Fixed ADR issues with not applying new channel map
Dependents: eleven-x-semtech-workshop-demo
Fork of LoRaWAN-lib by
Diff: LoRaMac.cpp
- Revision:
- 0:91d1a7783bb9
- Child:
- 1:91e4e6c60d1e
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/LoRaMac.cpp Tue Oct 20 13:21:26 2015 +0000 @@ -0,0 +1,2702 @@ +/* + / _____) _ | | +( (____ _____ ____ _| |_ _____ ____| |__ + \____ \| ___ | (_ _) ___ |/ ___) _ \ + _____) ) ____| | | || |_| ____( (___| | | | +(______/|_____)_|_|_| \__)_____)\____)_| |_| + (C)2013 Semtech + +Description: LoRa MAC layer implementation + +License: Revised BSD License, see LICENSE.TXT file include in the project + +Maintainer: Miguel Luis and Gregory Cristian +*/ +#include "mbed.h" +#include "board.h" +#include "utilities.h" +#include "sx1276-hal.h" + +#include "LoRaMacCrypto.h" +#include "LoRaMac.h" + +/*! + * Maximum PHY layer payload size + */ +#define LORAMAC_PHY_MAXPAYLOAD 250 + +/*! + * Device IEEE EUI + */ +static uint8_t *LoRaMacDevEui; + +/*! + * Application IEEE EUI + */ +static uint8_t *LoRaMacAppEui; + +/*! + * AES encryption/decryption cipher application key + */ +static uint8_t *LoRaMacAppKey; + +/*! + * AES encryption/decryption cipher network session key + */ +static uint8_t LoRaMacNwkSKey[] = +{ + 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, + 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 +}; + +/*! + * AES encryption/decryption cipher application session key + */ +static uint8_t LoRaMacAppSKey[] = +{ + 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, + 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 +}; + +/*! + * Device nonce is a random value extracted by issuing a sequence of RSSI + * measurements + */ +static uint16_t LoRaMacDevNonce; + +/*! + * Network ID ( 3 bytes ) + */ +static uint32_t LoRaMacNetID; + +/*! + * Mote Address + */ +static uint32_t LoRaMacDevAddr; + +/*! + * Mutlicast channels linked list + */ +static MulticastParams_t *MulticastChannels = NULL; + +/*! + * Actual device class + */ +static DeviceClass_t LoRaMacDeviceClass; + +/*! + * Indicates if the node is connected to a private or public network + */ +static bool PublicNetwork; + +/*! + * Indicates if the node supports repeaters + */ +static bool RepeaterSupport; + +/*! + * Buffer containing the data to be sent or received. + */ +static uint8_t LoRaMacBuffer[LORAMAC_PHY_MAXPAYLOAD]; + +/*! + * Length of packet in LoRaMacBuffer + */ +static uint16_t LoRaMacBufferPktLen = 0; + +/*! + * Buffer containing the upper layer data. + */ +static uint8_t LoRaMacPayload[LORAMAC_PHY_MAXPAYLOAD]; +static uint8_t LoRaMacRxPayload[LORAMAC_PHY_MAXPAYLOAD]; + +/*! + * LoRaMAC frame counter. Each time a packet is sent the counter is incremented. + * Only the 16 LSB bits are sent + */ +static uint32_t UpLinkCounter = 1; + +/*! + * LoRaMAC frame counter. Each time a packet is received the counter is incremented. + * Only the 16 LSB bits are received + */ +static uint32_t DownLinkCounter = 0; + +/*! + * IsPacketCounterFixed enables the MIC field tests by fixing the + * UpLinkCounter value + */ +static bool IsUpLinkCounterFixed = false; + +/*! + * Used for test purposes. Disables the opening of the reception windows. + */ +static bool IsRxWindowsEnabled = true; + +/*! + * Indicates if the MAC layer has already joined a network. + */ +static bool IsLoRaMacNetworkJoined = false; + +/*! + * LoRaMac ADR control status + */ +static bool AdrCtrlOn = false; + +/*! + * Counts the number of missed ADR acknowledgements + */ +static uint32_t AdrAckCounter = 0; + +/*! + * If the node has sent a FRAME_TYPE_DATA_CONFIRMED_UP this variable indicates + * if the nodes needs to manage the server acknowledgement. + */ +static bool NodeAckRequested = false; + +/*! + * If the server has sent a FRAME_TYPE_DATA_CONFIRMED_DOWN this variable indicates + * if the ACK bit must be set for the next transmission + */ +static bool SrvAckRequested = false; + +/*! + * Indicates if the MAC layer wants to send MAC commands + */ +static bool MacCommandsInNextTx = false; + +/*! + * Contains the current MacCommandsBuffer index + */ +static uint8_t MacCommandsBufferIndex = 0; + +/*! + * Buffer containing the MAC layer commands + */ +static uint8_t MacCommandsBuffer[15]; + +#if defined( USE_BAND_433 ) +/*! + * Data rates table definition + */ +const uint8_t Datarates[] = { 12, 11, 10, 9, 8, 7, 7, 50 }; + +/*! + * Maximum payload with respect to the datarate index. Cannot operate with repeater. + */ +const uint8_t MaxPayloadOfDatarate[] = { 59, 59, 59, 123, 250, 250, 250, 250 }; + +/*! + * Maximum payload with respect to the datarate index. Can operate with repeater. + */ +const uint8_t MaxPayloadOfDatarateRepeater[] = { 59, 59, 59, 123, 230, 230, 230, 230 }; + +/*! + * Tx output powers table definition + */ +const int8_t TxPowers[] = { 20, 14, 11, 8, 5, 2 }; + +/*! + * LoRaMac bands + */ +static Band_t Bands[LORA_MAX_NB_BANDS] = +{ + BAND0, +}; + +/*! + * LoRaMAC channels + */ +static ChannelParams_t Channels[LORA_MAX_NB_CHANNELS] = +{ + LC1, + LC2, + LC3, +}; +#elif defined( USE_BAND_780 ) +/*! + * Data rates table definition + */ +const uint8_t Datarates[] = { 12, 11, 10, 9, 8, 7, 7, 50 }; + +/*! + * Maximum payload with respect to the datarate index. Cannot operate with repeater. + */ +const uint8_t MaxPayloadOfDatarate[] = { 59, 59, 59, 123, 250, 250, 250, 250 }; + +/*! + * Maximum payload with respect to the datarate index. Can operate with repeater. + */ +const uint8_t MaxPayloadOfDatarateRepeater[] = { 59, 59, 59, 123, 230, 230, 230, 230 }; + +/*! + * Tx output powers table definition + */ +const int8_t TxPowers[] = { 20, 14, 11, 8, 5, 2 }; + +/*! + * LoRaMac bands + */ +static Band_t Bands[LORA_MAX_NB_BANDS] = +{ + BAND0, +}; + +/*! + * LoRaMAC channels + */ +static ChannelParams_t Channels[LORA_MAX_NB_CHANNELS] = +{ + LC1, + LC2, + LC3, +}; +#elif defined( USE_BAND_868 ) +/*! + * Data rates table definition + */ +const uint8_t Datarates[] = { 12, 11, 10, 9, 8, 7, 7, 50 }; + +/*! + * Maximum payload with respect to the datarate index. Cannot operate with repeater. + */ +const uint8_t MaxPayloadOfDatarate[] = { 51, 51, 51, 115, 242, 242, 242, 242 }; + +/*! + * Maximum payload with respect to the datarate index. Can operate with repeater. + */ +const uint8_t MaxPayloadOfDatarateRepeater[] = { 51, 51, 51, 115, 222, 222, 222, 222 }; + +/*! + * Tx output powers table definition + */ +const int8_t TxPowers[] = { 20, 14, 11, 8, 5, 2 }; + +/*! + * LoRaMac bands + */ +static Band_t Bands[LORA_MAX_NB_BANDS] = +{ + BAND0, + BAND1, + BAND2, + BAND3, + BAND4, +}; + +/*! + * LoRaMAC channels + */ +static ChannelParams_t Channels[LORA_MAX_NB_CHANNELS] = +{ + LC1, + LC2, + LC3, + LC4, + LC5, + LC6, + LC7, + LC8, + LC9, +}; +#elif defined( USE_BAND_915 ) || defined( USE_BAND_915_HYBRID ) +/*! + * Data rates table definition + */ +const uint8_t Datarates[] = { 10, 9, 8, 7, 8, 0, 0, 0, 12, 11, 10, 9, 8, 7, 0, 0 }; + +/*! + * Up/Down link data rates offset definition + */ +const int8_t datarateOffsets[16][4] = +{ + { DR_10, DR_9 , DR_8 , DR_8 }, // DR_0 + { DR_11, DR_10, DR_9 , DR_8 }, // DR_1 + { DR_12, DR_11, DR_10, DR_9 }, // DR_2 + { DR_13, DR_12, DR_11, DR_10 }, // DR_3 + { DR_13, DR_13, DR_12, DR_11 }, // DR_4 + { 0xFF , 0xFF , 0xFF , 0xFF }, + { 0xFF , 0xFF , 0xFF , 0xFF }, + { 0xFF , 0xFF , 0xFF , 0xFF }, + { DR_8 , DR_8 , DR_8 , DR_8 }, + { DR_9 , DR_8 , DR_8 , DR_8 }, + { DR_10, DR_9 , DR_8 , DR_8 }, + { DR_11, DR_10, DR_9 , DR_8 }, + { DR_12, DR_11, DR_10, DR_9 }, + { DR_13, DR_12, DR_11, DR_10 }, + { 0xFF , 0xFF , 0xFF , 0xFF }, + { 0xFF , 0xFF , 0xFF , 0xFF }, +}; + +/*! + * Maximum payload with respect to the datarate index. Cannot operate with repeater. + */ +const uint8_t MaxPayloadOfDatarate[] = { 11, 53, 129, 242, 242, 0, 0, 0, 53, 129, 242, 242, 242, 242, 0, 0 }; + +/*! + * Maximum payload with respect to the datarate index. Can operate with repeater. + */ +const uint8_t MaxPayloadOfDatarateRepeater[] = { 11, 53, 129, 242, 242, 0, 0, 0, 33, 103, 222, 222, 222, 222, 0, 0 }; + +/*! + * Tx output powers table definition + */ +const int8_t TxPowers[] = { 30, 28, 26, 24, 22, 20, 18, 16, 14, 12, 10 }; + +/*! + * LoRaMac bands + */ +static Band_t Bands[LORA_MAX_NB_BANDS] = +{ + BAND0, +}; + +/*! + * LoRaMAC channels + */ +static ChannelParams_t Channels[LORA_MAX_NB_CHANNELS]; + +#else + #error "Please define a frequency band in the compiler options." +#endif + +/*! + * LoRaMAC 2nd reception window settings + */ +static Rx2ChannelParams_t Rx2Channel = RX_WND_2_CHANNEL; + +/*! + * Datarate offset between uplink and downlink on first window + */ +static uint8_t Rx1DrOffset = 0; + +/*! + * Mask indicating which channels are enabled + */ +static uint16_t ChannelsMask[6]; + +/*! + * Channels Tx output power + */ +static int8_t ChannelsTxPower = LORAMAC_DEFAULT_TX_POWER; + +/*! + * Channels datarate + */ +static int8_t ChannelsDatarate = LORAMAC_DEFAULT_DATARATE; + +/*! + * Channels default datarate + */ +static int8_t ChannelsDefaultDatarate = LORAMAC_DEFAULT_DATARATE; + +/*! + * Number of uplink messages repetitions [1:15] (unconfirmed messages only) + */ +static uint8_t ChannelsNbRep = 1; + +/*! + * Uplink messages repetitions counter + */ +static uint8_t ChannelsNbRepCounter = 0; + +/*! + * Maximum duty cycle + * \remark Possibility to shutdown the device. + */ +static uint8_t MaxDCycle = 0; + +/*! + * Agregated duty cycle management + */ +static uint16_t AggregatedDCycle; +static TimerTime_t AggregatedLastTxDoneTime; +static TimerTime_t AggregatedTimeOff; + +/*! + * Enables/Disables duty cycle management (Test only) + */ +static bool DutyCycleOn; + +/*! + * Current channel index + */ +static uint8_t Channel; + +/*! + * LoRaMac internal states + */ +enum LoRaMacState_e +{ + MAC_IDLE = 0x00000000, + MAC_TX_RUNNING = 0x00000001, + MAC_RX = 0x00000002, + MAC_ACK_REQ = 0x00000004, + MAC_ACK_RETRY = 0x00000008, + MAC_CHANNEL_CHECK = 0x00000010, +}; + +/*! + * LoRaMac internal state + */ +uint32_t LoRaMacState = MAC_IDLE; + +/*! + * LoRaMac timer used to check the LoRaMacState (runs every second) + */ +static TimerEvent_t MacStateCheckTimer; + +/*! + * LoRaMac upper layer event functions + */ +static LoRaMacEvent_t *LoRaMacEvents; + +/*! + * LoRaMac notification event flags + */ +LoRaMacEventFlags_t LoRaMacEventFlags; + +/*! + * LoRaMac notification event info + */ +LoRaMacEventInfo_t LoRaMacEventInfo; + +/*! + * LoRaMac channel check timer + */ +static TimerEvent_t ChannelCheckTimer; + +/*! + * LoRaMac duty cycle delayed Tx timer + */ +static TimerEvent_t TxDelayedTimer; + +/*! + * LoRaMac reception windows timers + */ +static TimerEvent_t RxWindowTimer1; +static TimerEvent_t RxWindowTimer2; + +/*! + * LoRaMac reception windows delay from end of Tx + */ +static uint32_t ReceiveDelay1; +static uint32_t ReceiveDelay2; +static uint32_t JoinAcceptDelay1; +static uint32_t JoinAcceptDelay2; + +/*! + * LoRaMac reception windows delay + * \remark normal frame: RxWindowXDelay = ReceiveDelayX - RADIO_WAKEUP_TIME + * join frame : RxWindowXDelay = JoinAcceptDelayX - RADIO_WAKEUP_TIME + */ +static uint32_t RxWindow1Delay; +static uint32_t RxWindow2Delay; + +/*! + * LoRaMac maximum time a reception window stays open + */ +static uint32_t MaxRxWindow; + +/*! + * Acknowledge timeout timer. Used for packet retransmissions. + */ +static TimerEvent_t AckTimeoutTimer; + +/*! + * Number of trials to get a frame acknowledged + */ +static uint8_t AckTimeoutRetries = 1; + +/*! + * Number of trials to get a frame acknowledged + */ +static uint8_t AckTimeoutRetriesCounter = 1; + +/*! + * Indicates if the AckTimeout timer has expired or not + */ +static bool AckTimeoutRetry = false; + +/*! + * Last transmission time on air + */ +TimerTime_t TxTimeOnAir = 0; + +/*! + * Function to be executed on Radio Tx Done event + */ +static void OnRadioTxDone( void ); + +/*! + * Function to be executed on Radio Rx Done event + */ +static void OnRadioRxDone( uint8_t *payload, uint16_t size, int16_t rssi, int8_t snr ); + +/*! + * Function executed on Radio Tx Timeout event + */ +static void OnRadioTxTimeout( void ); + +/*! + * Function executed on Radio Rx error event + */ +static void OnRadioRxError( void ); + +/*! + * Function executed on Radio Rx Timeout event + */ +static void OnRadioRxTimeout( void ); + +/*! + * Function executed on Resend Frame timer event. + */ +static void OnMacStateCheckTimerEvent( void ); + +/*! + * Function executed on duty cycle delayed Tx timer event + */ +static void OnTxDelayedTimerEvent( void ); + +/*! + * Function executed on channel check timer event + */ +static void OnChannelCheckTimerEvent( void ); + +/*! + * Function executed on first Rx window timer event + */ +static void OnRxWindow1TimerEvent( void ); + +/*! + * Function executed on second Rx window timer event + */ +static void OnRxWindow2TimerEvent( void ); + +/*! + * Function executed on AckTimeout timer event + */ +static void OnAckTimeoutTimerEvent( void ); + +/*! + * Radio events function pointer + */ +//static RadioEvents_t RadioEvents; +SX1276MB1xAS Radio( OnRadioTxDone, OnRadioTxTimeout, OnRadioRxDone, OnRadioRxTimeout, OnRadioRxError, NULL, NULL ); + +/*! + * \brief Validates if the payload fits into the frame, taking the datarate + * into account. + * + * \details Refer to chapter 4.3.2 of the LoRaWAN specification, v1.0 + * + * \param lenN Length of the application payload. The length depends on the + * datarate and is region specific + * + * \param datarate Current datarate + * + * \retval [false: payload does not fit into the frame, true: payload fits into + * the frame] + */ +static bool ValidatePayloadLength( uint8_t lenN, int8_t datarate ); + +#if defined( USE_BAND_915 ) || defined( USE_BAND_915_HYBRID ) +/*! + * \brief Counts the number of enabled 125 kHz channels in the channel mask. + * This function can only be applied to US915 band. + * + * \param channelsMask Pointer to the first element of the channel mask + * + * \retval Number of enabled channels in the channel mask + */ +static uint8_t CountNbEnabled125kHzChannels( uint16_t *channelsMask ); +#endif + +/*! + * \brief Limits the Tx power according to the number of enabled channels + * + * \retval Returns the maximum valid tx power + */ +static int8_t LimitTxPower( int8_t txPower ); + +/*! + * Searches and set the next random available channel + * + * \retval status Function status [0: OK, 1: Unable to find a free channel] + */ +static uint8_t LoRaMacSetNextChannel( void ) +{ + uint8_t i = 0; + uint8_t j = 0; + uint8_t k = 0; + uint8_t nbEnabledChannels = 0; + uint8_t enabledChannels[LORA_MAX_NB_CHANNELS]; + TimerTime_t curTime = TimerGetCurrentTime( ); + + memset( enabledChannels, 0, LORA_MAX_NB_CHANNELS ); + + // Update Aggregated duty cycle + if( AggregatedTimeOff < ( curTime - AggregatedLastTxDoneTime ) ) + { + AggregatedTimeOff = 0; + } + + // Update bands Time OFF + TimerTime_t minTime = ( TimerTime_t )( -1 ); + for( i = 0; i < LORA_MAX_NB_BANDS; i++ ) + { + if( DutyCycleOn == true ) + { + if( Bands[i].TimeOff < ( curTime - Bands[i].LastTxDoneTime ) ) + { + Bands[i].TimeOff = 0; + } + if( Bands[i].TimeOff != 0 ) + { + minTime = MIN( Bands[i].TimeOff, minTime ); + } + } + else + { + minTime = 0; + Bands[i].TimeOff = 0; + } + } + + // Search how many channels are enabled + for( i = 0, k = 0; i < LORA_MAX_NB_CHANNELS; i += 16, k++ ) + { + for( j = 0; j < 16; j++ ) + { + if( ( ChannelsMask[k] & ( 1 << j ) ) != 0 ) + { + if( Channels[i + j].Frequency == 0 ) + { // Check if the channel is enabled + continue; + } + if( ( ( Channels[i + j].DrRange.Fields.Min <= ChannelsDatarate ) && + ( ChannelsDatarate <= Channels[i + j].DrRange.Fields.Max ) ) == false ) + { // Check if the current channel selection supports the given datarate + continue; + } + if( Bands[Channels[i + j].Band].TimeOff > 0 ) + { // Check if the band is available for transmission + continue; + } + if( AggregatedTimeOff > 0 ) + { // Check if there is time available for transmission + continue; + } + enabledChannels[nbEnabledChannels++] = i + j; + } + } + } + if( nbEnabledChannels > 0 ) + { + Channel = enabledChannels[randr( 0, nbEnabledChannels - 1 )]; + LoRaMacState &= ~MAC_CHANNEL_CHECK; + TimerStop( &ChannelCheckTimer ); + return 0; + } + // No free channel found. + // Check again + if( ( LoRaMacState & MAC_CHANNEL_CHECK ) == 0 ) + { + TimerSetValue( &ChannelCheckTimer, minTime ); + TimerStart( &ChannelCheckTimer ); + LoRaMacState |= MAC_CHANNEL_CHECK; + } + return 1; +} + +/* + * TODO: Add documentation + */ +void OnChannelCheckTimerEvent( void ) +{ + TimerStop( &ChannelCheckTimer ); + + LoRaMacState &= ~MAC_CHANNEL_CHECK; + if( LoRaMacSetNextChannel( ) == 0 ) + { + if( ( LoRaMacState & MAC_TX_RUNNING ) == MAC_TX_RUNNING ) + { + LoRaMacSendFrameOnChannel( Channels[Channel] ); + } + } +} + +/*! + * Adds a new MAC command to be sent. + * + * \Remark MAC layer internal function + * + * \param [in] cmd MAC command to be added + * [MOTE_MAC_LINK_CHECK_REQ, + * MOTE_MAC_LINK_ADR_ANS, + * MOTE_MAC_DUTY_CYCLE_ANS, + * MOTE_MAC_RX2_PARAM_SET_ANS, + * MOTE_MAC_DEV_STATUS_ANS + * MOTE_MAC_NEW_CHANNEL_ANS] + * \param [in] p1 1st parameter ( optional depends on the command ) + * \param [in] p2 2nd parameter ( optional depends on the command ) + * + * \retval status Function status [0: OK, 1: Unknown command, 2: Buffer full] + */ +static uint8_t AddMacCommand( uint8_t cmd, uint8_t p1, uint8_t p2 ) +{ + MacCommandsBuffer[MacCommandsBufferIndex++] = cmd; + switch( cmd ) + { + case MOTE_MAC_LINK_CHECK_REQ: + // No payload for this command + break; + case MOTE_MAC_LINK_ADR_ANS: + // Margin + MacCommandsBuffer[MacCommandsBufferIndex++] = p1; + break; + case MOTE_MAC_DUTY_CYCLE_ANS: + // No payload for this answer + break; + case MOTE_MAC_RX_PARAM_SETUP_ANS: + // Status: Datarate ACK, Channel ACK + MacCommandsBuffer[MacCommandsBufferIndex++] = p1; + break; + case MOTE_MAC_DEV_STATUS_ANS: + // 1st byte Battery + // 2nd byte Margin + MacCommandsBuffer[MacCommandsBufferIndex++] = p1; + MacCommandsBuffer[MacCommandsBufferIndex++] = p2; + break; + case MOTE_MAC_NEW_CHANNEL_ANS: + // Status: Datarate range OK, Channel frequency OK + MacCommandsBuffer[MacCommandsBufferIndex++] = p1; + break; + case MOTE_MAC_RX_TIMING_SETUP_ANS: + // No payload for this answer + break; + default: + return 1; + } + if( MacCommandsBufferIndex <= 15 ) + { + MacCommandsInNextTx = true; + return 0; + } + else + { + return 2; + } +} + +// TODO: Add Documentation +static void LoRaMacNotify( LoRaMacEventFlags_t *flags, LoRaMacEventInfo_t *info ) +{ + if( ( LoRaMacEvents != NULL ) && ( LoRaMacEvents->MacEvent != NULL ) ) + { + LoRaMacEvents->MacEvent( flags, info ); + } + flags->Value = 0; +} + +typedef uint8_t ( *GetBatteryLevel )( ); +GetBatteryLevel LoRaMacGetBatteryLevel; + +void LoRaMacInit( LoRaMacEvent_t *events, uint8_t ( *getBatteryLevel )( ) ) +{ + LoRaMacEvents = events; + + LoRaMacEventFlags.Value = 0; + + LoRaMacEventInfo.TxAckReceived = false; + LoRaMacEventInfo.TxNbRetries = 0; + LoRaMacEventInfo.TxDatarate = 7; + LoRaMacEventInfo.RxPort = 1; + LoRaMacEventInfo.RxBuffer = NULL; + LoRaMacEventInfo.RxBufferSize = 0; + LoRaMacEventInfo.RxRssi = 0; + LoRaMacEventInfo.RxSnr = 0; + LoRaMacEventInfo.Energy = 0; + LoRaMacEventInfo.DemodMargin = 0; + LoRaMacEventInfo.NbGateways = 0; + LoRaMacEventInfo.Status = LORAMAC_EVENT_INFO_STATUS_OK; + + LoRaMacGetBatteryLevel = getBatteryLevel; + + LoRaMacDeviceClass = CLASS_A; + + UpLinkCounter = 1; + DownLinkCounter = 0; + + IsLoRaMacNetworkJoined = false; + LoRaMacState = MAC_IDLE; + +#if defined( USE_BAND_433 ) + ChannelsMask[0] = LC( 1 ) + LC( 2 ) + LC( 3 ); +#elif defined( USE_BAND_780 ) + ChannelsMask[0] = LC( 1 ) + LC( 2 ) + LC( 3 ); +#elif defined( USE_BAND_868 ) + ChannelsMask[0] = LC( 1 ) + LC( 2 ) + LC( 3 ); +#elif defined( USE_BAND_915 ) + ChannelsMask[0] = 0xFFFF; + ChannelsMask[1] = 0xFFFF; + ChannelsMask[2] = 0xFFFF; + ChannelsMask[3] = 0xFFFF; + ChannelsMask[4] = 0x00FF; + ChannelsMask[5] = 0x0000; +#elif defined( USE_BAND_915_HYBRID ) + ChannelsMask[0] = 0x00FF; + ChannelsMask[1] = 0x0000; + ChannelsMask[2] = 0x0000; + ChannelsMask[3] = 0x0000; + ChannelsMask[4] = 0x0001; + ChannelsMask[5] = 0x0000; +#else + #error "Please define a frequency band in the compiler options." +#endif + +#if defined( USE_BAND_915 ) || defined( USE_BAND_915_HYBRID ) + // 125 kHz channels + for( uint8_t i = 0; i < LORA_MAX_NB_CHANNELS - 8; i++ ) + { + Channels[i].Frequency = 902.3e6 + i * 200e3; + Channels[i].DrRange.Value = ( DR_3 << 4 ) | DR_0; + Channels[i].Band = 0; + } + // 500 kHz channels + for( uint8_t i = LORA_MAX_NB_CHANNELS - 8; i < LORA_MAX_NB_CHANNELS; i++ ) + { + Channels[i].Frequency = 903.0e6 + ( i - ( LORA_MAX_NB_CHANNELS - 8 ) ) * 1.6e6; + Channels[i].DrRange.Value = ( DR_4 << 4 ) | DR_4; + Channels[i].Band = 0; + } +#endif + + ChannelsTxPower = LORAMAC_DEFAULT_TX_POWER; + ChannelsDefaultDatarate = ChannelsDatarate = LORAMAC_DEFAULT_DATARATE; + ChannelsNbRep = 1; + ChannelsNbRepCounter = 0; + + MaxDCycle = 0; + AggregatedDCycle = 1; + AggregatedLastTxDoneTime = 0; + AggregatedTimeOff = 0; + +#if defined( USE_BAND_433 ) + DutyCycleOn = false; +#elif defined( USE_BAND_780 ) + DutyCycleOn = false; +#elif defined( USE_BAND_868 ) + DutyCycleOn = true; +#elif defined( USE_BAND_915 ) || defined( USE_BAND_915_HYBRID ) + DutyCycleOn = false; +#else + #error "Please define a frequency band in the compiler options." +#endif + + MaxRxWindow = MAX_RX_WINDOW; + ReceiveDelay1 = RECEIVE_DELAY1; + ReceiveDelay2 = RECEIVE_DELAY2; + JoinAcceptDelay1 = JOIN_ACCEPT_DELAY1; + JoinAcceptDelay2 = JOIN_ACCEPT_DELAY2; + + TimerInit( &MacStateCheckTimer, OnMacStateCheckTimerEvent ); + TimerSetValue( &MacStateCheckTimer, MAC_STATE_CHECK_TIMEOUT ); + + TimerInit( &ChannelCheckTimer, OnChannelCheckTimerEvent ); + TimerInit( &TxDelayedTimer, OnTxDelayedTimerEvent ); + TimerInit( &RxWindowTimer1, OnRxWindow1TimerEvent ); + TimerInit( &RxWindowTimer2, OnRxWindow2TimerEvent ); + TimerInit( &AckTimeoutTimer, OnAckTimeoutTimerEvent ); + + // Random seed initialization + srand( Radio.Random( ) ); + + // Initialize channel index. + Channel = LORA_MAX_NB_CHANNELS; + + PublicNetwork = true; + LoRaMacSetPublicNetwork( PublicNetwork ); + Radio.Sleep( ); +} + +void LoRaMacSetAdrOn( bool enable ) +{ + AdrCtrlOn = enable; +} + +void LoRaMacInitNwkIds( uint32_t netID, uint32_t devAddr, uint8_t *nwkSKey, uint8_t *appSKey ) +{ + LoRaMacNetID = netID; + LoRaMacDevAddr = devAddr; + LoRaMacMemCpy( nwkSKey, LoRaMacNwkSKey, 16 ); + LoRaMacMemCpy( appSKey, LoRaMacAppSKey, 16 ); + + IsLoRaMacNetworkJoined = true; +} + +void LoRaMacMulticastChannelAdd( MulticastParams_t *channelParam ) +{ + // Reset downlink counter + channelParam->DownLinkCounter = 0; + + if( MulticastChannels == NULL ) + { + MulticastChannels = channelParam; + } + else + { + MulticastParams_t *cur = MulticastChannels; + while( cur->Next != NULL ) + { + cur = cur->Next; + } + cur->Next = channelParam; + } +} + +void LoRaMacMulticastChannelRemove( MulticastParams_t *channelParam ) +{ + MulticastParams_t *cur = NULL; + + // Remove the front element + if( MulticastChannels == channelParam ) + { + if( MulticastChannels != NULL ) + { + cur = MulticastChannels; + MulticastChannels = MulticastChannels->Next; + cur->Next = NULL; + // Last node in the list + if( cur == MulticastChannels ) + { + MulticastChannels = NULL; + } + } + return; + } + + // Remove last element + if( channelParam->Next == NULL ) + { + if( MulticastChannels != NULL ) + { + cur = MulticastChannels; + MulticastParams_t *last = NULL; + while( cur->Next != NULL ) + { + last = cur; + cur = cur->Next; + } + if( last != NULL ) + { + last->Next = NULL; + } + // Last node in the list + if( cur == last ) + { + MulticastChannels = NULL; + } + } + return; + } + + // Remove a middle element + cur = MulticastChannels; + while( cur != NULL ) + { + if( cur->Next == channelParam ) + { + break; + } + cur = cur->Next; + } + if( cur != NULL ) + { + MulticastParams_t *tmp = cur ->Next; + cur->Next = tmp->Next; + tmp->Next = NULL; + } +} + +uint8_t LoRaMacJoinReq( uint8_t *devEui, uint8_t *appEui, uint8_t *appKey ) +{ + LoRaMacHeader_t macHdr; + + LoRaMacDevEui = devEui; + LoRaMacAppEui = appEui; + LoRaMacAppKey = appKey; + + macHdr.Value = 0; + macHdr.Bits.MType = FRAME_TYPE_JOIN_REQ; + + IsLoRaMacNetworkJoined = false; + +#if defined( USE_BAND_915 ) || defined( USE_BAND_915_HYBRID ) + static uint8_t drSwitch = 0; + + if( drSwitch == 0 ) + { + ChannelsDatarate = DR_0; + } + else + { + ChannelsDatarate = DR_4; + } + drSwitch = ( drSwitch + 1 ) % 2; +#endif + return LoRaMacSend( &macHdr, NULL, 0, NULL, 0 ); +} + +uint8_t LoRaMacLinkCheckReq( void ) +{ + return AddMacCommand( MOTE_MAC_LINK_CHECK_REQ, 0, 0 ); +} + +uint8_t LoRaMacSendFrame( uint8_t fPort, void *fBuffer, uint16_t fBufferSize ) +{ + LoRaMacHeader_t macHdr; + + macHdr.Value = 0; + + macHdr.Bits.MType = FRAME_TYPE_DATA_UNCONFIRMED_UP; + return LoRaMacSend( &macHdr, NULL, fPort, fBuffer, fBufferSize ); +} + +uint8_t LoRaMacSendConfirmedFrame( uint8_t fPort, void *fBuffer, uint16_t fBufferSize, uint8_t retries ) +{ + LoRaMacHeader_t macHdr; + + if( AdrCtrlOn == false ) + { + ChannelsDatarate = ChannelsDefaultDatarate; + } + AckTimeoutRetries = retries; + AckTimeoutRetriesCounter = 1; + + macHdr.Value = 0; + + macHdr.Bits.MType = FRAME_TYPE_DATA_CONFIRMED_UP; + return LoRaMacSend( &macHdr, NULL, fPort, fBuffer, fBufferSize ); +} + +uint8_t LoRaMacSend( LoRaMacHeader_t *macHdr, uint8_t *fOpts, uint8_t fPort, void *fBuffer, uint16_t fBufferSize ) +{ + LoRaMacFrameCtrl_t fCtrl; + + fCtrl.Value = 0; + + fCtrl.Bits.FOptsLen = 0; + fCtrl.Bits.FPending = 0; + fCtrl.Bits.Ack = false; + fCtrl.Bits.AdrAckReq = false; + fCtrl.Bits.Adr = AdrCtrlOn; + + if( LoRaMacSetNextChannel( ) == 0 ) + { + return LoRaMacSendOnChannel( Channels[Channel], macHdr, &fCtrl, fOpts, fPort, fBuffer, fBufferSize ); + } + return 5; +} + +uint8_t LoRaMacPrepareFrame( ChannelParams_t channel, LoRaMacHeader_t *macHdr, LoRaMacFrameCtrl_t *fCtrl, uint8_t *fOpts, uint8_t fPort, void *fBuffer, uint16_t fBufferSize ) +{ + uint16_t i; + uint8_t pktHeaderLen = 0; + uint32_t mic = 0; + + LoRaMacBufferPktLen = 0; + + NodeAckRequested = false; + + if( fBuffer == NULL ) + { + fBufferSize = 0; + } + else + { + if( ValidatePayloadLength( fBufferSize, ChannelsDatarate ) == false ) + { + return 3; + } + } + + LoRaMacBuffer[pktHeaderLen++] = macHdr->Value; + + switch( macHdr->Bits.MType ) + { + case FRAME_TYPE_JOIN_REQ: + RxWindow1Delay = JoinAcceptDelay1 - RADIO_WAKEUP_TIME; + RxWindow2Delay = JoinAcceptDelay2 - RADIO_WAKEUP_TIME; + + LoRaMacBufferPktLen = pktHeaderLen; + + LoRaMacMemCpy( LoRaMacAppEui, LoRaMacBuffer + LoRaMacBufferPktLen, 8 ); + LoRaMacBufferPktLen += 8; + LoRaMacMemCpy( LoRaMacDevEui, LoRaMacBuffer + LoRaMacBufferPktLen, 8 ); + LoRaMacBufferPktLen += 8; + + LoRaMacDevNonce = Radio.Random( ); + + LoRaMacBuffer[LoRaMacBufferPktLen++] = LoRaMacDevNonce & 0xFF; + LoRaMacBuffer[LoRaMacBufferPktLen++] = ( LoRaMacDevNonce >> 8 ) & 0xFF; + + LoRaMacJoinComputeMic( LoRaMacBuffer, LoRaMacBufferPktLen & 0xFF, LoRaMacAppKey, &mic ); + + LoRaMacBuffer[LoRaMacBufferPktLen++] = mic & 0xFF; + LoRaMacBuffer[LoRaMacBufferPktLen++] = ( mic >> 8 ) & 0xFF; + LoRaMacBuffer[LoRaMacBufferPktLen++] = ( mic >> 16 ) & 0xFF; + LoRaMacBuffer[LoRaMacBufferPktLen++] = ( mic >> 24 ) & 0xFF; + + break; + case FRAME_TYPE_DATA_CONFIRMED_UP: + NodeAckRequested = true; + //Intentional falltrough + case FRAME_TYPE_DATA_UNCONFIRMED_UP: + if( IsLoRaMacNetworkJoined == false ) + { + return 2; // No network has been joined yet + } + + RxWindow1Delay = ReceiveDelay1 - RADIO_WAKEUP_TIME; + RxWindow2Delay = ReceiveDelay2 - RADIO_WAKEUP_TIME; + + if( fOpts == NULL ) + { + fCtrl->Bits.FOptsLen = 0; + } + + if( SrvAckRequested == true ) + { + SrvAckRequested = false; + fCtrl->Bits.Ack = 1; + } + + if( fCtrl->Bits.Adr == true ) + { + if( ChannelsDatarate == LORAMAC_MIN_DATARATE ) + { + AdrAckCounter = 0; + fCtrl->Bits.AdrAckReq = false; + } + else + { + if( AdrAckCounter > ADR_ACK_LIMIT ) + { + fCtrl->Bits.AdrAckReq = true; + } + else + { + fCtrl->Bits.AdrAckReq = false; + } + if( AdrAckCounter > ( ADR_ACK_LIMIT + ADR_ACK_DELAY ) ) + { + AdrAckCounter = 0; +#if defined( USE_BAND_433 ) || defined( USE_BAND_780 ) || defined( USE_BAND_868 ) + if( ChannelsDatarate > LORAMAC_MIN_DATARATE ) + { + ChannelsDatarate--; + } + else + { + // Re-enable default channels LC1, LC2, LC3 + ChannelsMask[0] = ChannelsMask[0] | ( LC( 1 ) + LC( 2 ) + LC( 3 ) ); + } +#elif defined( USE_BAND_915 ) || defined( USE_BAND_915_HYBRID ) + if( ( ChannelsDatarate > LORAMAC_MIN_DATARATE ) && ( ChannelsDatarate == DR_8 ) ) + { + ChannelsDatarate = DR_4; + } + if( ChannelsDatarate > LORAMAC_MIN_DATARATE ) + { + ChannelsDatarate--; + } + else + { +#if defined( USE_BAND_915 ) + // Re-enable default channels + ChannelsMask[0] = 0xFFFF; + ChannelsMask[1] = 0xFFFF; + ChannelsMask[2] = 0xFFFF; + ChannelsMask[3] = 0xFFFF; + ChannelsMask[4] = 0x00FF; + ChannelsMask[5] = 0x0000; +#else // defined( USE_BAND_915_HYBRID ) + // Re-enable default channels + ChannelsMask[0] = 0x00FF; + ChannelsMask[1] = 0x0000; + ChannelsMask[2] = 0x0000; + ChannelsMask[3] = 0x0000; + ChannelsMask[4] = 0x0001; + ChannelsMask[5] = 0x0000; +#endif + } +#else + #error "Please define a frequency band in the compiler options." +#endif + } + } + } + + LoRaMacBuffer[pktHeaderLen++] = ( LoRaMacDevAddr ) & 0xFF; + LoRaMacBuffer[pktHeaderLen++] = ( LoRaMacDevAddr >> 8 ) & 0xFF; + LoRaMacBuffer[pktHeaderLen++] = ( LoRaMacDevAddr >> 16 ) & 0xFF; + LoRaMacBuffer[pktHeaderLen++] = ( LoRaMacDevAddr >> 24 ) & 0xFF; + + LoRaMacBuffer[pktHeaderLen++] = fCtrl->Value; + + LoRaMacBuffer[pktHeaderLen++] = UpLinkCounter & 0xFF; + LoRaMacBuffer[pktHeaderLen++] = ( UpLinkCounter >> 8 ) & 0xFF; + + if( fOpts != NULL ) + { + for( i = 0; i < fCtrl->Bits.FOptsLen; i++ ) + { + LoRaMacBuffer[pktHeaderLen++] = fOpts[i]; + } + } + if( ( MacCommandsBufferIndex + fCtrl->Bits.FOptsLen ) <= 15 ) + { + if( MacCommandsInNextTx == true ) + { + fCtrl->Bits.FOptsLen += MacCommandsBufferIndex; + + // Update FCtrl field with new value of OptionsLength + LoRaMacBuffer[0x05] = fCtrl->Value; + for( i = 0; i < MacCommandsBufferIndex; i++ ) + { + LoRaMacBuffer[pktHeaderLen++] = MacCommandsBuffer[i]; + } + } + MacCommandsInNextTx = false; + MacCommandsBufferIndex = 0; + } + + if( ( pktHeaderLen + fBufferSize ) > LORAMAC_PHY_MAXPAYLOAD ) + { + return 3; + } + + if( fBuffer != NULL ) + { + LoRaMacBuffer[pktHeaderLen++] = fPort; + + if( fPort == 0 ) + { + LoRaMacPayloadEncrypt( ( uint8_t* )fBuffer, fBufferSize, LoRaMacNwkSKey, LoRaMacDevAddr, UP_LINK, UpLinkCounter, LoRaMacPayload ); + } + else + { + LoRaMacPayloadEncrypt( ( uint8_t* )fBuffer, fBufferSize, LoRaMacAppSKey, LoRaMacDevAddr, UP_LINK, UpLinkCounter, LoRaMacPayload ); + } + LoRaMacMemCpy( LoRaMacPayload, LoRaMacBuffer + pktHeaderLen, fBufferSize ); + } + LoRaMacBufferPktLen = pktHeaderLen + fBufferSize; + + LoRaMacComputeMic( LoRaMacBuffer, LoRaMacBufferPktLen, LoRaMacNwkSKey, LoRaMacDevAddr, UP_LINK, UpLinkCounter, &mic ); + + if( ( LoRaMacBufferPktLen + LORAMAC_MFR_LEN ) > LORAMAC_PHY_MAXPAYLOAD ) + { + return 3; + } + LoRaMacBuffer[LoRaMacBufferPktLen + 0] = mic & 0xFF; + LoRaMacBuffer[LoRaMacBufferPktLen + 1] = ( mic >> 8 ) & 0xFF; + LoRaMacBuffer[LoRaMacBufferPktLen + 2] = ( mic >> 16 ) & 0xFF; + LoRaMacBuffer[LoRaMacBufferPktLen + 3] = ( mic >> 24 ) & 0xFF; + + LoRaMacBufferPktLen += LORAMAC_MFR_LEN; + break; + default: + return 4; + } + + return 0; +} + +uint8_t LoRaMacSendFrameOnChannel( ChannelParams_t channel ) +{ + LoRaMacEventInfo.Status = LORAMAC_EVENT_INFO_STATUS_ERROR; + LoRaMacEventInfo.TxDatarate = ChannelsDatarate; + + ChannelsTxPower = LimitTxPower( ChannelsTxPower ); + + Radio.SetChannel( channel.Frequency ); + Radio.SetMaxPayloadLength( MODEM_LORA, LoRaMacBufferPktLen ); + +#if defined( USE_BAND_433 ) || defined( USE_BAND_780 ) || defined( USE_BAND_868 ) + if( ChannelsDatarate == DR_7 ) + { // High Speed FSK channel + Radio.SetTxConfig( MODEM_FSK, TxPowers[ChannelsTxPower], 25e3, 0, Datarates[ChannelsDatarate] * 1e3, 0, 5, false, true, 0, 0, false, 3e6 ); + TxTimeOnAir = Radio.TimeOnAir( MODEM_FSK, LoRaMacBufferPktLen ); + } + else if( ChannelsDatarate == DR_6 ) + { // High speed LoRa channel + Radio.SetTxConfig( MODEM_LORA, TxPowers[ChannelsTxPower], 0, 1, Datarates[ChannelsDatarate], 1, 8, false, true, 0, 0, false, 3e6 ); + TxTimeOnAir = Radio.TimeOnAir( MODEM_LORA, LoRaMacBufferPktLen ); + } + else + { // Normal LoRa channel + Radio.SetTxConfig( MODEM_LORA, TxPowers[ChannelsTxPower], 0, 0, Datarates[ChannelsDatarate], 1, 8, false, true, 0, 0, false, 3e6 ); + TxTimeOnAir = Radio.TimeOnAir( MODEM_LORA, LoRaMacBufferPktLen ); + } +#elif defined( USE_BAND_915 ) || defined( USE_BAND_915_HYBRID ) + if( ChannelsDatarate >= DR_4 ) + { // High speed LoRa channel BW500 kHz + Radio.SetTxConfig( MODEM_LORA, TxPowers[ChannelsTxPower], 0, 2, Datarates[ChannelsDatarate], 1, 8, false, true, 0, 0, false, 3e6 ); + TxTimeOnAir = Radio.TimeOnAir( MODEM_LORA, LoRaMacBufferPktLen ); + } + else + { // Normal LoRa channel + Radio.SetTxConfig( MODEM_LORA, TxPowers[ChannelsTxPower], 0, 0, Datarates[ChannelsDatarate], 1, 8, false, true, 0, 0, false, 3e6 ); + TxTimeOnAir = Radio.TimeOnAir( MODEM_LORA, LoRaMacBufferPktLen ); + } +#else + #error "Please define a frequency band in the compiler options." +#endif + + if( MaxDCycle == 255 ) + { + return 6; + } + if( MaxDCycle == 0 ) + { + AggregatedTimeOff = 0; + } + + LoRaMacState |= MAC_TX_RUNNING; + // Starts the MAC layer status check timer + TimerStart( &MacStateCheckTimer ); + + if( MAX( Bands[channel.Band].TimeOff, AggregatedTimeOff ) > ( TimerGetCurrentTime( ) ) ) + { + // Schedule transmission + TimerSetValue( &TxDelayedTimer, MAX( Bands[channel.Band].TimeOff, AggregatedTimeOff ) ); + TimerStart( &TxDelayedTimer ); + } + else + { + // Send now + Radio.Send( LoRaMacBuffer, LoRaMacBufferPktLen ); + } + return 0; +} + + +void OnTxDelayedTimerEvent( void ) +{ + TimerStop( &TxDelayedTimer ); + Radio.Send( LoRaMacBuffer, LoRaMacBufferPktLen ); +} + +uint8_t LoRaMacSendOnChannel( ChannelParams_t channel, LoRaMacHeader_t *macHdr, LoRaMacFrameCtrl_t *fCtrl, uint8_t *fOpts, uint8_t fPort, void *fBuffer, uint16_t fBufferSize ) +{ + uint8_t status = 0; + + if( ( LoRaMacState & MAC_TX_RUNNING ) == MAC_TX_RUNNING ) + { + return 1; // MAC is busy transmitting a previous frame + } + + status = LoRaMacPrepareFrame( channel, macHdr, fCtrl, fOpts, fPort, fBuffer, fBufferSize ); + if( status != 0 ) + { + return status; + } + + LoRaMacEventInfo.TxNbRetries = 0; + LoRaMacEventInfo.TxAckReceived = false; + + return LoRaMacSendFrameOnChannel( channel ); +} + +static void LoRaMacProcessMacCommands( uint8_t *payload, uint8_t macIndex, uint8_t commandsSize ) +{ + while( macIndex < commandsSize ) + { + // Decode Frame MAC commands + switch( payload[macIndex++] ) + { + case SRV_MAC_LINK_CHECK_ANS: + LoRaMacEventFlags.Bits.LinkCheck = 1; + LoRaMacEventInfo.DemodMargin = payload[macIndex++]; + LoRaMacEventInfo.NbGateways = payload[macIndex++]; + break; + case SRV_MAC_LINK_ADR_REQ: + { + uint8_t status = 0x07; + uint16_t chMask; + int8_t txPower = 0; + int8_t datarate = 0; + uint8_t nbRep = 0; + uint8_t chMaskCntl = 0; + uint16_t channelsMask[6] = { 0, 0, 0, 0, 0, 0 }; + + // Initialize local copy of the channels mask array + for( uint8_t i = 0; i < 6; i++ ) + { + channelsMask[i] = ChannelsMask[i]; + } + datarate = payload[macIndex++]; + txPower = datarate & 0x0F; + datarate = ( datarate >> 4 ) & 0x0F; + + if( ( AdrCtrlOn == false ) && + ( ( ChannelsDatarate != datarate ) || ( ChannelsTxPower != txPower ) ) ) + { // ADR disabled don't handle ADR requests if server tries to change datarate or txpower + // Answer the server with fail status + // Power ACK = 0 + // Data rate ACK = 0 + // Channel mask = 0 + AddMacCommand( MOTE_MAC_LINK_ADR_ANS, 0, 0 ); + break; + } + chMask = payload[macIndex++]; + chMask |= payload[macIndex++] << 8; + + nbRep = payload[macIndex++]; + chMaskCntl = ( nbRep >> 4 ) & 0x07; + nbRep &= 0x0F; + if( nbRep == 0 ) + { + nbRep = 1; + } +#if defined( USE_BAND_433 ) || defined( USE_BAND_780 ) || defined( USE_BAND_868 ) + if( ( chMaskCntl == 0 ) && ( chMask == 0 ) ) + { + status &= 0xFE; // Channel mask KO + } + else if( ( chMaskCntl >= 1 ) && ( chMaskCntl <= 5 ) ) + { + // RFU + status &= 0xFE; // Channel mask KO + } + else + { + for( uint8_t i = 0; i < LORA_MAX_NB_CHANNELS; i++ ) + { + if( chMaskCntl == 6 ) + { + if( Channels[i].Frequency != 0 ) + { + chMask |= 1 << i; + } + } + else + { + if( ( ( chMask & ( 1 << i ) ) != 0 ) && + ( Channels[i].Frequency == 0 ) ) + {// Trying to enable an undefined channel + status &= 0xFE; // Channel mask KO + } + } + } + channelsMask[0] = chMask; + } +#elif defined( USE_BAND_915 ) || defined( USE_BAND_915_HYBRID ) + if( chMaskCntl == 6 ) + { + // Enable all 125 kHz channels + for( uint8_t i = 0, k = 0; i < LORA_MAX_NB_CHANNELS - 8; i += 16, k++ ) + { + for( uint8_t j = 0; j < 16; j++ ) + { + if( Channels[i + j].Frequency != 0 ) + { + channelsMask[k] |= 1 << j; + } + } + } + } + else if( chMaskCntl == 7 ) + { + // Disable all 125 kHz channels + channelsMask[0] = 0x0000; + channelsMask[1] = 0x0000; + channelsMask[2] = 0x0000; + channelsMask[3] = 0x0000; + } + else if( chMaskCntl == 5 ) + { + // RFU + status &= 0xFE; // Channel mask KO + } + else + { + for( uint8_t i = 0; i < 16; i++ ) + { + if( ( ( chMask & ( 1 << i ) ) != 0 ) && + ( Channels[chMaskCntl * 16 + i].Frequency == 0 ) ) + {// Trying to enable an undefined channel + status &= 0xFE; // Channel mask KO + } + } + channelsMask[chMaskCntl] = chMask; + + if( CountNbEnabled125kHzChannels( channelsMask ) < 6 ) + { + status &= 0xFE; // Channel mask KO + } + } +#else + #error "Please define a frequency band in the compiler options." +#endif + if( ( ( datarate < LORAMAC_MIN_DATARATE ) || + ( datarate > LORAMAC_MAX_DATARATE ) ) == true ) + { + status &= 0xFD; // Datarate KO + } + + // + // Remark MaxTxPower = 0 and MinTxPower = 5 + // + if( ( ( LORAMAC_MAX_TX_POWER <= txPower ) && + ( txPower <= LORAMAC_MIN_TX_POWER ) ) == false ) + { + status &= 0xFB; // TxPower KO + } + if( ( status & 0x07 ) == 0x07 ) + { + ChannelsDatarate = datarate; + ChannelsTxPower = txPower; +#if defined( USE_BAND_915_HYBRID ) + ChannelsMask[0] = channelsMask[0] & 0x00FF; + ChannelsMask[1] = channelsMask[1] & 0x0000; + ChannelsMask[2] = channelsMask[2] & 0x0000; + ChannelsMask[3] = channelsMask[3] & 0x0000; + ChannelsMask[4] = channelsMask[4] & 0x0001; + ChannelsMask[5] = channelsMask[5] & 0x0000; +#else + ChannelsMask[0] = channelsMask[0]; + ChannelsMask[1] = channelsMask[1]; + ChannelsMask[2] = channelsMask[2]; + ChannelsMask[3] = channelsMask[3]; + ChannelsMask[4] = channelsMask[4]; + ChannelsMask[5] = channelsMask[5]; +#endif + ChannelsNbRep = nbRep; + } + AddMacCommand( MOTE_MAC_LINK_ADR_ANS, status, 0 ); + } + break; + case SRV_MAC_DUTY_CYCLE_REQ: + MaxDCycle = payload[macIndex++]; + AggregatedDCycle = 1 << MaxDCycle; + AddMacCommand( MOTE_MAC_DUTY_CYCLE_ANS, 0, 0 ); + break; + case SRV_MAC_RX_PARAM_SETUP_REQ: + { + uint8_t status = 0x07; + int8_t datarate = 0; + int8_t drOffset = 0; + uint32_t freq = 0; + + drOffset = payload[macIndex++]; + datarate = drOffset & 0x0F; + drOffset = ( drOffset >> 4 ) & 0x0F; + + freq = ( uint32_t )payload[macIndex++]; + freq |= ( uint32_t )payload[macIndex++] << 8; + freq |= ( uint32_t )payload[macIndex++] << 16; + freq *= 100; + + if( Radio.CheckRfFrequency( freq ) == false ) + { + status &= 0xFE; // Channel frequency KO + } + + if( ( ( datarate < LORAMAC_MIN_DATARATE ) || + ( datarate > LORAMAC_MAX_DATARATE ) ) == true ) + { + status &= 0xFD; // Datarate KO + } + + if( ( ( drOffset < 0 ) || ( drOffset > 5 ) ) == true ) + { + status &= 0xFB; // Rx1DrOffset range KO + } + + if( ( status & 0x07 ) == 0x07 ) + { + Rx2Channel.Datarate = datarate; + Rx2Channel.Frequency = freq; + Rx1DrOffset = drOffset; + } + AddMacCommand( MOTE_MAC_RX_PARAM_SETUP_ANS, status, 0 ); + } + break; + case SRV_MAC_DEV_STATUS_REQ: + AddMacCommand( MOTE_MAC_DEV_STATUS_ANS, LoRaMacGetBatteryLevel( ), LoRaMacEventInfo.RxSnr ); + break; + case SRV_MAC_NEW_CHANNEL_REQ: + { + uint8_t status = 0x03; + int8_t channelIndex = 0; + ChannelParams_t chParam; + + channelIndex = payload[macIndex++]; + chParam.Frequency = ( uint32_t )payload[macIndex++]; + chParam.Frequency |= ( uint32_t )payload[macIndex++] << 8; + chParam.Frequency |= ( uint32_t )payload[macIndex++] << 16; + chParam.Frequency *= 100; + chParam.DrRange.Value = payload[macIndex++]; + + if( ( channelIndex < 3 ) || ( channelIndex > LORA_MAX_NB_CHANNELS ) ) + { + status &= 0xFE; // Channel frequency KO + } + + if( Radio.CheckRfFrequency( chParam.Frequency ) == false ) + { + status &= 0xFE; // Channel frequency KO + } + + if( ( chParam.DrRange.Fields.Min > chParam.DrRange.Fields.Max ) || + ( ( ( LORAMAC_MIN_DATARATE <= chParam.DrRange.Fields.Min ) && + ( chParam.DrRange.Fields.Min <= LORAMAC_MAX_DATARATE ) ) == false ) || + ( ( ( LORAMAC_MIN_DATARATE <= chParam.DrRange.Fields.Max ) && + ( chParam.DrRange.Fields.Max <= LORAMAC_MAX_DATARATE ) ) == false ) ) + { + status &= 0xFD; // Datarate range KO + } + if( ( status & 0x03 ) == 0x03 ) + { + LoRaMacSetChannel( channelIndex, chParam ); + } + AddMacCommand( MOTE_MAC_NEW_CHANNEL_ANS, status, 0 ); + } + break; + case SRV_MAC_RX_TIMING_SETUP_REQ: + { + uint8_t delay = payload[macIndex++] & 0x0F; + + if( delay == 0 ) + { + delay++; + } + ReceiveDelay1 = delay * 1e6; + ReceiveDelay2 = ReceiveDelay1 + 1e6; + AddMacCommand( MOTE_MAC_RX_TIMING_SETUP_ANS, 0, 0 ); + } + break; + default: + // Unknown command. ABORT MAC commands processing + return; + } + } +} + +/*! + * Function to be executed on Tx Done event + */ +static void OnRadioTxDone( void ) +{ + TimerTime_t curTime = TimerGetCurrentTime( ); + if( LoRaMacDeviceClass != CLASS_C ) + { + Radio.Sleep( ); + } + else + { + OnRxWindow2TimerEvent( ); + } + + // Update Band Time OFF + Bands[Channels[Channel].Band].LastTxDoneTime = curTime; + if( DutyCycleOn == true ) + { + Bands[Channels[Channel].Band].TimeOff = TxTimeOnAir * Bands[Channels[Channel].Band].DCycle - TxTimeOnAir; + } + else + { + Bands[Channels[Channel].Band].TimeOff = 0; + } + // Update Agregated Time OFF + AggregatedLastTxDoneTime = curTime; + AggregatedTimeOff = AggregatedTimeOff + ( TxTimeOnAir * AggregatedDCycle - TxTimeOnAir ); + + if( IsRxWindowsEnabled == true ) + { + TimerSetValue( &RxWindowTimer1, RxWindow1Delay ); + TimerStart( &RxWindowTimer1 ); + if( LoRaMacDeviceClass != CLASS_C ) + { + TimerSetValue( &RxWindowTimer2, RxWindow2Delay ); + TimerStart( &RxWindowTimer2 ); + } + } + else + { + LoRaMacEventFlags.Bits.Tx = 1; + LoRaMacEventInfo.Status = LORAMAC_EVENT_INFO_STATUS_OK; + } + + if( NodeAckRequested == false ) + { + ChannelsNbRepCounter++; + } +} + +/*! + * Function to be executed on Rx Done event + */ +static void OnRadioRxDone( uint8_t *payload, uint16_t size, int16_t rssi, int8_t snr ) +{ + LoRaMacHeader_t macHdr; + LoRaMacFrameCtrl_t fCtrl; + + uint8_t pktHeaderLen = 0; + uint32_t address = 0; + uint16_t sequenceCounter = 0; + int32_t sequence = 0; + uint8_t appPayloadStartIndex = 0; + uint8_t port = 0xFF; + uint8_t frameLen = 0; + uint32_t mic = 0; + uint32_t micRx = 0; + + MulticastParams_t *curMulticastParams = NULL; + uint8_t *nwkSKey = LoRaMacNwkSKey; + uint8_t *appSKey = LoRaMacAppSKey; + uint32_t downLinkCounter = 0; + + bool isMicOk = false; + + if( LoRaMacDeviceClass != CLASS_C ) + { + Radio.Sleep( ); + } + else + { + if( LoRaMacEventFlags.Bits.RxSlot == 0 ) + { + OnRxWindow2TimerEvent( ); + } + } + TimerStop( &RxWindowTimer2 ); + + macHdr.Value = payload[pktHeaderLen++]; + + switch( macHdr.Bits.MType ) + { + case FRAME_TYPE_JOIN_ACCEPT: + if( IsLoRaMacNetworkJoined == true ) + { + break; + } + LoRaMacJoinDecrypt( payload + 1, size - 1, LoRaMacAppKey, LoRaMacRxPayload + 1 ); + + LoRaMacRxPayload[0] = macHdr.Value; + + LoRaMacJoinComputeMic( LoRaMacRxPayload, size - LORAMAC_MFR_LEN, LoRaMacAppKey, &mic ); + + micRx |= ( uint32_t )LoRaMacRxPayload[size - LORAMAC_MFR_LEN]; + micRx |= ( ( uint32_t )LoRaMacRxPayload[size - LORAMAC_MFR_LEN + 1] << 8 ); + micRx |= ( ( uint32_t )LoRaMacRxPayload[size - LORAMAC_MFR_LEN + 2] << 16 ); + micRx |= ( ( uint32_t )LoRaMacRxPayload[size - LORAMAC_MFR_LEN + 3] << 24 ); + + if( micRx == mic ) + { + LoRaMacEventFlags.Bits.Rx = 1; + LoRaMacEventInfo.RxSnr = snr; + LoRaMacEventInfo.RxRssi = rssi; + + LoRaMacJoinComputeSKeys( LoRaMacAppKey, LoRaMacRxPayload + 1, LoRaMacDevNonce, LoRaMacNwkSKey, LoRaMacAppSKey ); + + LoRaMacNetID = ( uint32_t )LoRaMacRxPayload[4]; + LoRaMacNetID |= ( ( uint32_t )LoRaMacRxPayload[5] << 8 ); + LoRaMacNetID |= ( ( uint32_t )LoRaMacRxPayload[6] << 16 ); + + LoRaMacDevAddr = ( uint32_t )LoRaMacRxPayload[7]; + LoRaMacDevAddr |= ( ( uint32_t )LoRaMacRxPayload[8] << 8 ); + LoRaMacDevAddr |= ( ( uint32_t )LoRaMacRxPayload[9] << 16 ); + LoRaMacDevAddr |= ( ( uint32_t )LoRaMacRxPayload[10] << 24 ); + + // DLSettings + Rx1DrOffset = ( LoRaMacRxPayload[11] >> 4 ) & 0x07; + Rx2Channel.Datarate = LoRaMacRxPayload[11] & 0x0F; + + // RxDelay + ReceiveDelay1 = ( LoRaMacRxPayload[12] & 0x0F ); + if( ReceiveDelay1 == 0 ) + { + ReceiveDelay1 = 1; + } + ReceiveDelay1 *= 1e6; + ReceiveDelay2 = ReceiveDelay1 + 1e6; + +#if !( defined( USE_BAND_915 ) || defined( USE_BAND_915_HYBRID ) ) + //CFList + if( ( size - 1 ) > 16 ) + { + ChannelParams_t param; + param.DrRange.Value = ( DR_5 << 4 ) | DR_0; + + for( uint8_t i = 3, j = 0; i < ( 5 + 3 ); i++, j += 3 ) + { + param.Frequency = ( ( uint32_t )LoRaMacRxPayload[13 + j] | ( ( uint32_t )LoRaMacRxPayload[14 + j] << 8 ) | ( ( uint32_t )LoRaMacRxPayload[15 + j] << 16 ) ) * 100; + LoRaMacSetChannel( i, param ); + } + } +#endif + LoRaMacEventFlags.Bits.JoinAccept = 1; + IsLoRaMacNetworkJoined = true; + ChannelsDatarate = ChannelsDefaultDatarate; + LoRaMacEventInfo.Status = LORAMAC_EVENT_INFO_STATUS_OK; + } + else + { + LoRaMacEventInfo.Status = LORAMAC_EVENT_INFO_STATUS_JOIN_FAIL; + } + + LoRaMacEventFlags.Bits.Tx = 1; + break; + case FRAME_TYPE_DATA_CONFIRMED_DOWN: + case FRAME_TYPE_DATA_UNCONFIRMED_DOWN: + { + address = payload[pktHeaderLen++]; + address |= ( (uint32_t)payload[pktHeaderLen++] << 8 ); + address |= ( (uint32_t)payload[pktHeaderLen++] << 16 ); + address |= ( (uint32_t)payload[pktHeaderLen++] << 24 ); + + if( address != LoRaMacDevAddr ) + { + curMulticastParams = MulticastChannels; + while( curMulticastParams != NULL ) + { + if( address == curMulticastParams->Address ) + { + LoRaMacEventFlags.Bits.Multicast = 1; + nwkSKey = curMulticastParams->NwkSKey; + appSKey = curMulticastParams->AppSKey; + downLinkCounter = curMulticastParams->DownLinkCounter; + break; + } + curMulticastParams = curMulticastParams->Next; + } + if( LoRaMacEventFlags.Bits.Multicast == 0 ) + { + // We are not the destination of this frame. + LoRaMacEventFlags.Bits.Tx = 1; + LoRaMacEventInfo.Status = LORAMAC_EVENT_INFO_STATUS_ADDRESS_FAIL; + LoRaMacState &= ~MAC_TX_RUNNING; + return; + } + } + else + { + LoRaMacEventFlags.Bits.Multicast = 0; + nwkSKey = LoRaMacNwkSKey; + appSKey = LoRaMacAppSKey; + downLinkCounter = DownLinkCounter; + } + + if( LoRaMacDeviceClass != CLASS_A ) + { + LoRaMacState |= MAC_RX; + // Starts the MAC layer status check timer + TimerStart( &MacStateCheckTimer ); + } + fCtrl.Value = payload[pktHeaderLen++]; + + sequenceCounter |= ( uint32_t )payload[pktHeaderLen++]; + sequenceCounter |= ( uint32_t )payload[pktHeaderLen++] << 8; + + appPayloadStartIndex = 8 + fCtrl.Bits.FOptsLen; + + micRx |= ( uint32_t )payload[size - LORAMAC_MFR_LEN]; + micRx |= ( (uint32_t)payload[size - LORAMAC_MFR_LEN + 1] << 8 ); + micRx |= ( (uint32_t)payload[size - LORAMAC_MFR_LEN + 2] << 16 ); + micRx |= ( (uint32_t)payload[size - LORAMAC_MFR_LEN + 3] << 24 ); + + sequence = ( int32_t )sequenceCounter - ( int32_t )( downLinkCounter & 0xFFFF ); + if( sequence < 0 ) + { + // sequence reset or roll over happened + downLinkCounter = ( downLinkCounter & 0xFFFF0000 ) | ( sequenceCounter + ( uint32_t )0x10000 ); + LoRaMacComputeMic( payload, size - LORAMAC_MFR_LEN, nwkSKey, address, DOWN_LINK, downLinkCounter, &mic ); + if( micRx == mic ) + { + isMicOk = true; + } + else + { + isMicOk = false; + // sequence reset + if( LoRaMacEventFlags.Bits.Multicast == 1 ) + { + curMulticastParams->DownLinkCounter = downLinkCounter = sequenceCounter; + } + else + { + DownLinkCounter = downLinkCounter = sequenceCounter; + } + LoRaMacComputeMic( payload, size - LORAMAC_MFR_LEN, nwkSKey, address, DOWN_LINK, downLinkCounter, &mic ); + } + } + else + { + downLinkCounter = ( downLinkCounter & 0xFFFF0000 ) | sequenceCounter; + LoRaMacComputeMic( payload, size - LORAMAC_MFR_LEN, nwkSKey, address, DOWN_LINK, downLinkCounter, &mic ); + } + + if( ( isMicOk == true ) || + ( micRx == mic ) ) + { + LoRaMacEventFlags.Bits.Rx = 1; + LoRaMacEventInfo.RxSnr = snr; + LoRaMacEventInfo.RxRssi = rssi; + LoRaMacEventInfo.RxBufferSize = 0; + AdrAckCounter = 0; + if( LoRaMacEventFlags.Bits.Multicast == 1 ) + { + curMulticastParams->DownLinkCounter = downLinkCounter; + } + else + { + DownLinkCounter = downLinkCounter; + } + + if( macHdr.Bits.MType == FRAME_TYPE_DATA_CONFIRMED_DOWN ) + { + SrvAckRequested = true; + } + else + { + SrvAckRequested = false; + } + // Check if the frame is an acknowledgement + if( fCtrl.Bits.Ack == 1 ) + { + LoRaMacEventInfo.TxAckReceived = true; + + // Stop the AckTimeout timer as no more retransmissions + // are needed. + TimerStop( &AckTimeoutTimer ); + } + else + { + LoRaMacEventInfo.TxAckReceived = false; + if( AckTimeoutRetriesCounter > AckTimeoutRetries ) + { + // Stop the AckTimeout timer as no more retransmissions + // are needed. + TimerStop( &AckTimeoutTimer ); + } + } + + if( fCtrl.Bits.FOptsLen > 0 ) + { + // Decode Options field MAC commands + LoRaMacProcessMacCommands( payload, 8, appPayloadStartIndex ); + } + + if( ( ( size - 4 ) - appPayloadStartIndex ) > 0 ) + { + port = payload[appPayloadStartIndex++]; + frameLen = ( size - 4 ) - appPayloadStartIndex; + + if( port == 0 ) + { + LoRaMacPayloadDecrypt( payload + appPayloadStartIndex, + frameLen, + nwkSKey, + address, + DOWN_LINK, + downLinkCounter, + LoRaMacRxPayload ); + + // Decode frame payload MAC commands + LoRaMacProcessMacCommands( LoRaMacRxPayload, 0, frameLen ); + } + else + { + LoRaMacPayloadDecrypt( payload + appPayloadStartIndex, + frameLen, + appSKey, + address, + DOWN_LINK, + downLinkCounter, + LoRaMacRxPayload ); + + LoRaMacEventFlags.Bits.RxData = 1; + LoRaMacEventInfo.RxPort = port; + LoRaMacEventInfo.RxBuffer = LoRaMacRxPayload; + LoRaMacEventInfo.RxBufferSize = frameLen; + } + } + + LoRaMacEventFlags.Bits.Tx = 1; + LoRaMacEventInfo.Status = LORAMAC_EVENT_INFO_STATUS_OK; + } + else + { + LoRaMacEventInfo.TxAckReceived = false; + + LoRaMacEventFlags.Bits.Tx = 1; + LoRaMacEventInfo.Status = LORAMAC_EVENT_INFO_STATUS_MIC_FAIL; + LoRaMacState &= ~MAC_TX_RUNNING; + } + } + break; + case FRAME_TYPE_PROPRIETARY: + //Intentional falltrough + default: + LoRaMacEventFlags.Bits.Tx = 1; + LoRaMacEventInfo.Status = LORAMAC_EVENT_INFO_STATUS_ERROR; + LoRaMacState &= ~MAC_TX_RUNNING; + break; + } +} + +/*! + * Function executed on Radio Tx Timeout event + */ +static void OnRadioTxTimeout( void ) +{ + if( LoRaMacDeviceClass != CLASS_C ) + { + Radio.Sleep( ); + } + else + { + OnRxWindow2TimerEvent( ); + } + + LoRaMacEventFlags.Bits.Tx = 1; + LoRaMacEventInfo.Status = LORAMAC_EVENT_INFO_STATUS_TX_TIMEOUT; +} + +/*! + * Function executed on Radio Rx Timeout event + */ +static void OnRadioRxTimeout( void ) +{ + if( LoRaMacDeviceClass != CLASS_C ) + { + Radio.Sleep( ); + } + if( LoRaMacEventFlags.Bits.RxSlot == 1 ) + { + LoRaMacEventFlags.Bits.Tx = 1; + LoRaMacEventInfo.Status = LORAMAC_EVENT_INFO_STATUS_RX2_TIMEOUT; + } +} + +/*! + * Function executed on Radio Rx Error event + */ +static void OnRadioRxError( void ) +{ + if( LoRaMacDeviceClass != CLASS_C ) + { + Radio.Sleep( ); + } + if( LoRaMacEventFlags.Bits.RxSlot == 1 ) + { + LoRaMacEventFlags.Bits.Tx = 1; + LoRaMacEventInfo.Status = LORAMAC_EVENT_INFO_STATUS_RX2_ERROR; + } +} + +/*! + * Initializes and opens the reception window + * + * \param [IN] freq window channel frequency + * \param [IN] datarate window channel datarate + * \param [IN] bandwidth window channel bandwidth + * \param [IN] timeout window channel timeout + */ +void LoRaMacRxWindowSetup( uint32_t freq, int8_t datarate, uint32_t bandwidth, uint16_t timeout, bool rxContinuous ) +{ + if( Radio.GetStatus( ) == IDLE ) + { + Radio.SetChannel( freq ); + if( datarate == DR_7 ) + { + Radio.SetRxConfig( MODEM_FSK, 50e3, Datarates[datarate] * 1e3, 0, 83.333e3, 5, 0, false, 0, true, 0, 0, false, rxContinuous ); + } + else + { + Radio.SetRxConfig( MODEM_LORA, bandwidth, Datarates[datarate], 1, 0, 8, timeout, false, 0, false, 0, 0, true, rxContinuous ); + } + if( rxContinuous == false ) + { + Radio.Rx( MaxRxWindow ); + } + else + { + Radio.Rx( 0 ); // Continuous mode + } + } +} + +/*! + * Function executed on first Rx window timer event + */ +static void OnRxWindow1TimerEvent( void ) +{ + uint16_t symbTimeout = 5; // DR_2, DR_1, DR_0 + int8_t datarate = 0; + uint32_t bandwidth = 0; // LoRa 125 kHz + + TimerStop( &RxWindowTimer1 ); + LoRaMacEventFlags.Bits.RxSlot = 0; + +#if defined( USE_BAND_433 ) || defined( USE_BAND_780 ) || defined( USE_BAND_868 ) + datarate = ChannelsDatarate - Rx1DrOffset; + if( datarate < 0 ) + { + datarate = DR_0; + } + + // For higher datarates, we increase the number of symbols generating a Rx Timeout + if( datarate >= DR_3 ) + { // DR_6, DR_5, DR_4, DR_3 + symbTimeout = 8; + } + if( datarate == DR_6 ) + {// LoRa 250 kHz + bandwidth = 1; + } + LoRaMacRxWindowSetup( Channels[Channel].Frequency, datarate, bandwidth, symbTimeout, false ); +#elif ( defined( USE_BAND_915 ) || defined( USE_BAND_915_HYBRID ) ) + datarate = datarateOffsets[ChannelsDatarate][Rx1DrOffset]; + if( datarate < 0 ) + { + datarate = DR_0; + } + // For higher datarates, we increase the number of symbols generating a Rx Timeout + if( datarate > DR_0 ) + { // DR_1, DR_2, DR_3, DR_4, DR_8, DR_9, DR_10, DR_11, DR_12, DR_13 + symbTimeout = 8; + } + if( datarate >= DR_4 ) + {// LoRa 500 kHz + bandwidth = 2; + } + //LoRaMacRxWindowSetup( Channels[Channel].Frequency, datarate, bandwidth, symbTimeout, false ); + LoRaMacRxWindowSetup( 923.3e6 + ( Channel % 8 ) * 600e3, datarate, bandwidth, symbTimeout, false ); +#else + #error "Please define a frequency band in the compiler options." +#endif +} + +/*! + * Function executed on second Rx window timer event + */ +static void OnRxWindow2TimerEvent( void ) +{ + uint16_t symbTimeout = 5; // DR_2, DR_1, DR_0 + uint32_t bandwidth = 0; // LoRa 125 kHz + + TimerStop( &RxWindowTimer2 ); + LoRaMacEventFlags.Bits.RxSlot = 1; + + if( NodeAckRequested == true ) + { + TimerSetValue( &AckTimeoutTimer, ACK_TIMEOUT + randr( -ACK_TIMEOUT_RND, ACK_TIMEOUT_RND ) ); + TimerStart( &AckTimeoutTimer ); + } + +#if defined( USE_BAND_433 ) || defined( USE_BAND_780 ) || defined( USE_BAND_868 ) + // For higher datarates, we increase the number of symbols generating a Rx Timeout + if( Rx2Channel.Datarate >= DR_3 ) + { // DR_6, DR_5, DR_4, DR_3 + symbTimeout = 8; + } + if( Rx2Channel.Datarate == DR_6 ) + {// LoRa 250 kHz + bandwidth = 1; + } +#elif ( defined( USE_BAND_915 ) || defined( USE_BAND_915_HYBRID ) ) + // For higher datarates, we increase the number of symbols generating a Rx Timeout + if( Rx2Channel.Datarate > DR_0 ) + { // DR_1, DR_2, DR_3, DR_4, DR_8, DR_9, DR_10, DR_11, DR_12, DR_13 + symbTimeout = 8; + } + if( Rx2Channel.Datarate >= DR_4 ) + {// LoRa 500 kHz + bandwidth = 2; + } +#else + #error "Please define a frequency band in the compiler options." +#endif + if( LoRaMacDeviceClass != CLASS_C ) + { + LoRaMacRxWindowSetup( Rx2Channel.Frequency, Rx2Channel.Datarate, bandwidth, symbTimeout, false ); + } + else + { + LoRaMacRxWindowSetup( Rx2Channel.Frequency, Rx2Channel.Datarate, bandwidth, symbTimeout, true ); + } +} + +/*! + * Function executed on MacStateCheck timer event + */ +static void OnMacStateCheckTimerEvent( void ) +{ + TimerStop( &MacStateCheckTimer ); + + if( LoRaMacEventFlags.Bits.Tx == 1 ) + { + if( NodeAckRequested == false ) + { + if( LoRaMacEventFlags.Bits.JoinAccept == true ) + { + // Join messages aren't repeated automatically + ChannelsNbRepCounter = ChannelsNbRep; + UpLinkCounter = 0; + } + if( ChannelsNbRepCounter >= ChannelsNbRep ) + { + ChannelsNbRepCounter = 0; + + LoRaMacEventInfo.Status = LORAMAC_EVENT_INFO_STATUS_OK; + + AdrAckCounter++; + if( IsUpLinkCounterFixed == false ) + { + UpLinkCounter++; + } + + LoRaMacState &= ~MAC_TX_RUNNING; + } + else + { + LoRaMacEventFlags.Bits.Tx = 0; + // Sends the same frame again + if( LoRaMacSetNextChannel( ) == 0 ) + { + LoRaMacSendFrameOnChannel( Channels[Channel] ); + } + } + } + + if( LoRaMacEventFlags.Bits.Rx == 1 ) + { + if( ( LoRaMacEventInfo.TxAckReceived == true ) || ( AckTimeoutRetriesCounter > AckTimeoutRetries ) ) + { + AckTimeoutRetry = false; + if( IsUpLinkCounterFixed == false ) + { + UpLinkCounter++; + } + LoRaMacEventInfo.TxNbRetries = AckTimeoutRetriesCounter; + + LoRaMacState &= ~MAC_TX_RUNNING; + } + } + + if( ( AckTimeoutRetry == true ) && ( ( LoRaMacState & MAC_CHANNEL_CHECK ) == 0 ) ) + { + AckTimeoutRetry = false; + if( ( AckTimeoutRetriesCounter < AckTimeoutRetries ) && ( AckTimeoutRetriesCounter <= MAX_ACK_RETRIES ) ) + { + AckTimeoutRetriesCounter++; + + if( ( AckTimeoutRetriesCounter % 2 ) == 1 ) + { + ChannelsDatarate = MAX( ChannelsDatarate - 1, LORAMAC_MIN_DATARATE ); + } + LoRaMacEventFlags.Bits.Tx = 0; + // Sends the same frame again + if( LoRaMacSetNextChannel( ) == 0 ) + { + LoRaMacSendFrameOnChannel( Channels[Channel] ); + } + } + else + { +#if defined( USE_BAND_433 ) || defined( USE_BAND_780 ) || defined( USE_BAND_868 ) + // Re-enable default channels LC1, LC2, LC3 + ChannelsMask[0] = ChannelsMask[0] | ( LC( 1 ) + LC( 2 ) + LC( 3 ) ); +#elif defined( USE_BAND_915 ) + // Re-enable default channels + ChannelsMask[0] = 0xFFFF; + ChannelsMask[1] = 0xFFFF; + ChannelsMask[2] = 0xFFFF; + ChannelsMask[3] = 0xFFFF; + ChannelsMask[4] = 0x00FF; + ChannelsMask[5] = 0x0000; +#elif defined( USE_BAND_915_HYBRID ) + // Re-enable default channels + ChannelsMask[0] = 0x00FF; + ChannelsMask[1] = 0x0000; + ChannelsMask[2] = 0x0000; + ChannelsMask[3] = 0x0000; + ChannelsMask[4] = 0x0001; + ChannelsMask[5] = 0x0000; +#else + #error "Please define a frequency band in the compiler options." +#endif + LoRaMacState &= ~MAC_TX_RUNNING; + + LoRaMacEventInfo.TxAckReceived = false; + LoRaMacEventInfo.TxNbRetries = AckTimeoutRetriesCounter; + if( IsUpLinkCounterFixed == false ) + { + UpLinkCounter++; + } + LoRaMacEventInfo.Status = LORAMAC_EVENT_INFO_STATUS_OK; + } + } + } + // Handle reception for Class B and Class C + if( ( LoRaMacState & MAC_RX ) == MAC_RX ) + { + LoRaMacState &= ~MAC_RX; + } + if( LoRaMacState == MAC_IDLE ) + { + LoRaMacNotify( &LoRaMacEventFlags, &LoRaMacEventInfo ); + } + else + { + // Operation not finished restart timer + TimerStart( &MacStateCheckTimer ); + } +} + +static void OnAckTimeoutTimerEvent( void ) +{ + TimerStop( &AckTimeoutTimer ); + + AckTimeoutRetry = true; + LoRaMacState &= ~MAC_ACK_REQ; +} + +/*! + * ============================================================================ + * = LoRaMac utility functions = + * ============================================================================ + */ +static bool ValidatePayloadLength( uint8_t lenN, int8_t datarate ) +{ + bool payloadSizeOk = false; + uint8_t maxN = 0; + + // Get the maximum payload length + if( RepeaterSupport == true ) + { + maxN = MaxPayloadOfDatarateRepeater[datarate]; + } + else + { + maxN = MaxPayloadOfDatarate[datarate]; + } + + // Validation of the application payload size + if( lenN <= maxN ) + { + payloadSizeOk = true; + } + + return payloadSizeOk; +} + +#if defined( USE_BAND_915 ) || defined( USE_BAND_915_HYBRID ) +static uint8_t CountNbEnabled125kHzChannels( uint16_t *channelsMask ) +{ + uint8_t nb125kHzChannels = 0; + + for( uint8_t i = 0, k = 0; i < LORA_MAX_NB_CHANNELS - 8; i += 16, k++ ) + { + for( uint8_t j = 0; j < 16; j++ ) + {// Verify if the channel is active + if( ( channelsMask[k] & ( 1 << j ) ) == ( 1 << j ) ) + { + nb125kHzChannels++; + } + } + } + + return nb125kHzChannels; +} +#endif + +static int8_t LimitTxPower( int8_t txPower ) +{ + int8_t resultTxPower = txPower; +#if defined( USE_BAND_915 ) || defined( USE_BAND_915_HYBRID ) + if( ( ChannelsDatarate == DR_4 ) || + ( ( ChannelsDatarate >= DR_8 ) && ( ChannelsDatarate <= DR_13 ) ) ) + {// Limit tx power to max 26dBm + resultTxPower = MAX( txPower, TX_POWER_26_DBM ); + } + else + { + if( CountNbEnabled125kHzChannels( ChannelsMask ) < 50 ) + {// Limit tx power to max 21dBm + resultTxPower = MAX( txPower, TX_POWER_20_DBM ); + } + } +#endif + return resultTxPower; +} + +void LoRaMacChannelRemove( uint8_t id ) +{ + if( ( LoRaMacState & MAC_TX_RUNNING ) == MAC_TX_RUNNING ) + { + return; + } +#if ( defined( USE_BAND_915 ) || defined( USE_BAND_915_HYBRID ) ) + if( id < 64 ) + { + if( CountNbEnabled125kHzChannels( ChannelsMask ) <= 6 ) + { + return; + } + } +#else + if( id < 3 ) + { + return; + } +#endif + + uint8_t index = 0; + index = id / 16; + + if( ( index > 4 ) || ( id >= LORA_MAX_NB_CHANNELS ) ) + { + return; + } + + // Deactivate channel + ChannelsMask[index] &= ~( 1 << ( id % 16 ) ); + + return; +} + +/*! + * ============================================================================ + * = LoRaMac setup functions = + * ============================================================================ + */ +void LoRaMacSetDeviceClass( DeviceClass_t deviceClass ) +{ + LoRaMacDeviceClass = deviceClass; +} + +void LoRaMacSetPublicNetwork( bool enable ) +{ + PublicNetwork = enable; + Radio.SetModem( MODEM_LORA ); + if( PublicNetwork == true ) + { + // Change LoRa modem SyncWord + Radio.Write( REG_LR_SYNCWORD, LORA_MAC_PUBLIC_SYNCWORD ); + } + else + { + // Change LoRa modem SyncWord + Radio.Write( REG_LR_SYNCWORD, LORA_MAC_PRIVATE_SYNCWORD ); + } +} + +void LoRaMacSetChannel( uint8_t id, ChannelParams_t params ) +{ + params.Band = 0; + Channels[id] = params; + // Activate the newly created channel + if( id < 16 ) + { + ChannelsMask[0] |= 1 << id; + } + else if( id < 32 ) + { + ChannelsMask[1] |= 1 << ( id - 16 ); + } + else if( id < 48 ) + { + ChannelsMask[2] |= 1 << ( id - 32 ); + } + else if( id < 64 ) + { + ChannelsMask[3] |= 1 << ( id - 48 ); + } + else if( id < 72 ) + { + ChannelsMask[4] |= 1 << ( id - 64 ); + } + else + { + // Don't activate the channel + } +#if defined( USE_BAND_433 ) || defined( USE_BAND_780 ) + Channels[id].Band = 0; // 1% duty cycle on EU433 and CN780 bands +#elif defined( USE_BAND_868 ) + if( ( Channels[id].Frequency >= 865000000 ) && ( Channels[id].Frequency <= 868000000 ) ) + { + if( Channels[id].Band != BAND_G1_0 ) + { + Channels[id].Band = BAND_G1_0; + } + } + else if( ( Channels[id].Frequency > 868000000 ) && ( Channels[id].Frequency <= 868600000 ) ) + { + if( Channels[id].Band != BAND_G1_1 ) + { + Channels[id].Band = BAND_G1_1; + } + } + else if( ( Channels[id].Frequency >= 868700000 ) && ( Channels[id].Frequency <= 869200000 ) ) + { + if( Channels[id].Band != BAND_G1_2 ) + { + Channels[id].Band = BAND_G1_2; + } + } + else if( ( Channels[id].Frequency >= 869400000 ) && ( Channels[id].Frequency <= 869650000 ) ) + { + if( Channels[id].Band != BAND_G1_3 ) + { + Channels[id].Band = BAND_G1_3; + } + } + else if( ( Channels[id].Frequency >= 869700000 ) && ( Channels[id].Frequency <= 870000000 ) ) + { + if( Channels[id].Band != BAND_G1_4 ) + { + Channels[id].Band = BAND_G1_4; + } + } + else + { + Channels[id].Frequency = 0; + Channels[id].DrRange.Value = 0; + } +#elif ( defined( USE_BAND_915 ) || defined( USE_BAND_915_HYBRID ) ) + Channels[id].Band = 0; // No duty cycle on US915 band +#else + #error "Please define a frequency band in the compiler options." +#endif + // Check if it is a valid channel + if( Channels[id].Frequency == 0 ) + { + LoRaMacChannelRemove( id ); + } +} + +void LoRaMacSetRx2Channel( Rx2ChannelParams_t param ) +{ + Rx2Channel = param; +} + +void LoRaMacSetChannelsTxPower( int8_t txPower ) +{ + if( ( txPower >= LORAMAC_MAX_TX_POWER ) && + ( txPower <= LORAMAC_MIN_TX_POWER ) ) + { +#if defined( USE_BAND_915 ) || defined( USE_BAND_915_HYBRID ) + int8_t txPwr = LimitTxPower( txPower ); + if( txPwr == txPower ) + { + ChannelsTxPower = txPower; + } +#else + ChannelsTxPower = txPower; +#endif + } +} + +void LoRaMacSetChannelsDatarate( int8_t datarate ) +{ + ChannelsDefaultDatarate = ChannelsDatarate = datarate; +} + +void LoRaMacSetChannelsMask( uint16_t *mask ) +{ +#if defined( USE_BAND_915 ) || defined( USE_BAND_915_HYBRID ) + if( ( CountNbEnabled125kHzChannels( mask ) < 6 ) && + ( CountNbEnabled125kHzChannels( mask ) > 0 ) ) + { + + } + else + { + LoRaMacMemCpy( (uint8_t* ) mask, + ( uint8_t* ) ChannelsMask, 10 ); + } +#else + if( ( mask[0] & 0x0007 ) != 0x0007 ) + { + } + else + { + LoRaMacMemCpy( ( uint8_t* ) mask, + ( uint8_t* ) ChannelsMask, 2 ); + } +#endif +} + +void LoRaMacSetChannelsNbRep( uint8_t nbRep ) +{ + if( nbRep < 1 ) + { + nbRep = 1; + } + if( nbRep > 15 ) + { + nbRep = 15; + } + ChannelsNbRep = nbRep; +} + +void LoRaMacSetMaxRxWindow( uint32_t delay ) +{ + MaxRxWindow = delay; +} + +void LoRaMacSetReceiveDelay1( uint32_t delay ) +{ + ReceiveDelay1 = delay; +} + +void LoRaMacSetReceiveDelay2( uint32_t delay ) +{ + ReceiveDelay2 = delay; +} + +void LoRaMacSetJoinAcceptDelay1( uint32_t delay ) +{ + JoinAcceptDelay1 = delay; +} + +void LoRaMacSetJoinAcceptDelay2( uint32_t delay ) +{ + JoinAcceptDelay2 = delay; +} + +uint32_t LoRaMacGetUpLinkCounter( void ) +{ + return UpLinkCounter; +} + +uint32_t LoRaMacGetDownLinkCounter( void ) +{ + return DownLinkCounter; +} + +/*! + * ============================================================================ + * = LoRaMac test functions = + * ============================================================================ + */ +void LoRaMacTestSetDutyCycleOn( bool enable ) +{ + DutyCycleOn = enable; +} + +void LoRaMacTestRxWindowsOn( bool enable ) +{ + IsRxWindowsEnabled = enable; +} + +void LoRaMacTestSetMic( uint16_t upLinkCounter ) +{ + UpLinkCounter = upLinkCounter; + IsUpLinkCounterFixed = true; +}