B3M38SPD seminar project - beehive monitor with LoRa reporting
You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.

1038 lines
49 KiB

/*
/ _____) _ | |
( (____ _____ ____ _| |_ _____ ____| |__
\____ \| ___ | (_ _) ___ |/ ___) _ \
_____) ) ____| | | || |_| ____( (___| | | |
(______/|_____)_|_|_| \__)_____)\____)_| |_|
(C)2013 Semtech
___ _____ _ ___ _ _____ ___ ___ ___ ___
/ __|_ _/_\ / __| |/ / __/ _ \| _ \/ __| __|
\__ \ | |/ _ \ (__| ' <| _| (_) | / (__| _|
|___/ |_/_/ \_\___|_|\_\_| \___/|_|_\\___|___|
embedded.connectivity.solutions===============
Description: LoRa MAC region implementation
License: Revised BSD License, see LICENSE.TXT file include in the project
Maintainer: Miguel Luis ( Semtech ), Gregory Cristian ( Semtech ) and Daniel Jaeckle ( STACKFORCE )
*/
#include <stdbool.h>
#include <string.h>
#include <stdint.h>
#include "timer.h"
#include "LoRaMac.h"
// Regional includes
#include "Region.h"
// Setup regions
#ifdef REGION_AS923
#include "RegionAS923.h"
#define AS923_CASE case LORAMAC_REGION_AS923:
#define AS923_IS_ACTIVE( ) AS923_CASE { return true; }
#define AS923_GET_PHY_PARAM( ) AS923_CASE { return RegionAS923GetPhyParam( getPhy ); }
#define AS923_SET_BAND_TX_DONE( ) AS923_CASE { RegionAS923SetBandTxDone( txDone ); break; }
#define AS923_INIT_DEFAULTS( ) AS923_CASE { RegionAS923InitDefaults( type ); break; }
#define AS923_VERIFY( ) AS923_CASE { return RegionAS923Verify( verify, phyAttribute ); }
#define AS923_APPLY_CF_LIST( ) AS923_CASE { RegionAS923ApplyCFList( applyCFList ); break; }
#define AS923_CHAN_MASK_SET( ) AS923_CASE { return RegionAS923ChanMaskSet( chanMaskSet ); }
#define AS923_ADR_NEXT( ) AS923_CASE { return RegionAS923AdrNext( adrNext, drOut, txPowOut, adrAckCounter ); }
#define AS923_COMPUTE_RX_WINDOW_PARAMETERS( ) AS923_CASE { RegionAS923ComputeRxWindowParameters( datarate, minRxSymbols, rxError, rxConfigParams ); break; }
#define AS923_RX_CONFIG( ) AS923_CASE { return RegionAS923RxConfig( rxConfig, datarate ); }
#define AS923_TX_CONFIG( ) AS923_CASE { return RegionAS923TxConfig( txConfig, txPower, txTimeOnAir ); }
#define AS923_LINK_ADR_REQ( ) AS923_CASE { return RegionAS923LinkAdrReq( linkAdrReq, drOut, txPowOut, nbRepOut, nbBytesParsed ); }
#define AS923_RX_PARAM_SETUP_REQ( ) AS923_CASE { return RegionAS923RxParamSetupReq( rxParamSetupReq ); }
#define AS923_NEW_CHANNEL_REQ( ) AS923_CASE { return RegionAS923NewChannelReq( newChannelReq ); }
#define AS923_TX_PARAM_SETUP_REQ( ) AS923_CASE { return RegionAS923TxParamSetupReq( txParamSetupReq ); }
#define AS923_DL_CHANNEL_REQ( ) AS923_CASE { return RegionAS923DlChannelReq( dlChannelReq ); }
#define AS923_ALTERNATE_DR( ) AS923_CASE { return RegionAS923AlternateDr( alternateDr ); }
#define AS923_CALC_BACKOFF( ) AS923_CASE { RegionAS923CalcBackOff( calcBackOff ); break; }
#define AS923_NEXT_CHANNEL( ) AS923_CASE { return RegionAS923NextChannel( nextChanParams, channel, time, aggregatedTimeOff ); }
#define AS923_CHANNEL_ADD( ) AS923_CASE { return RegionAS923ChannelAdd( channelAdd ); }
#define AS923_CHANNEL_REMOVE( ) AS923_CASE { return RegionAS923ChannelsRemove( channelRemove ); }
#define AS923_SET_CONTINUOUS_WAVE( ) AS923_CASE { RegionAS923SetContinuousWave( continuousWave ); break; }
#define AS923_APPLY_DR_OFFSET( ) AS923_CASE { return RegionAS923ApplyDrOffset( downlinkDwellTime, dr, drOffset ); }
#else
#define AS923_IS_ACTIVE( )
#define AS923_GET_PHY_PARAM( )
#define AS923_SET_BAND_TX_DONE( )
#define AS923_INIT_DEFAULTS( )
#define AS923_VERIFY( )
#define AS923_APPLY_CF_LIST( )
#define AS923_CHAN_MASK_SET( )
#define AS923_ADR_NEXT( )
#define AS923_COMPUTE_RX_WINDOW_PARAMETERS( )
#define AS923_RX_CONFIG( )
#define AS923_TX_CONFIG( )
#define AS923_LINK_ADR_REQ( )
#define AS923_RX_PARAM_SETUP_REQ( )
#define AS923_NEW_CHANNEL_REQ( )
#define AS923_TX_PARAM_SETUP_REQ( )
#define AS923_DL_CHANNEL_REQ( )
#define AS923_ALTERNATE_DR( )
#define AS923_CALC_BACKOFF( )
#define AS923_NEXT_CHANNEL( )
#define AS923_CHANNEL_ADD( )
#define AS923_CHANNEL_REMOVE( )
#define AS923_SET_CONTINUOUS_WAVE( )
#define AS923_APPLY_DR_OFFSET( )
#endif
#ifdef REGION_AU915
#include "RegionAU915.h"
#define AU915_CASE case LORAMAC_REGION_AU915:
#define AU915_IS_ACTIVE( ) AU915_CASE { return true; }
#define AU915_GET_PHY_PARAM( ) AU915_CASE { return RegionAU915GetPhyParam( getPhy ); }
#define AU915_SET_BAND_TX_DONE( ) AU915_CASE { RegionAU915SetBandTxDone( txDone ); break; }
#define AU915_INIT_DEFAULTS( ) AU915_CASE { RegionAU915InitDefaults( type ); break; }
#define AU915_VERIFY( ) AU915_CASE { return RegionAU915Verify( verify, phyAttribute ); }
#define AU915_APPLY_CF_LIST( ) AU915_CASE { RegionAU915ApplyCFList( applyCFList ); break; }
#define AU915_CHAN_MASK_SET( ) AU915_CASE { return RegionAU915ChanMaskSet( chanMaskSet ); }
#define AU915_ADR_NEXT( ) AU915_CASE { return RegionAU915AdrNext( adrNext, drOut, txPowOut, adrAckCounter ); }
#define AU915_COMPUTE_RX_WINDOW_PARAMETERS( ) AU915_CASE { RegionAU915ComputeRxWindowParameters( datarate, minRxSymbols, rxError, rxConfigParams ); break; }
#define AU915_RX_CONFIG( ) AU915_CASE { return RegionAU915RxConfig( rxConfig, datarate ); }
#define AU915_TX_CONFIG( ) AU915_CASE { return RegionAU915TxConfig( txConfig, txPower, txTimeOnAir ); }
#define AU915_LINK_ADR_REQ( ) AU915_CASE { return RegionAU915LinkAdrReq( linkAdrReq, drOut, txPowOut, nbRepOut, nbBytesParsed ); }
#define AU915_RX_PARAM_SETUP_REQ( ) AU915_CASE { return RegionAU915RxParamSetupReq( rxParamSetupReq ); }
#define AU915_NEW_CHANNEL_REQ( ) AU915_CASE { return RegionAU915NewChannelReq( newChannelReq ); }
#define AU915_TX_PARAM_SETUP_REQ( ) AU915_CASE { return RegionAU915TxParamSetupReq( txParamSetupReq ); }
#define AU915_DL_CHANNEL_REQ( ) AU915_CASE { return RegionAU915DlChannelReq( dlChannelReq ); }
#define AU915_ALTERNATE_DR( ) AU915_CASE { return RegionAU915AlternateDr( alternateDr ); }
#define AU915_CALC_BACKOFF( ) AU915_CASE { RegionAU915CalcBackOff( calcBackOff ); break; }
#define AU915_NEXT_CHANNEL( ) AU915_CASE { return RegionAU915NextChannel( nextChanParams, channel, time, aggregatedTimeOff ); }
#define AU915_CHANNEL_ADD( ) AU915_CASE { return RegionAU915ChannelAdd( channelAdd ); }
#define AU915_CHANNEL_REMOVE( ) AU915_CASE { return RegionAU915ChannelsRemove( channelRemove ); }
#define AU915_SET_CONTINUOUS_WAVE( ) AU915_CASE { RegionAU915SetContinuousWave( continuousWave ); break; }
#define AU915_APPLY_DR_OFFSET( ) AU915_CASE { return RegionAU915ApplyDrOffset( downlinkDwellTime, dr, drOffset ); }
#else
#define AU915_IS_ACTIVE( )
#define AU915_GET_PHY_PARAM( )
#define AU915_SET_BAND_TX_DONE( )
#define AU915_INIT_DEFAULTS( )
#define AU915_VERIFY( )
#define AU915_APPLY_CF_LIST( )
#define AU915_CHAN_MASK_SET( )
#define AU915_ADR_NEXT( )
#define AU915_COMPUTE_RX_WINDOW_PARAMETERS( )
#define AU915_RX_CONFIG( )
#define AU915_TX_CONFIG( )
#define AU915_LINK_ADR_REQ( )
#define AU915_RX_PARAM_SETUP_REQ( )
#define AU915_NEW_CHANNEL_REQ( )
#define AU915_TX_PARAM_SETUP_REQ( )
#define AU915_DL_CHANNEL_REQ( )
#define AU915_ALTERNATE_DR( )
#define AU915_CALC_BACKOFF( )
#define AU915_NEXT_CHANNEL( )
#define AU915_CHANNEL_ADD( )
#define AU915_CHANNEL_REMOVE( )
#define AU915_SET_CONTINUOUS_WAVE( )
#define AU915_APPLY_DR_OFFSET( )
#endif
#ifdef REGION_CN470
#include "RegionCN470.h"
#define CN470_CASE case LORAMAC_REGION_CN470:
#define CN470_IS_ACTIVE( ) CN470_CASE { return true; }
#define CN470_GET_PHY_PARAM( ) CN470_CASE { return RegionCN470GetPhyParam( getPhy ); }
#define CN470_SET_BAND_TX_DONE( ) CN470_CASE { RegionCN470SetBandTxDone( txDone ); break; }
#define CN470_INIT_DEFAULTS( ) CN470_CASE { RegionCN470InitDefaults( type ); break; }
#define CN470_VERIFY( ) CN470_CASE { return RegionCN470Verify( verify, phyAttribute ); }
#define CN470_APPLY_CF_LIST( ) CN470_CASE { RegionCN470ApplyCFList( applyCFList ); break; }
#define CN470_CHAN_MASK_SET( ) CN470_CASE { return RegionCN470ChanMaskSet( chanMaskSet ); }
#define CN470_ADR_NEXT( ) CN470_CASE { return RegionCN470AdrNext( adrNext, drOut, txPowOut, adrAckCounter ); }
#define CN470_COMPUTE_RX_WINDOW_PARAMETERS( ) CN470_CASE { RegionCN470ComputeRxWindowParameters( datarate, minRxSymbols, rxError, rxConfigParams ); break; }
#define CN470_RX_CONFIG( ) CN470_CASE { return RegionCN470RxConfig( rxConfig, datarate ); }
#define CN470_TX_CONFIG( ) CN470_CASE { return RegionCN470TxConfig( txConfig, txPower, txTimeOnAir ); }
#define CN470_LINK_ADR_REQ( ) CN470_CASE { return RegionCN470LinkAdrReq( linkAdrReq, drOut, txPowOut, nbRepOut, nbBytesParsed ); }
#define CN470_RX_PARAM_SETUP_REQ( ) CN470_CASE { return RegionCN470RxParamSetupReq( rxParamSetupReq ); }
#define CN470_NEW_CHANNEL_REQ( ) CN470_CASE { return RegionCN470NewChannelReq( newChannelReq ); }
#define CN470_TX_PARAM_SETUP_REQ( ) CN470_CASE { return RegionCN470TxParamSetupReq( txParamSetupReq ); }
#define CN470_DL_CHANNEL_REQ( ) CN470_CASE { return RegionCN470DlChannelReq( dlChannelReq ); }
#define CN470_ALTERNATE_DR( ) CN470_CASE { return RegionCN470AlternateDr( alternateDr ); }
#define CN470_CALC_BACKOFF( ) CN470_CASE { RegionCN470CalcBackOff( calcBackOff ); break; }
#define CN470_NEXT_CHANNEL( ) CN470_CASE { return RegionCN470NextChannel( nextChanParams, channel, time, aggregatedTimeOff ); }
#define CN470_CHANNEL_ADD( ) CN470_CASE { return RegionCN470ChannelAdd( channelAdd ); }
#define CN470_CHANNEL_REMOVE( ) CN470_CASE { return RegionCN470ChannelsRemove( channelRemove ); }
#define CN470_SET_CONTINUOUS_WAVE( ) CN470_CASE { RegionCN470SetContinuousWave( continuousWave ); break; }
#define CN470_APPLY_DR_OFFSET( ) CN470_CASE { return RegionCN470ApplyDrOffset( downlinkDwellTime, dr, drOffset ); }
#else
#define CN470_IS_ACTIVE( )
#define CN470_GET_PHY_PARAM( )
#define CN470_SET_BAND_TX_DONE( )
#define CN470_INIT_DEFAULTS( )
#define CN470_VERIFY( )
#define CN470_APPLY_CF_LIST( )
#define CN470_CHAN_MASK_SET( )
#define CN470_ADR_NEXT( )
#define CN470_COMPUTE_RX_WINDOW_PARAMETERS( )
#define CN470_RX_CONFIG( )
#define CN470_TX_CONFIG( )
#define CN470_LINK_ADR_REQ( )
#define CN470_RX_PARAM_SETUP_REQ( )
#define CN470_NEW_CHANNEL_REQ( )
#define CN470_TX_PARAM_SETUP_REQ( )
#define CN470_DL_CHANNEL_REQ( )
#define CN470_ALTERNATE_DR( )
#define CN470_CALC_BACKOFF( )
#define CN470_NEXT_CHANNEL( )
#define CN470_CHANNEL_ADD( )
#define CN470_CHANNEL_REMOVE( )
#define CN470_SET_CONTINUOUS_WAVE( )
#define CN470_APPLY_DR_OFFSET( )
#endif
#ifdef REGION_CN779
#include "RegionCN779.h"
#define CN779_CASE case LORAMAC_REGION_CN779:
#define CN779_IS_ACTIVE( ) CN779_CASE { return true; }
#define CN779_GET_PHY_PARAM( ) CN779_CASE { return RegionCN779GetPhyParam( getPhy ); }
#define CN779_SET_BAND_TX_DONE( ) CN779_CASE { RegionCN779SetBandTxDone( txDone ); break; }
#define CN779_INIT_DEFAULTS( ) CN779_CASE { RegionCN779InitDefaults( type ); break; }
#define CN779_VERIFY( ) CN779_CASE { return RegionCN779Verify( verify, phyAttribute ); }
#define CN779_APPLY_CF_LIST( ) CN779_CASE { RegionCN779ApplyCFList( applyCFList ); break; }
#define CN779_CHAN_MASK_SET( ) CN779_CASE { return RegionCN779ChanMaskSet( chanMaskSet ); }
#define CN779_ADR_NEXT( ) CN779_CASE { return RegionCN779AdrNext( adrNext, drOut, txPowOut, adrAckCounter ); }
#define CN779_COMPUTE_RX_WINDOW_PARAMETERS( ) CN779_CASE { RegionCN779ComputeRxWindowParameters( datarate, minRxSymbols, rxError, rxConfigParams ); break; }
#define CN779_RX_CONFIG( ) CN779_CASE { return RegionCN779RxConfig( rxConfig, datarate ); }
#define CN779_TX_CONFIG( ) CN779_CASE { return RegionCN779TxConfig( txConfig, txPower, txTimeOnAir ); }
#define CN779_LINK_ADR_REQ( ) CN779_CASE { return RegionCN779LinkAdrReq( linkAdrReq, drOut, txPowOut, nbRepOut, nbBytesParsed ); }
#define CN779_RX_PARAM_SETUP_REQ( ) CN779_CASE { return RegionCN779RxParamSetupReq( rxParamSetupReq ); }
#define CN779_NEW_CHANNEL_REQ( ) CN779_CASE { return RegionCN779NewChannelReq( newChannelReq ); }
#define CN779_TX_PARAM_SETUP_REQ( ) CN779_CASE { return RegionCN779TxParamSetupReq( txParamSetupReq ); }
#define CN779_DL_CHANNEL_REQ( ) CN779_CASE { return RegionCN779DlChannelReq( dlChannelReq ); }
#define CN779_ALTERNATE_DR( ) CN779_CASE { return RegionCN779AlternateDr( alternateDr ); }
#define CN779_CALC_BACKOFF( ) CN779_CASE { RegionCN779CalcBackOff( calcBackOff ); break; }
#define CN779_NEXT_CHANNEL( ) CN779_CASE { return RegionCN779NextChannel( nextChanParams, channel, time, aggregatedTimeOff ); }
#define CN779_CHANNEL_ADD( ) CN779_CASE { return RegionCN779ChannelAdd( channelAdd ); }
#define CN779_CHANNEL_REMOVE( ) CN779_CASE { return RegionCN779ChannelsRemove( channelRemove ); }
#define CN779_SET_CONTINUOUS_WAVE( ) CN779_CASE { RegionCN779SetContinuousWave( continuousWave ); break; }
#define CN779_APPLY_DR_OFFSET( ) CN779_CASE { return RegionCN779ApplyDrOffset( downlinkDwellTime, dr, drOffset ); }
#else
#define CN779_IS_ACTIVE( )
#define CN779_GET_PHY_PARAM( )
#define CN779_SET_BAND_TX_DONE( )
#define CN779_INIT_DEFAULTS( )
#define CN779_VERIFY( )
#define CN779_APPLY_CF_LIST( )
#define CN779_CHAN_MASK_SET( )
#define CN779_ADR_NEXT( )
#define CN779_COMPUTE_RX_WINDOW_PARAMETERS( )
#define CN779_RX_CONFIG( )
#define CN779_TX_CONFIG( )
#define CN779_LINK_ADR_REQ( )
#define CN779_RX_PARAM_SETUP_REQ( )
#define CN779_NEW_CHANNEL_REQ( )
#define CN779_TX_PARAM_SETUP_REQ( )
#define CN779_DL_CHANNEL_REQ( )
#define CN779_ALTERNATE_DR( )
#define CN779_CALC_BACKOFF( )
#define CN779_NEXT_CHANNEL( )
#define CN779_CHANNEL_ADD( )
#define CN779_CHANNEL_REMOVE( )
#define CN779_SET_CONTINUOUS_WAVE( )
#define CN779_APPLY_DR_OFFSET( )
#endif
#ifdef REGION_EU433
#include "RegionEU433.h"
#define EU433_CASE case LORAMAC_REGION_EU433:
#define EU433_IS_ACTIVE( ) EU433_CASE { return true; }
#define EU433_GET_PHY_PARAM( ) EU433_CASE { return RegionEU433GetPhyParam( getPhy ); }
#define EU433_SET_BAND_TX_DONE( ) EU433_CASE { RegionEU433SetBandTxDone( txDone ); break; }
#define EU433_INIT_DEFAULTS( ) EU433_CASE { RegionEU433InitDefaults( type ); break; }
#define EU433_VERIFY( ) EU433_CASE { return RegionEU433Verify( verify, phyAttribute ); }
#define EU433_APPLY_CF_LIST( ) EU433_CASE { RegionEU433ApplyCFList( applyCFList ); break; }
#define EU433_CHAN_MASK_SET( ) EU433_CASE { return RegionEU433ChanMaskSet( chanMaskSet ); }
#define EU433_ADR_NEXT( ) EU433_CASE { return RegionEU433AdrNext( adrNext, drOut, txPowOut, adrAckCounter ); }
#define EU433_COMPUTE_RX_WINDOW_PARAMETERS( ) EU433_CASE { RegionEU433ComputeRxWindowParameters( datarate, minRxSymbols, rxError, rxConfigParams ); break; }
#define EU433_RX_CONFIG( ) EU433_CASE { return RegionEU433RxConfig( rxConfig, datarate ); }
#define EU433_TX_CONFIG( ) EU433_CASE { return RegionEU433TxConfig( txConfig, txPower, txTimeOnAir ); }
#define EU433_LINK_ADR_REQ( ) EU433_CASE { return RegionEU433LinkAdrReq( linkAdrReq, drOut, txPowOut, nbRepOut, nbBytesParsed ); }
#define EU433_RX_PARAM_SETUP_REQ( ) EU433_CASE { return RegionEU433RxParamSetupReq( rxParamSetupReq ); }
#define EU433_NEW_CHANNEL_REQ( ) EU433_CASE { return RegionEU433NewChannelReq( newChannelReq ); }
#define EU433_TX_PARAM_SETUP_REQ( ) EU433_CASE { return RegionEU433TxParamSetupReq( txParamSetupReq ); }
#define EU433_DL_CHANNEL_REQ( ) EU433_CASE { return RegionEU433DlChannelReq( dlChannelReq ); }
#define EU433_ALTERNATE_DR( ) EU433_CASE { return RegionEU433AlternateDr( alternateDr ); }
#define EU433_CALC_BACKOFF( ) EU433_CASE { RegionEU433CalcBackOff( calcBackOff ); break; }
#define EU433_NEXT_CHANNEL( ) EU433_CASE { return RegionEU433NextChannel( nextChanParams, channel, time, aggregatedTimeOff ); }
#define EU433_CHANNEL_ADD( ) EU433_CASE { return RegionEU433ChannelAdd( channelAdd ); }
#define EU433_CHANNEL_REMOVE( ) EU433_CASE { return RegionEU433ChannelsRemove( channelRemove ); }
#define EU433_SET_CONTINUOUS_WAVE( ) EU433_CASE { RegionEU433SetContinuousWave( continuousWave ); break; }
#define EU433_APPLY_DR_OFFSET( ) EU433_CASE { return RegionEU433ApplyDrOffset( downlinkDwellTime, dr, drOffset ); }
#else
#define EU433_IS_ACTIVE( )
#define EU433_GET_PHY_PARAM( )
#define EU433_SET_BAND_TX_DONE( )
#define EU433_INIT_DEFAULTS( )
#define EU433_VERIFY( )
#define EU433_APPLY_CF_LIST( )
#define EU433_CHAN_MASK_SET( )
#define EU433_ADR_NEXT( )
#define EU433_COMPUTE_RX_WINDOW_PARAMETERS( )
#define EU433_RX_CONFIG( )
#define EU433_TX_CONFIG( )
#define EU433_LINK_ADR_REQ( )
#define EU433_RX_PARAM_SETUP_REQ( )
#define EU433_NEW_CHANNEL_REQ( )
#define EU433_TX_PARAM_SETUP_REQ( )
#define EU433_DL_CHANNEL_REQ( )
#define EU433_ALTERNATE_DR( )
#define EU433_CALC_BACKOFF( )
#define EU433_NEXT_CHANNEL( )
#define EU433_CHANNEL_ADD( )
#define EU433_CHANNEL_REMOVE( )
#define EU433_SET_CONTINUOUS_WAVE( )
#define EU433_APPLY_DR_OFFSET( )
#endif
#ifdef REGION_EU868
#include "RegionEU868.h"
#define EU868_CASE case LORAMAC_REGION_EU868:
#define EU868_IS_ACTIVE( ) EU868_CASE { return true; }
#define EU868_GET_PHY_PARAM( ) EU868_CASE { return RegionEU868GetPhyParam( getPhy ); }
#define EU868_SET_BAND_TX_DONE( ) EU868_CASE { RegionEU868SetBandTxDone( txDone ); break; }
#define EU868_INIT_DEFAULTS( ) EU868_CASE { RegionEU868InitDefaults( type ); break; }
#define EU868_VERIFY( ) EU868_CASE { return RegionEU868Verify( verify, phyAttribute ); }
#define EU868_APPLY_CF_LIST( ) EU868_CASE { RegionEU868ApplyCFList( applyCFList ); break; }
#define EU868_CHAN_MASK_SET( ) EU868_CASE { return RegionEU868ChanMaskSet( chanMaskSet ); }
#define EU868_ADR_NEXT( ) EU868_CASE { return RegionEU868AdrNext( adrNext, drOut, txPowOut, adrAckCounter ); }
#define EU868_COMPUTE_RX_WINDOW_PARAMETERS( ) EU868_CASE { RegionEU868ComputeRxWindowParameters( datarate, minRxSymbols, rxError, rxConfigParams ); break; }
#define EU868_RX_CONFIG( ) EU868_CASE { return RegionEU868RxConfig( rxConfig, datarate ); }
#define EU868_TX_CONFIG( ) EU868_CASE { return RegionEU868TxConfig( txConfig, txPower, txTimeOnAir ); }
#define EU868_LINK_ADR_REQ( ) EU868_CASE { return RegionEU868LinkAdrReq( linkAdrReq, drOut, txPowOut, nbRepOut, nbBytesParsed ); }
#define EU868_RX_PARAM_SETUP_REQ( ) EU868_CASE { return RegionEU868RxParamSetupReq( rxParamSetupReq ); }
#define EU868_NEW_CHANNEL_REQ( ) EU868_CASE { return RegionEU868NewChannelReq( newChannelReq ); }
#define EU868_TX_PARAM_SETUP_REQ( ) EU868_CASE { return RegionEU868TxParamSetupReq( txParamSetupReq ); }
#define EU868_DL_CHANNEL_REQ( ) EU868_CASE { return RegionEU868DlChannelReq( dlChannelReq ); }
#define EU868_ALTERNATE_DR( ) EU868_CASE { return RegionEU868AlternateDr( alternateDr ); }
#define EU868_CALC_BACKOFF( ) EU868_CASE { RegionEU868CalcBackOff( calcBackOff ); break; }
#define EU868_NEXT_CHANNEL( ) EU868_CASE { return RegionEU868NextChannel( nextChanParams, channel, time, aggregatedTimeOff ); }
#define EU868_CHANNEL_ADD( ) EU868_CASE { return RegionEU868ChannelAdd( channelAdd ); }
#define EU868_CHANNEL_REMOVE( ) EU868_CASE { return RegionEU868ChannelsRemove( channelRemove ); }
#define EU868_SET_CONTINUOUS_WAVE( ) EU868_CASE { RegionEU868SetContinuousWave( continuousWave ); break; }
#define EU868_APPLY_DR_OFFSET( ) EU868_CASE { return RegionEU868ApplyDrOffset( downlinkDwellTime, dr, drOffset ); }
#else
#define EU868_IS_ACTIVE( )
#define EU868_GET_PHY_PARAM( )
#define EU868_SET_BAND_TX_DONE( )
#define EU868_INIT_DEFAULTS( )
#define EU868_VERIFY( )
#define EU868_APPLY_CF_LIST( )
#define EU868_CHAN_MASK_SET( )
#define EU868_ADR_NEXT( )
#define EU868_COMPUTE_RX_WINDOW_PARAMETERS( )
#define EU868_RX_CONFIG( )
#define EU868_TX_CONFIG( )
#define EU868_LINK_ADR_REQ( )
#define EU868_RX_PARAM_SETUP_REQ( )
#define EU868_NEW_CHANNEL_REQ( )
#define EU868_TX_PARAM_SETUP_REQ( )
#define EU868_DL_CHANNEL_REQ( )
#define EU868_ALTERNATE_DR( )
#define EU868_CALC_BACKOFF( )
#define EU868_NEXT_CHANNEL( )
#define EU868_CHANNEL_ADD( )
#define EU868_CHANNEL_REMOVE( )
#define EU868_SET_CONTINUOUS_WAVE( )
#define EU868_APPLY_DR_OFFSET( )
#endif
#ifdef REGION_KR920
#include "RegionKR920.h"
#define KR920_CASE case LORAMAC_REGION_KR920:
#define KR920_IS_ACTIVE( ) KR920_CASE { return true; }
#define KR920_GET_PHY_PARAM( ) KR920_CASE { return RegionKR920GetPhyParam( getPhy ); }
#define KR920_SET_BAND_TX_DONE( ) KR920_CASE { RegionKR920SetBandTxDone( txDone ); break; }
#define KR920_INIT_DEFAULTS( ) KR920_CASE { RegionKR920InitDefaults( type ); break; }
#define KR920_VERIFY( ) KR920_CASE { return RegionKR920Verify( verify, phyAttribute ); }
#define KR920_APPLY_CF_LIST( ) KR920_CASE { RegionKR920ApplyCFList( applyCFList ); break; }
#define KR920_CHAN_MASK_SET( ) KR920_CASE { return RegionKR920ChanMaskSet( chanMaskSet ); }
#define KR920_ADR_NEXT( ) KR920_CASE { return RegionKR920AdrNext( adrNext, drOut, txPowOut, adrAckCounter ); }
#define KR920_COMPUTE_RX_WINDOW_PARAMETERS( ) KR920_CASE { RegionKR920ComputeRxWindowParameters( datarate, minRxSymbols, rxError, rxConfigParams ); break; }
#define KR920_RX_CONFIG( ) KR920_CASE { return RegionKR920RxConfig( rxConfig, datarate ); }
#define KR920_TX_CONFIG( ) KR920_CASE { return RegionKR920TxConfig( txConfig, txPower, txTimeOnAir ); }
#define KR920_LINK_ADR_REQ( ) KR920_CASE { return RegionKR920LinkAdrReq( linkAdrReq, drOut, txPowOut, nbRepOut, nbBytesParsed ); }
#define KR920_RX_PARAM_SETUP_REQ( ) KR920_CASE { return RegionKR920RxParamSetupReq( rxParamSetupReq ); }
#define KR920_NEW_CHANNEL_REQ( ) KR920_CASE { return RegionKR920NewChannelReq( newChannelReq ); }
#define KR920_TX_PARAM_SETUP_REQ( ) KR920_CASE { return RegionKR920TxParamSetupReq( txParamSetupReq ); }
#define KR920_DL_CHANNEL_REQ( ) KR920_CASE { return RegionKR920DlChannelReq( dlChannelReq ); }
#define KR920_ALTERNATE_DR( ) KR920_CASE { return RegionKR920AlternateDr( alternateDr ); }
#define KR920_CALC_BACKOFF( ) KR920_CASE { RegionKR920CalcBackOff( calcBackOff ); break; }
#define KR920_NEXT_CHANNEL( ) KR920_CASE { return RegionKR920NextChannel( nextChanParams, channel, time, aggregatedTimeOff ); }
#define KR920_CHANNEL_ADD( ) KR920_CASE { return RegionKR920ChannelAdd( channelAdd ); }
#define KR920_CHANNEL_REMOVE( ) KR920_CASE { return RegionKR920ChannelsRemove( channelRemove ); }
#define KR920_SET_CONTINUOUS_WAVE( ) KR920_CASE { RegionKR920SetContinuousWave( continuousWave ); break; }
#define KR920_APPLY_DR_OFFSET( ) KR920_CASE { return RegionKR920ApplyDrOffset( downlinkDwellTime, dr, drOffset ); }
#else
#define KR920_IS_ACTIVE( )
#define KR920_GET_PHY_PARAM( )
#define KR920_SET_BAND_TX_DONE( )
#define KR920_INIT_DEFAULTS( )
#define KR920_VERIFY( )
#define KR920_APPLY_CF_LIST( )
#define KR920_CHAN_MASK_SET( )
#define KR920_ADR_NEXT( )
#define KR920_COMPUTE_RX_WINDOW_PARAMETERS( )
#define KR920_RX_CONFIG( )
#define KR920_TX_CONFIG( )
#define KR920_LINK_ADR_REQ( )
#define KR920_RX_PARAM_SETUP_REQ( )
#define KR920_NEW_CHANNEL_REQ( )
#define KR920_TX_PARAM_SETUP_REQ( )
#define KR920_DL_CHANNEL_REQ( )
#define KR920_ALTERNATE_DR( )
#define KR920_CALC_BACKOFF( )
#define KR920_NEXT_CHANNEL( )
#define KR920_CHANNEL_ADD( )
#define KR920_CHANNEL_REMOVE( )
#define KR920_SET_CONTINUOUS_WAVE( )
#define KR920_APPLY_DR_OFFSET( )
#endif
#ifdef REGION_IN865
#include "RegionIN865.h"
#define IN865_CASE case LORAMAC_REGION_IN865:
#define IN865_IS_ACTIVE( ) IN865_CASE { return true; }
#define IN865_GET_PHY_PARAM( ) IN865_CASE { return RegionIN865GetPhyParam( getPhy ); }
#define IN865_SET_BAND_TX_DONE( ) IN865_CASE { RegionIN865SetBandTxDone( txDone ); break; }
#define IN865_INIT_DEFAULTS( ) IN865_CASE { RegionIN865InitDefaults( type ); break; }
#define IN865_VERIFY( ) IN865_CASE { return RegionIN865Verify( verify, phyAttribute ); }
#define IN865_APPLY_CF_LIST( ) IN865_CASE { RegionIN865ApplyCFList( applyCFList ); break; }
#define IN865_CHAN_MASK_SET( ) IN865_CASE { return RegionIN865ChanMaskSet( chanMaskSet ); }
#define IN865_ADR_NEXT( ) IN865_CASE { return RegionIN865AdrNext( adrNext, drOut, txPowOut, adrAckCounter ); }
#define IN865_COMPUTE_RX_WINDOW_PARAMETERS( ) IN865_CASE { RegionIN865ComputeRxWindowParameters( datarate, minRxSymbols, rxError, rxConfigParams ); break; }
#define IN865_RX_CONFIG( ) IN865_CASE { return RegionIN865RxConfig( rxConfig, datarate ); }
#define IN865_TX_CONFIG( ) IN865_CASE { return RegionIN865TxConfig( txConfig, txPower, txTimeOnAir ); }
#define IN865_LINK_ADR_REQ( ) IN865_CASE { return RegionIN865LinkAdrReq( linkAdrReq, drOut, txPowOut, nbRepOut, nbBytesParsed ); }
#define IN865_RX_PARAM_SETUP_REQ( ) IN865_CASE { return RegionIN865RxParamSetupReq( rxParamSetupReq ); }
#define IN865_NEW_CHANNEL_REQ( ) IN865_CASE { return RegionIN865NewChannelReq( newChannelReq ); }
#define IN865_TX_PARAM_SETUP_REQ( ) IN865_CASE { return RegionIN865TxParamSetupReq( txParamSetupReq ); }
#define IN865_DL_CHANNEL_REQ( ) IN865_CASE { return RegionIN865DlChannelReq( dlChannelReq ); }
#define IN865_ALTERNATE_DR( ) IN865_CASE { return RegionIN865AlternateDr( alternateDr ); }
#define IN865_CALC_BACKOFF( ) IN865_CASE { RegionIN865CalcBackOff( calcBackOff ); break; }
#define IN865_NEXT_CHANNEL( ) IN865_CASE { return RegionIN865NextChannel( nextChanParams, channel, time, aggregatedTimeOff ); }
#define IN865_CHANNEL_ADD( ) IN865_CASE { return RegionIN865ChannelAdd( channelAdd ); }
#define IN865_CHANNEL_REMOVE( ) IN865_CASE { return RegionIN865ChannelsRemove( channelRemove ); }
#define IN865_SET_CONTINUOUS_WAVE( ) IN865_CASE { RegionIN865SetContinuousWave( continuousWave ); break; }
#define IN865_APPLY_DR_OFFSET( ) IN865_CASE { return RegionIN865ApplyDrOffset( downlinkDwellTime, dr, drOffset ); }
#else
#define IN865_IS_ACTIVE( )
#define IN865_GET_PHY_PARAM( )
#define IN865_SET_BAND_TX_DONE( )
#define IN865_INIT_DEFAULTS( )
#define IN865_VERIFY( )
#define IN865_APPLY_CF_LIST( )
#define IN865_CHAN_MASK_SET( )
#define IN865_ADR_NEXT( )
#define IN865_COMPUTE_RX_WINDOW_PARAMETERS( )
#define IN865_RX_CONFIG( )
#define IN865_TX_CONFIG( )
#define IN865_LINK_ADR_REQ( )
#define IN865_RX_PARAM_SETUP_REQ( )
#define IN865_NEW_CHANNEL_REQ( )
#define IN865_TX_PARAM_SETUP_REQ( )
#define IN865_DL_CHANNEL_REQ( )
#define IN865_ALTERNATE_DR( )
#define IN865_CALC_BACKOFF( )
#define IN865_NEXT_CHANNEL( )
#define IN865_CHANNEL_ADD( )
#define IN865_CHANNEL_REMOVE( )
#define IN865_SET_CONTINUOUS_WAVE( )
#define IN865_APPLY_DR_OFFSET( )
#endif
#ifdef REGION_US915
#include "RegionUS915.h"
#define US915_CASE case LORAMAC_REGION_US915:
#define US915_IS_ACTIVE( ) US915_CASE { return true; }
#define US915_GET_PHY_PARAM( ) US915_CASE { return RegionUS915GetPhyParam( getPhy ); }
#define US915_SET_BAND_TX_DONE( ) US915_CASE { RegionUS915SetBandTxDone( txDone ); break; }
#define US915_INIT_DEFAULTS( ) US915_CASE { RegionUS915InitDefaults( type ); break; }
#define US915_VERIFY( ) US915_CASE { return RegionUS915Verify( verify, phyAttribute ); }
#define US915_APPLY_CF_LIST( ) US915_CASE { RegionUS915ApplyCFList( applyCFList ); break; }
#define US915_CHAN_MASK_SET( ) US915_CASE { return RegionUS915ChanMaskSet( chanMaskSet ); }
#define US915_ADR_NEXT( ) US915_CASE { return RegionUS915AdrNext( adrNext, drOut, txPowOut, adrAckCounter ); }
#define US915_COMPUTE_RX_WINDOW_PARAMETERS( ) US915_CASE { RegionUS915ComputeRxWindowParameters( datarate, minRxSymbols, rxError, rxConfigParams ); break; }
#define US915_RX_CONFIG( ) US915_CASE { return RegionUS915RxConfig( rxConfig, datarate ); }
#define US915_TX_CONFIG( ) US915_CASE { return RegionUS915TxConfig( txConfig, txPower, txTimeOnAir ); }
#define US915_LINK_ADR_REQ( ) US915_CASE { return RegionUS915LinkAdrReq( linkAdrReq, drOut, txPowOut, nbRepOut, nbBytesParsed ); }
#define US915_RX_PARAM_SETUP_REQ( ) US915_CASE { return RegionUS915RxParamSetupReq( rxParamSetupReq ); }
#define US915_NEW_CHANNEL_REQ( ) US915_CASE { return RegionUS915NewChannelReq( newChannelReq ); }
#define US915_TX_PARAM_SETUP_REQ( ) US915_CASE { return RegionUS915TxParamSetupReq( txParamSetupReq ); }
#define US915_DL_CHANNEL_REQ( ) US915_CASE { return RegionUS915DlChannelReq( dlChannelReq ); }
#define US915_ALTERNATE_DR( ) US915_CASE { return RegionUS915AlternateDr( alternateDr ); }
#define US915_CALC_BACKOFF( ) US915_CASE { RegionUS915CalcBackOff( calcBackOff ); break; }
#define US915_NEXT_CHANNEL( ) US915_CASE { return RegionUS915NextChannel( nextChanParams, channel, time, aggregatedTimeOff ); }
#define US915_CHANNEL_ADD( ) US915_CASE { return RegionUS915ChannelAdd( channelAdd ); }
#define US915_CHANNEL_REMOVE( ) US915_CASE { return RegionUS915ChannelsRemove( channelRemove ); }
#define US915_SET_CONTINUOUS_WAVE( ) US915_CASE { RegionUS915SetContinuousWave( continuousWave ); break; }
#define US915_APPLY_DR_OFFSET( ) US915_CASE { return RegionUS915ApplyDrOffset( downlinkDwellTime, dr, drOffset ); }
#else
#define US915_IS_ACTIVE( )
#define US915_GET_PHY_PARAM( )
#define US915_SET_BAND_TX_DONE( )
#define US915_INIT_DEFAULTS( )
#define US915_VERIFY( )
#define US915_APPLY_CF_LIST( )
#define US915_CHAN_MASK_SET( )
#define US915_ADR_NEXT( )
#define US915_COMPUTE_RX_WINDOW_PARAMETERS( )
#define US915_RX_CONFIG( )
#define US915_TX_CONFIG( )
#define US915_LINK_ADR_REQ( )
#define US915_RX_PARAM_SETUP_REQ( )
#define US915_NEW_CHANNEL_REQ( )
#define US915_TX_PARAM_SETUP_REQ( )
#define US915_DL_CHANNEL_REQ( )
#define US915_ALTERNATE_DR( )
#define US915_CALC_BACKOFF( )
#define US915_NEXT_CHANNEL( )
#define US915_CHANNEL_ADD( )
#define US915_CHANNEL_REMOVE( )
#define US915_SET_CONTINUOUS_WAVE( )
#define US915_APPLY_DR_OFFSET( )
#endif
#ifdef REGION_US915_HYBRID
#include "RegionUS915-Hybrid.h"
#define US915_HYBRID_CASE case LORAMAC_REGION_US915_HYBRID:
#define US915_HYBRID_IS_ACTIVE( ) US915_HYBRID_CASE { return true; }
#define US915_HYBRID_GET_PHY_PARAM( ) US915_HYBRID_CASE { return RegionUS915HybridGetPhyParam( getPhy ); }
#define US915_HYBRID_SET_BAND_TX_DONE( ) US915_HYBRID_CASE { RegionUS915HybridSetBandTxDone( txDone ); break; }
#define US915_HYBRID_INIT_DEFAULTS( ) US915_HYBRID_CASE { RegionUS915HybridInitDefaults( type ); break; }
#define US915_HYBRID_VERIFY( ) US915_HYBRID_CASE { return RegionUS915HybridVerify( verify, phyAttribute ); }
#define US915_HYBRID_APPLY_CF_LIST( ) US915_HYBRID_CASE { RegionUS915HybridApplyCFList( applyCFList ); break; }
#define US915_HYBRID_CHAN_MASK_SET( ) US915_HYBRID_CASE { return RegionUS915HybridChanMaskSet( chanMaskSet ); }
#define US915_HYBRID_ADR_NEXT( ) US915_HYBRID_CASE { return RegionUS915HybridAdrNext( adrNext, drOut, txPowOut, adrAckCounter ); }
#define US915_HYBRID_COMPUTE_RX_WINDOW_PARAMETERS( ) US915_HYBRID_CASE { RegionUS915HybridComputeRxWindowParameters( datarate, minRxSymbols, rxError, rxConfigParams ); break; }
#define US915_HYBRID_RX_CONFIG( ) US915_HYBRID_CASE { return RegionUS915HybridRxConfig( rxConfig, datarate ); }
#define US915_HYBRID_TX_CONFIG( ) US915_HYBRID_CASE { return RegionUS915HybridTxConfig( txConfig, txPower, txTimeOnAir ); }
#define US915_HYBRID_LINK_ADR_REQ( ) US915_HYBRID_CASE { return RegionUS915HybridLinkAdrReq( linkAdrReq, drOut, txPowOut, nbRepOut, nbBytesParsed ); }
#define US915_HYBRID_RX_PARAM_SETUP_REQ( ) US915_HYBRID_CASE { return RegionUS915HybridRxParamSetupReq( rxParamSetupReq ); }
#define US915_HYBRID_NEW_CHANNEL_REQ( ) US915_HYBRID_CASE { return RegionUS915HybridNewChannelReq( newChannelReq ); }
#define US915_HYBRID_TX_PARAM_SETUP_REQ( ) US915_HYBRID_CASE { return RegionUS915HybridTxParamSetupReq( txParamSetupReq ); }
#define US915_HYBRID_DL_CHANNEL_REQ( ) US915_HYBRID_CASE { return RegionUS915HybridDlChannelReq( dlChannelReq ); }
#define US915_HYBRID_ALTERNATE_DR( ) US915_HYBRID_CASE { return RegionUS915HybridAlternateDr( alternateDr ); }
#define US915_HYBRID_CALC_BACKOFF( ) US915_HYBRID_CASE { RegionUS915HybridCalcBackOff( calcBackOff ); break; }
#define US915_HYBRID_NEXT_CHANNEL( ) US915_HYBRID_CASE { return RegionUS915HybridNextChannel( nextChanParams, channel, time, aggregatedTimeOff ); }
#define US915_HYBRID_CHANNEL_ADD( ) US915_HYBRID_CASE { return RegionUS915HybridChannelAdd( channelAdd ); }
#define US915_HYBRID_CHANNEL_REMOVE( ) US915_HYBRID_CASE { return RegionUS915HybridChannelsRemove( channelRemove ); }
#define US915_HYBRID_SET_CONTINUOUS_WAVE( ) US915_HYBRID_CASE { RegionUS915HybridSetContinuousWave( continuousWave ); break; }
#define US915_HYBRID_APPLY_DR_OFFSET( ) US915_HYBRID_CASE { return RegionUS915HybridApplyDrOffset( downlinkDwellTime, dr, drOffset ); }
#else
#define US915_HYBRID_IS_ACTIVE( )
#define US915_HYBRID_GET_PHY_PARAM( )
#define US915_HYBRID_SET_BAND_TX_DONE( )
#define US915_HYBRID_INIT_DEFAULTS( )
#define US915_HYBRID_VERIFY( )
#define US915_HYBRID_APPLY_CF_LIST( )
#define US915_HYBRID_CHAN_MASK_SET( )
#define US915_HYBRID_ADR_NEXT( )
#define US915_HYBRID_COMPUTE_RX_WINDOW_PARAMETERS( )
#define US915_HYBRID_RX_CONFIG( )
#define US915_HYBRID_TX_CONFIG( )
#define US915_HYBRID_LINK_ADR_REQ( )
#define US915_HYBRID_RX_PARAM_SETUP_REQ( )
#define US915_HYBRID_NEW_CHANNEL_REQ( )
#define US915_HYBRID_TX_PARAM_SETUP_REQ( )
#define US915_HYBRID_DL_CHANNEL_REQ( )
#define US915_HYBRID_ALTERNATE_DR( )
#define US915_HYBRID_CALC_BACKOFF( )
#define US915_HYBRID_NEXT_CHANNEL( )
#define US915_HYBRID_CHANNEL_ADD( )
#define US915_HYBRID_CHANNEL_REMOVE( )
#define US915_HYBRID_SET_CONTINUOUS_WAVE( )
#define US915_HYBRID_APPLY_DR_OFFSET( )
#endif
bool RegionIsActive( LoRaMacRegion_t region )
{
switch( region )
{
AS923_IS_ACTIVE( );
AU915_IS_ACTIVE( );
CN470_IS_ACTIVE( );
CN779_IS_ACTIVE( );
EU433_IS_ACTIVE( );
EU868_IS_ACTIVE( );
KR920_IS_ACTIVE( );
IN865_IS_ACTIVE( );
US915_IS_ACTIVE( );
US915_HYBRID_IS_ACTIVE( );
default:
{
return false;
}
}
}
PhyParam_t RegionGetPhyParam( LoRaMacRegion_t region, GetPhyParams_t* getPhy )
{
PhyParam_t phyParam = { 0 };
switch( region )
{
AS923_GET_PHY_PARAM( );
AU915_GET_PHY_PARAM( );
CN470_GET_PHY_PARAM( );
CN779_GET_PHY_PARAM( );
EU433_GET_PHY_PARAM( );
EU868_GET_PHY_PARAM( );
KR920_GET_PHY_PARAM( );
IN865_GET_PHY_PARAM( );
US915_GET_PHY_PARAM( );
US915_HYBRID_GET_PHY_PARAM( );
default:
{
return phyParam;
}
}
}
void RegionSetBandTxDone( LoRaMacRegion_t region, SetBandTxDoneParams_t* txDone )
{
switch( region )
{
AS923_SET_BAND_TX_DONE( );
AU915_SET_BAND_TX_DONE( );
CN470_SET_BAND_TX_DONE( );
CN779_SET_BAND_TX_DONE( );
EU433_SET_BAND_TX_DONE( );
EU868_SET_BAND_TX_DONE( );
KR920_SET_BAND_TX_DONE( );
IN865_SET_BAND_TX_DONE( );
US915_SET_BAND_TX_DONE( );
US915_HYBRID_SET_BAND_TX_DONE( );
default:
{
return;
}
}
}
void RegionInitDefaults( LoRaMacRegion_t region, InitType_t type )
{
switch( region )
{
AS923_INIT_DEFAULTS( );
AU915_INIT_DEFAULTS( );
CN470_INIT_DEFAULTS( );
CN779_INIT_DEFAULTS( );
EU433_INIT_DEFAULTS( );
EU868_INIT_DEFAULTS( );
KR920_INIT_DEFAULTS( );
IN865_INIT_DEFAULTS( );
US915_INIT_DEFAULTS( );
US915_HYBRID_INIT_DEFAULTS( );
default:
{
break;
}
}
}
bool RegionVerify( LoRaMacRegion_t region, VerifyParams_t* verify, PhyAttribute_t phyAttribute )
{
switch( region )
{
AS923_VERIFY( );
AU915_VERIFY( );
CN470_VERIFY( );
CN779_VERIFY( );
EU433_VERIFY( );
EU868_VERIFY( );
KR920_VERIFY( );
IN865_VERIFY( );
US915_VERIFY( );
US915_HYBRID_VERIFY( );
default:
{
return false;
}
}
}
void RegionApplyCFList( LoRaMacRegion_t region, ApplyCFListParams_t* applyCFList )
{
switch( region )
{
AS923_APPLY_CF_LIST( );
AU915_APPLY_CF_LIST( );
CN470_APPLY_CF_LIST( );
CN779_APPLY_CF_LIST( );
EU433_APPLY_CF_LIST( );
EU868_APPLY_CF_LIST( );
KR920_APPLY_CF_LIST( );
IN865_APPLY_CF_LIST( );
US915_APPLY_CF_LIST( );
US915_HYBRID_APPLY_CF_LIST( );
default:
{
break;
}
}
}
bool RegionChanMaskSet( LoRaMacRegion_t region, ChanMaskSetParams_t* chanMaskSet )
{
switch( region )
{
AS923_CHAN_MASK_SET( );
AU915_CHAN_MASK_SET( );
CN470_CHAN_MASK_SET( );
CN779_CHAN_MASK_SET( );
EU433_CHAN_MASK_SET( );
EU868_CHAN_MASK_SET( );
KR920_CHAN_MASK_SET( );
IN865_CHAN_MASK_SET( );
US915_CHAN_MASK_SET( );
US915_HYBRID_CHAN_MASK_SET( );
default:
{
return false;
}
}
}
bool RegionAdrNext( LoRaMacRegion_t region, AdrNextParams_t* adrNext, int8_t* drOut, int8_t* txPowOut, uint32_t* adrAckCounter )
{
switch( region )
{
AS923_ADR_NEXT( );
AU915_ADR_NEXT( );
CN470_ADR_NEXT( );
CN779_ADR_NEXT( );
EU433_ADR_NEXT( );
EU868_ADR_NEXT( );
KR920_ADR_NEXT( );
IN865_ADR_NEXT( );
US915_ADR_NEXT( );
US915_HYBRID_ADR_NEXT( );
default:
{
return false;
}
}
}
void RegionComputeRxWindowParameters( LoRaMacRegion_t region, int8_t datarate, uint8_t minRxSymbols, uint32_t rxError, RxConfigParams_t *rxConfigParams )
{
switch( region )
{
AS923_COMPUTE_RX_WINDOW_PARAMETERS( );
AU915_COMPUTE_RX_WINDOW_PARAMETERS( );
CN470_COMPUTE_RX_WINDOW_PARAMETERS( );
CN779_COMPUTE_RX_WINDOW_PARAMETERS( );
EU433_COMPUTE_RX_WINDOW_PARAMETERS( );
EU868_COMPUTE_RX_WINDOW_PARAMETERS( );
KR920_COMPUTE_RX_WINDOW_PARAMETERS( );
IN865_COMPUTE_RX_WINDOW_PARAMETERS( );
US915_COMPUTE_RX_WINDOW_PARAMETERS( );
US915_HYBRID_COMPUTE_RX_WINDOW_PARAMETERS( );
default:
{
break;
}
}
}
bool RegionRxConfig( LoRaMacRegion_t region, RxConfigParams_t* rxConfig, int8_t* datarate )
{
switch( region )
{
AS923_RX_CONFIG( );
AU915_RX_CONFIG( );
CN470_RX_CONFIG( );
CN779_RX_CONFIG( );
EU433_RX_CONFIG( );
EU868_RX_CONFIG( );
KR920_RX_CONFIG( );
IN865_RX_CONFIG( );
US915_RX_CONFIG( );
US915_HYBRID_RX_CONFIG( );
default:
{
return false;
}
}
}
bool RegionTxConfig( LoRaMacRegion_t region, TxConfigParams_t* txConfig, int8_t* txPower, TimerTime_t* txTimeOnAir )
{
switch( region )
{
AS923_TX_CONFIG( );
AU915_TX_CONFIG( );
CN470_TX_CONFIG( );
CN779_TX_CONFIG( );
EU433_TX_CONFIG( );
EU868_TX_CONFIG( );
KR920_TX_CONFIG( );
IN865_TX_CONFIG( );
US915_TX_CONFIG( );
US915_HYBRID_TX_CONFIG( );
default:
{
return false;
}
}
}
uint8_t RegionLinkAdrReq( LoRaMacRegion_t region, LinkAdrReqParams_t* linkAdrReq, int8_t* drOut, int8_t* txPowOut, uint8_t* nbRepOut, uint8_t* nbBytesParsed )
{
switch( region )
{
AS923_LINK_ADR_REQ( );
AU915_LINK_ADR_REQ( );
CN470_LINK_ADR_REQ( );
CN779_LINK_ADR_REQ( );
EU433_LINK_ADR_REQ( );
EU868_LINK_ADR_REQ( );
KR920_LINK_ADR_REQ( );
IN865_LINK_ADR_REQ( );
US915_LINK_ADR_REQ( );
US915_HYBRID_LINK_ADR_REQ( );
default:
{
return 0;
}
}
}
uint8_t RegionRxParamSetupReq( LoRaMacRegion_t region, RxParamSetupReqParams_t* rxParamSetupReq )
{
switch( region )
{
AS923_RX_PARAM_SETUP_REQ( );
AU915_RX_PARAM_SETUP_REQ( );
CN470_RX_PARAM_SETUP_REQ( );
CN779_RX_PARAM_SETUP_REQ( );
EU433_RX_PARAM_SETUP_REQ( );
EU868_RX_PARAM_SETUP_REQ( );
KR920_RX_PARAM_SETUP_REQ( );
IN865_RX_PARAM_SETUP_REQ( );
US915_RX_PARAM_SETUP_REQ( );
US915_HYBRID_RX_PARAM_SETUP_REQ( );
default:
{
return 0;
}
}
}
uint8_t RegionNewChannelReq( LoRaMacRegion_t region, NewChannelReqParams_t* newChannelReq )
{
switch( region )
{
AS923_NEW_CHANNEL_REQ( );
AU915_NEW_CHANNEL_REQ( );
CN470_NEW_CHANNEL_REQ( );
CN779_NEW_CHANNEL_REQ( );
EU433_NEW_CHANNEL_REQ( );
EU868_NEW_CHANNEL_REQ( );
KR920_NEW_CHANNEL_REQ( );
IN865_NEW_CHANNEL_REQ( );
US915_NEW_CHANNEL_REQ( );
US915_HYBRID_NEW_CHANNEL_REQ( );
default:
{
return 0;
}
}
}
int8_t RegionTxParamSetupReq( LoRaMacRegion_t region, TxParamSetupReqParams_t* txParamSetupReq )
{
switch( region )
{
AS923_TX_PARAM_SETUP_REQ( );
AU915_TX_PARAM_SETUP_REQ( );
CN470_TX_PARAM_SETUP_REQ( );
CN779_TX_PARAM_SETUP_REQ( );
EU433_TX_PARAM_SETUP_REQ( );
EU868_TX_PARAM_SETUP_REQ( );
KR920_TX_PARAM_SETUP_REQ( );
IN865_TX_PARAM_SETUP_REQ( );
US915_TX_PARAM_SETUP_REQ( );
US915_HYBRID_TX_PARAM_SETUP_REQ( );
default:
{
return 0;
}
}
}
uint8_t RegionDlChannelReq( LoRaMacRegion_t region, DlChannelReqParams_t* dlChannelReq )
{
switch( region )
{
AS923_DL_CHANNEL_REQ( );
AU915_DL_CHANNEL_REQ( );
CN470_DL_CHANNEL_REQ( );
CN779_DL_CHANNEL_REQ( );
EU433_DL_CHANNEL_REQ( );
EU868_DL_CHANNEL_REQ( );
KR920_DL_CHANNEL_REQ( );
IN865_DL_CHANNEL_REQ( );
US915_DL_CHANNEL_REQ( );
US915_HYBRID_DL_CHANNEL_REQ( );
default:
{
return 0;
}
}
}
int8_t RegionAlternateDr( LoRaMacRegion_t region, AlternateDrParams_t* alternateDr )
{
switch( region )
{
AS923_ALTERNATE_DR( );
AU915_ALTERNATE_DR( );
CN470_ALTERNATE_DR( );
CN779_ALTERNATE_DR( );
EU433_ALTERNATE_DR( );
EU868_ALTERNATE_DR( );
KR920_ALTERNATE_DR( );
IN865_ALTERNATE_DR( );
US915_ALTERNATE_DR( );
US915_HYBRID_ALTERNATE_DR( );
default:
{
return 0;
}
}
}
void RegionCalcBackOff( LoRaMacRegion_t region, CalcBackOffParams_t* calcBackOff )
{
switch( region )
{
AS923_CALC_BACKOFF( );
AU915_CALC_BACKOFF( );
CN470_CALC_BACKOFF( );
CN779_CALC_BACKOFF( );
EU433_CALC_BACKOFF( );
EU868_CALC_BACKOFF( );
KR920_CALC_BACKOFF( );
IN865_CALC_BACKOFF( );
US915_CALC_BACKOFF( );
US915_HYBRID_CALC_BACKOFF( );
default:
{
break;
}
}
}
bool RegionNextChannel( LoRaMacRegion_t region, NextChanParams_t* nextChanParams, uint8_t* channel, TimerTime_t* time, TimerTime_t* aggregatedTimeOff )
{
switch( region )
{
AS923_NEXT_CHANNEL( );
AU915_NEXT_CHANNEL( );
CN470_NEXT_CHANNEL( );
CN779_NEXT_CHANNEL( );
EU433_NEXT_CHANNEL( );
EU868_NEXT_CHANNEL( );
KR920_NEXT_CHANNEL( );
IN865_NEXT_CHANNEL( );
US915_NEXT_CHANNEL( );
US915_HYBRID_NEXT_CHANNEL( );
default:
{
return false;
}
}
}
LoRaMacStatus_t RegionChannelAdd( LoRaMacRegion_t region, ChannelAddParams_t* channelAdd )
{
switch( region )
{
AS923_CHANNEL_ADD( );
AU915_CHANNEL_ADD( );
CN470_CHANNEL_ADD( );
CN779_CHANNEL_ADD( );
EU433_CHANNEL_ADD( );
EU868_CHANNEL_ADD( );
KR920_CHANNEL_ADD( );
IN865_CHANNEL_ADD( );
US915_CHANNEL_ADD( );
US915_HYBRID_CHANNEL_ADD( );
default:
{
return LORAMAC_STATUS_PARAMETER_INVALID;
}
}
}
bool RegionChannelsRemove( LoRaMacRegion_t region, ChannelRemoveParams_t* channelRemove )
{
switch( region )
{
AS923_CHANNEL_REMOVE( );
AU915_CHANNEL_REMOVE( );
CN470_CHANNEL_REMOVE( );
CN779_CHANNEL_REMOVE( );
EU433_CHANNEL_REMOVE( );
EU868_CHANNEL_REMOVE( );
KR920_CHANNEL_REMOVE( );
IN865_CHANNEL_REMOVE( );
US915_CHANNEL_REMOVE( );
US915_HYBRID_CHANNEL_REMOVE( );
default:
{
return false;
}
}
}
void RegionSetContinuousWave( LoRaMacRegion_t region, ContinuousWaveParams_t* continuousWave )
{
switch( region )
{
AS923_SET_CONTINUOUS_WAVE( );
AU915_SET_CONTINUOUS_WAVE( );
CN470_SET_CONTINUOUS_WAVE( );
CN779_SET_CONTINUOUS_WAVE( );
EU433_SET_CONTINUOUS_WAVE( );
EU868_SET_CONTINUOUS_WAVE( );
KR920_SET_CONTINUOUS_WAVE( );
IN865_SET_CONTINUOUS_WAVE( );
US915_SET_CONTINUOUS_WAVE( );
US915_HYBRID_SET_CONTINUOUS_WAVE( );
default:
{
break;
}
}
}
uint8_t RegionApplyDrOffset( LoRaMacRegion_t region, uint8_t downlinkDwellTime, int8_t dr, int8_t drOffset )
{
switch( region )
{
AS923_APPLY_DR_OFFSET( );
AU915_APPLY_DR_OFFSET( );
CN470_APPLY_DR_OFFSET( );
CN779_APPLY_DR_OFFSET( );
EU433_APPLY_DR_OFFSET( );
EU868_APPLY_DR_OFFSET( );
KR920_APPLY_DR_OFFSET( );
IN865_APPLY_DR_OFFSET( );
US915_APPLY_DR_OFFSET( );
US915_HYBRID_APPLY_DR_OFFSET( );
default:
{
return dr;
}
}
}