFactor >= LORA_SF9 ) { LowDatarateOptimize = 1; } break; case LORA_BW_020: case LORA_BW_015: if( Eeprom.EepromData.ModulationParams.Params.LoRa.SpreadingFactor >= LORA_SF8 ) { LowDatarateOptimize = 1; } break; case LORA_BW_010: case LORA_BW_007: if( Eeprom.EepromData.ModulationParams.Params.LoRa.SpreadingFactor >= LORA_SF7 ) { LowDatarateOptimize = 1; } break; } float nData = ceil( ( float )( ( 8 * Eeprom.EepromData.PacketParams.Params.LoRa.PayloadLength + \ 16 * ( ( Eeprom.EepromData.PacketParams.Params.LoRa.CrcMode == LORA_CRC_OFF ) ? 0 : 1 ) + \ ( ( Eeprom.EepromData.PacketParams.Params.LoRa.HeaderType == LORA_PACKET_VARIABLE_LENGTH ) ? 20 : 0 ) - \ ( 4 * Eeprom.EepromData.ModulationParams.Params.LoRa.SpreadingFactor ) + 8 - \ ( 8 *( ( Eeprom.EepromData.ModulationParams.Params.LoRa.SpreadingFactor > 6 ) ? 1 : 0 ) ) ) / 4 ) ); nData = ceil( ( float )nData / ( ( float )( Eeprom.EepromData.ModulationParams.Params.LoRa.SpreadingFactor - \ ( LowDatarateOptimize * 2 ) ) ) * ( ( Eeprom.EepromData.ModulationParams.Params.LoRa.CodingRate % 4 ) + 4 ) ); float tPayload = nData * ts; float tHeader = 8 * ts; // Time on air [ms] float ToA = ceil( tPreamble + tPayload + tHeader ); result = ( uint16_t )ToA + ( ( uint16_t )ToA >> 1 ); // Set some margin } else if( modulation == PACKET_TYPE_GFSK ) { uint16_t packetBitCount = Eeprom.EepromData.PacketParams.Params.Gfsk.PreambleLength; packetBitCount += ( Eeprom.EepromData.PacketParams.Params.Gfsk.SyncWordLength + 1 ); packetBitCount += Eeprom.EepromData.PacketParams.Params.Gfsk.PayloadLength + 3; packetBitCount *= 8; // 1500 = 1000 * 1.5 : 1000 for translate s in ms and 1.5 is some margin result = ( uint16_t )( ceil( 1500 * ( float )packetBitCount / Eeprom.EepromData.ModulationParams.Params.Gfsk.BitRate ) ); } return result; } void InitializeDemoParameters( uint8_t modulation ) { Radio.SetStandby( STDBY_RC ); Radio.SetRegulatorMode( ( RadioRegulatorMode_t )Eeprom.EepromData.DemoSettings.RadioPowerMode ); printf("> InitializeDemoParameters\n\r"); if( modulation == PACKET_TYPE_LORA ) { printf("set param LORA for demo\n\r"); ModulationParams.PacketType = PACKET_TYPE_LORA; PacketParams.PacketType = PACKET_TYPE_LORA; ModulationParams.Params.LoRa.SpreadingFactor = ( RadioLoRaSpreadingFactors_t ) Eeprom.EepromData.DemoSettings.ModulationParam1; ModulationParams.Params.LoRa.Bandwidth = ( RadioLoRaBandwidths_t ) Eeprom.EepromData.DemoSettings.ModulationParam2; ModulationParams.Params.LoRa.CodingRate = ( RadioLoRaCodingRates_t ) Eeprom.EepromData.DemoSettings.ModulationParam3; PacketParams.Params.LoRa.PreambleLength = Eeprom.EepromData.DemoSettings.PacketParam1; PacketParams.Params.LoRa.HeaderType = ( RadioLoRaPacketLengthsMode_t )Eeprom.EepromData.DemoSettings.PacketParam2; PacketParams.Params.LoRa.PayloadLength = Eeprom.EepromData.DemoSettings.PacketParam3; PacketParams.Params.LoRa.CrcMode = ( RadioLoRaCrcModes_t ) Eeprom.EepromData.DemoSettings.PacketParam4; PacketParams.Params.LoRa.InvertIQ = ( RadioLoRaIQModes_t ) Eeprom.EepromData.DemoSettings.PacketParam5; Eeprom.EepromData.DemoSettings.PayloadLength = PacketParams.Params.LoRa.PayloadLength; if( ( ModulationParams.Params.LoRa.SpreadingFactor == LORA_SF6 ) || ( ModulationParams.Params.LoRa.SpreadingFactor == LORA_SF5 ) ) { if( PacketParams.Params.LoRa.PreambleLength < 12 ) { PacketParams.Params.LoRa.PreambleLength = 12; } } } else// if( modulation == PACKET_TYPE_GFSK ) { printf("set param GFSK for demo\n\r"); ModulationParams.PacketType = PACKET_TYPE_GFSK; PacketParams.PacketType = PACKET_TYPE_GFSK; ModulationParams.Params.Gfsk.BitRate = Eeprom.EepromData.DemoSettings.ModulationParam1; ModulationParams.Params.Gfsk.Fdev = Eeprom.EepromData.DemoSettings.ModulationParam2; ModulationParams.Params.Gfsk.ModulationShaping = ( RadioModShapings_t ) Eeprom.EepromData.DemoSettings.ModulationParam3; ModulationParams.Params.Gfsk.Bandwidth = ( RadioRxBandwidth_t ) Eeprom.EepromData.DemoSettings.ModulationParam4; PacketParams.Params.Gfsk.PreambleLength = Eeprom.EepromData.DemoSettings.PacketParam1; PacketParams.Params.Gfsk.PreambleMinDetect = ( RadioPreambleDetection_t )Eeprom.EepromData.DemoSettings.PacketParam2; PacketParams.Params.Gfsk.SyncWordLength = Eeprom.EepromData.DemoSettings.PacketParam3; PacketParams.Params.Gfsk.AddrComp = ( RadioAddressComp_t ) Eeprom.EepromData.DemoSettings.PacketParam4; PacketParams.Params.Gfsk.HeaderType = ( RadioPacketLengthModes_t )Eeprom.EepromData.DemoSettings.PacketParam5; PacketParams.Params.Gfsk.PayloadLength = Eeprom.EepromData.DemoSettings.PacketParam6; PacketParams.Params.Gfsk.CrcLength = ( RadioCrcTypes_t ) Eeprom.EepromData.DemoSettings.PacketParam7; PacketParams.Params.Gfsk.DcFree = ( RadioDcFree_t ) Eeprom.EepromData.DemoSettings.PacketParam8; Eeprom.EepromData.DemoSettings.PayloadLength = PacketParams.Params.Gfsk.PayloadLength; } Radio.SetStandby( STDBY_RC ); Radio.ClearIrqStatus( IRQ_RADIO_ALL ); Radio.SetPacketType( ModulationParams.PacketType ); Radio.SetModulationParams( &ModulationParams ); Radio.SetPacketParams( &PacketParams ); Radio.SetRfFrequency( Eeprom.EepromData.DemoSettings.Frequency ); Radio.SetBufferBaseAddresses( 0x00, 0x00 ); Radio.SetTxParams( Eeprom.EepromData.DemoSettings.TxPower, RADIO_RAMP_200_US ); // only used in GFSK Radio.SetSyncWord( ( uint8_t[] ){ 0x12, 0x34, 0x56, 0x78, 0x9A, 0xBC, 0xDE, 0xF0 } ); Radio.SetWhiteningSeed( 0x01FF ); RX_LED = 0; TX_LED = 0; } /*! * \brief Callback of ticker PerSendNextPacket */ void SendNextPacketEvent( void ) { SendNext = true; } void LedBlink( void ) { if( ( TX_LED == 0 ) && ( RX_LED == 0 ) ) { TX_LED = 1; } else if( ( TX_LED == 1 ) && ( RX_LED == 0 ) ) { RX_LED = 1; } else if( ( TX_LED == 1 ) && ( RX_LED == 1 ) ) { TX_LED = 0; } else { RX_LED = 0; } } // ************************ Radio Callbacks **************************** // * * // * These functions are called through function pointer by the Radio low * // * level drivers * // * * // ***************************************************************************** void OnTxDone( void ) { DemoInternalState = APP_TX; } void OnRxDone( void ) { DemoInternalState = APP_RX; } void OnTxTimeout( void ) { DemoInternalState = APP_TX_TIMEOUT; } void OnRxTimeout( void ) { DemoInternalState = APP_RX_TIMEOUT; } void OnRxError( IrqErrorCode_t errorCode ) { DemoInternalState = APP_RX_ERROR; if( errorCode == IRQ_HEADER_ERROR_CODE ) { #ifdef ADV_DEBUG printf( ">> IRQ_HEADER_ERROR_CODE\n\r" ); #endif } else if( errorCode == IRQ_SYNCWORD_ERROR_CODE ) { #ifdef ADV_DEBUG printf( ">> IRQ_SYNCWORD_ERROR_CODE\n\r" ); #endif } else if( errorCode == IRQ_CRC_ERROR_CODE ) { #ifdef ADV_DEBUG printf( ">> IRQ_CRC_ERROR_CODE\n\r" ); #endif } else { #ifdef ADV_DEBUG printf( "unknown error\n\r" ); #endif } Radio.GetPacketStatus( &PacketStatus ); } void OnCadDone( bool channelActivityDetected ) { if( channelActivityDetected == true ) { DemoInternalState = CAD_DONE_CHANNEL_DETECTED; } else { DemoInternalState = CAD_DONE; } }