B3M38SPD seminar project - beehive monitor with LoRa reporting
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/*!
* \file RegionEU868.h
*
* \brief Region definition for EU868
*
* \copyright Revised BSD License, see section \ref LICENSE.
*
* \code
* ______ _
* / _____) _ | |
* ( (____ _____ ____ _| |_ _____ ____| |__
* \____ \| ___ | (_ _) ___ |/ ___) _ \
* _____) ) ____| | | || |_| ____( (___| | | |
* (______/|_____)_|_|_| \__)_____)\____)_| |_|
* (C)2013 Semtech
*
* ___ _____ _ ___ _ _____ ___ ___ ___ ___
* / __|_ _/_\ / __| |/ / __/ _ \| _ \/ __| __|
* \__ \ | |/ _ \ (__| ' <| _| (_) | / (__| _|
* |___/ |_/_/ \_\___|_|\_\_| \___/|_|_\\___|___|
* embedded.connectivity.solutions===============
*
* \endcode
*
* \author Miguel Luis ( Semtech )
*
* \author Gregory Cristian ( Semtech )
*
* \author Daniel Jaeckle ( STACKFORCE )
*
* \defgroup REGIONEU868 Region EU868
* Implementation according to LoRaWAN Specification v1.0.2.
* \{
*/
#ifndef __REGION_EU868_H__
#define __REGION_EU868_H__
/*!
* LoRaMac maximum number of channels
*/
#define EU868_MAX_NB_CHANNELS 16
/*!
* Number of default channels
*/
#define EU868_NUMB_DEFAULT_CHANNELS 3
/*!
* Number of channels to apply for the CF list
*/
#define EU868_NUMB_CHANNELS_CF_LIST 5
/*!
* Minimal datarate that can be used by the node
*/
#define EU868_TX_MIN_DATARATE DR_0
/*!
* Maximal datarate that can be used by the node
*/
#define EU868_TX_MAX_DATARATE DR_7
/*!
* Minimal datarate that can be used by the node
*/
#define EU868_RX_MIN_DATARATE DR_0
/*!
* Maximal datarate that can be used by the node
*/
#define EU868_RX_MAX_DATARATE DR_7
/*!
* Default datarate used by the node
*/
#define EU868_DEFAULT_DATARATE DR_0
/*!
* Minimal Rx1 receive datarate offset
*/
#define EU868_MIN_RX1_DR_OFFSET 0
/*!
* Maximal Rx1 receive datarate offset
*/
#define EU868_MAX_RX1_DR_OFFSET 5
/*!
* Default Rx1 receive datarate offset
*/
#define EU868_DEFAULT_RX1_DR_OFFSET 0
/*!
* Minimal Tx output power that can be used by the node
*/
#define EU868_MIN_TX_POWER TX_POWER_7
/*!
* Maximal Tx output power that can be used by the node
*/
#define EU868_MAX_TX_POWER TX_POWER_0
/*!
* Default Tx output power used by the node
*/
#define EU868_DEFAULT_TX_POWER TX_POWER_0
/*!
* Default Max EIRP
*/
#define EU868_DEFAULT_MAX_EIRP 16.0f
/*!
* Default antenna gain
*/
#define EU868_DEFAULT_ANTENNA_GAIN 2.15f
/*!
* ADR Ack limit
*/
#define EU868_ADR_ACK_LIMIT 64
/*!
* ADR Ack delay
*/
#define EU868_ADR_ACK_DELAY 32
/*!
* Enabled or disabled the duty cycle
*/
#define EU868_DUTY_CYCLE_ENABLED 1
/*!
* Maximum RX window duration
*/
#define EU868_MAX_RX_WINDOW 3000
/*!
* Receive delay 1
*/
#define EU868_RECEIVE_DELAY1 1000
/*!
* Receive delay 2
*/
#define EU868_RECEIVE_DELAY2 2000
/*!
* Join accept delay 1
*/
#define EU868_JOIN_ACCEPT_DELAY1 5000
/*!
* Join accept delay 2
*/
#define EU868_JOIN_ACCEPT_DELAY2 6000
/*!
* Maximum frame counter gap
*/
#define EU868_MAX_FCNT_GAP 16384
/*!
* Ack timeout
*/
#define EU868_ACKTIMEOUT 2000
/*!
* Random ack timeout limits
*/
#define EU868_ACK_TIMEOUT_RND 1000
#if ( EU868_DEFAULT_DATARATE > DR_5 )
#error "A default DR higher than DR_5 may lead to connectivity loss."
#endif
/*!
* Second reception window channel frequency definition.
*/
#define EU868_RX_WND_2_FREQ 869525000
/*!
* Second reception window channel datarate definition.
*/
#define EU868_RX_WND_2_DR DR_0
/*!
* Maximum number of bands
*/
#define EU868_MAX_NB_BANDS 5
/*!
* Band 0 definition
* { DutyCycle, TxMaxPower, LastTxDoneTime, TimeOff }
*/
#define EU868_BAND0 { 100 , EU868_MAX_TX_POWER, 0, 0 } // 1.0 %
/*!
* Band 1 definition
* { DutyCycle, TxMaxPower, LastTxDoneTime, TimeOff }
*/
#define EU868_BAND1 { 100 , EU868_MAX_TX_POWER, 0, 0 } // 1.0 %
/*!
* Band 2 definition
* Band = { DutyCycle, TxMaxPower, LastTxDoneTime, TimeOff }
*/
#define EU868_BAND2 { 1000, EU868_MAX_TX_POWER, 0, 0 } // 0.1 %
/*!
* Band 2 definition
* Band = { DutyCycle, TxMaxPower, LastTxDoneTime, TimeOff }
*/
#define EU868_BAND3 { 10 , EU868_MAX_TX_POWER, 0, 0 } // 10.0 %
/*!
* Band 2 definition
* Band = { DutyCycle, TxMaxPower, LastTxDoneTime, TimeOff }
*/
#define EU868_BAND4 { 100 , EU868_MAX_TX_POWER, 0, 0 } // 1.0 %
/*!
* LoRaMac default channel 1
* Channel = { Frequency [Hz], RX1 Frequency [Hz], { ( ( DrMax << 4 ) | DrMin ) }, Band }
*/
#define EU868_LC1 { 868100000, 0, { ( ( DR_5 << 4 ) | DR_0 ) }, 1 }
/*!
* LoRaMac default channel 2
* Channel = { Frequency [Hz], RX1 Frequency [Hz], { ( ( DrMax << 4 ) | DrMin ) }, Band }
*/
#define EU868_LC2 { 868300000, 0, { ( ( DR_5 << 4 ) | DR_0 ) }, 1 }
/*!
* LoRaMac default channel 3
* Channel = { Frequency [Hz], RX1 Frequency [Hz], { ( ( DrMax << 4 ) | DrMin ) }, Band }
*/
#define EU868_LC3 { 868500000, 0, { ( ( DR_5 << 4 ) | DR_0 ) }, 1 }
/*!
* LoRaMac channels which are allowed for the join procedure
*/
#define EU868_JOIN_CHANNELS ( uint16_t )( LC( 1 ) | LC( 2 ) | LC( 3 ) )
/*!
* Data rates table definition
*/
static const uint8_t DataratesEU868[] = { 12, 11, 10, 9, 8, 7, 7, 50 };
/*!
* Bandwidths table definition in Hz
*/
static const uint32_t BandwidthsEU868[] = { 125000, 125000, 125000, 125000, 125000, 125000, 250000, 0 };
/*!
* Maximum payload with respect to the datarate index. Cannot operate with repeater.
*/
static const uint8_t MaxPayloadOfDatarateEU868[] = { 51, 51, 51, 115, 242, 242, 242, 242 };
/*!
* Maximum payload with respect to the datarate index. Can operate with repeater.
*/
static const uint8_t MaxPayloadOfDatarateRepeaterEU868[] = { 51, 51, 51, 115, 222, 222, 222, 222 };
/*!
* \brief The function gets a value of a specific phy attribute.
*
* \param [IN] getPhy Pointer to the function parameters.
*
* \retval Returns a structure containing the PHY parameter.
*/
PhyParam_t RegionEU868GetPhyParam( GetPhyParams_t* getPhy );
/*!
* \brief Updates the last TX done parameters of the current channel.
*
* \param [IN] txDone Pointer to the function parameters.
*/
void RegionEU868SetBandTxDone( SetBandTxDoneParams_t* txDone );
/*!
* \brief Initializes the channels masks and the channels.
*
* \param [IN] type Sets the initialization type.
*/
void RegionEU868InitDefaults( InitType_t type );
/*!
* \brief Verifies a parameter.
*
* \param [IN] verify Pointer to the function parameters.
*
* \param [IN] type Sets the initialization type.
*
* \retval Returns true, if the parameter is valid.
*/
bool RegionEU868Verify( VerifyParams_t* verify, PhyAttribute_t phyAttribute );
/*!
* \brief The function parses the input buffer and sets up the channels of the
* CF list.
*
* \param [IN] applyCFList Pointer to the function parameters.
*/
void RegionEU868ApplyCFList( ApplyCFListParams_t* applyCFList );
/*!
* \brief Sets a channels mask.
*
* \param [IN] chanMaskSet Pointer to the function parameters.
*
* \retval Returns true, if the channels mask could be set.
*/
bool RegionEU868ChanMaskSet( ChanMaskSetParams_t* chanMaskSet );
/*!
* \brief Calculates the next datarate to set, when ADR is on or off.
*
* \param [IN] adrNext Pointer to the function parameters.
*
* \param [OUT] drOut The calculated datarate for the next TX.
*
* \param [OUT] txPowOut The TX power for the next TX.
*
* \param [OUT] adrAckCounter The calculated ADR acknowledgement counter.
*
* \retval Returns true, if an ADR request should be performed.
*/
bool RegionEU868AdrNext( AdrNextParams_t* adrNext, int8_t* drOut, int8_t* txPowOut, uint32_t* adrAckCounter );
/*!
* Computes the Rx window timeout and offset.
*
* \param [IN] datarate Rx window datarate index to be used
*
* \param [IN] minRxSymbols Minimum required number of symbols to detect an Rx frame.
*
* \param [IN] rxError System maximum timing error of the receiver. In milliseconds
* The receiver will turn on in a [-rxError : +rxError] ms
* interval around RxOffset
*
* \param [OUT]rxConfigParams Returns updated WindowTimeout and WindowOffset fields.
*/
void RegionEU868ComputeRxWindowParameters( int8_t datarate, uint8_t minRxSymbols, uint32_t rxError, RxConfigParams_t *rxConfigParams );
/*!
* \brief Configuration of the RX windows.
*
* \param [IN] rxConfig Pointer to the function parameters.
*
* \param [OUT] datarate The datarate index which was set.
*
* \retval Returns true, if the configuration was applied successfully.
*/
bool RegionEU868RxConfig( RxConfigParams_t* rxConfig, int8_t* datarate );
/*!
* \brief TX configuration.
*
* \param [IN] txConfig Pointer to the function parameters.
*
* \param [OUT] txPower The tx power index which was set.
*
* \param [OUT] txTimeOnAir The time-on-air of the frame.
*
* \retval Returns true, if the configuration was applied successfully.
*/
bool RegionEU868TxConfig( TxConfigParams_t* txConfig, int8_t* txPower, TimerTime_t* txTimeOnAir );
/*!
* \brief The function processes a Link ADR Request.
*
* \param [IN] linkAdrReq Pointer to the function parameters.
*
* \retval Returns the status of the operation, according to the LoRaMAC specification.
*/
uint8_t RegionEU868LinkAdrReq( LinkAdrReqParams_t* linkAdrReq, int8_t* drOut, int8_t* txPowOut, uint8_t* nbRepOut, uint8_t* nbBytesParsed );
/*!
* \brief The function processes a RX Parameter Setup Request.
*
* \param [IN] rxParamSetupReq Pointer to the function parameters.
*
* \retval Returns the status of the operation, according to the LoRaMAC specification.
*/
uint8_t RegionEU868RxParamSetupReq( RxParamSetupReqParams_t* rxParamSetupReq );
/*!
* \brief The function processes a Channel Request.
*
* \param [IN] newChannelReq Pointer to the function parameters.
*
* \retval Returns the status of the operation, according to the LoRaMAC specification.
*/
uint8_t RegionEU868NewChannelReq( NewChannelReqParams_t* newChannelReq );
/*!
* \brief The function processes a TX ParamSetup Request.
*
* \param [IN] txParamSetupReq Pointer to the function parameters.
*
* \retval Returns the status of the operation, according to the LoRaMAC specification.
* Returns -1, if the functionality is not implemented. In this case, the end node
* shall not process the command.
*/
int8_t RegionEU868TxParamSetupReq( TxParamSetupReqParams_t* txParamSetupReq );
/*!
* \brief The function processes a DlChannel Request.
*
* \param [IN] dlChannelReq Pointer to the function parameters.
*
* \retval Returns the status of the operation, according to the LoRaMAC specification.
*/
uint8_t RegionEU868DlChannelReq( DlChannelReqParams_t* dlChannelReq );
/*!
* \brief Alternates the datarate of the channel for the join request.
*
* \param [IN] alternateDr Pointer to the function parameters.
*
* \retval Datarate to apply.
*/
int8_t RegionEU868AlternateDr( AlternateDrParams_t* alternateDr );
/*!
* \brief Calculates the back-off time.
*
* \param [IN] calcBackOff Pointer to the function parameters.
*/
void RegionEU868CalcBackOff( CalcBackOffParams_t* calcBackOff );
/*!
* \brief Searches and set the next random available channel
*
* \param [OUT] channel Next channel to use for TX.
*
* \param [OUT] time Time to wait for the next transmission according to the duty
* cycle.
*
* \param [OUT] aggregatedTimeOff Updates the aggregated time off.
*
* \retval Function status [1: OK, 0: Unable to find a channel on the current datarate]
*/
bool RegionEU868NextChannel( NextChanParams_t* nextChanParams, uint8_t* channel, TimerTime_t* time, TimerTime_t* aggregatedTimeOff );
/*!
* \brief Adds a channel.
*
* \param [IN] channelAdd Pointer to the function parameters.
*
* \retval Status of the operation.
*/
LoRaMacStatus_t RegionEU868ChannelAdd( ChannelAddParams_t* channelAdd );
/*!
* \brief Removes a channel.
*
* \param [IN] channelRemove Pointer to the function parameters.
*
* \retval Returns true, if the channel was removed successfully.
*/
bool RegionEU868ChannelsRemove( ChannelRemoveParams_t* channelRemove );
/*!
* \brief Sets the radio into continuous wave mode.
*
* \param [IN] continuousWave Pointer to the function parameters.
*/
void RegionEU868SetContinuousWave( ContinuousWaveParams_t* continuousWave );
/*!
* \brief Computes new datarate according to the given offset
*
* \param [IN] downlinkDwellTime Downlink dwell time configuration. 0: No limit, 1: 400ms
*
* \param [IN] dr Current datarate
*
* \param [IN] drOffset Offset to be applied
*
* \retval newDr Computed datarate.
*/
uint8_t RegionEU868ApplyDrOffset( uint8_t downlinkDwellTime, int8_t dr, int8_t drOffset );
/*! \} defgroup REGIONEU868 */
#endif // __REGION_EU868_H__