this is the working code for the xdot to read in serial from the pi and send it over LoRa
ChannelPlan.h
- Committer:
- Jenkins@KEILDM1.dc.multitech.prv
- Date:
- 2017-07-27
- Revision:
- 11:be2a6466d680
- Child:
- 14:f0c24ce93427
File content as of revision 11:be2a6466d680:
/** __ ___ ____ _ ______ __ ____ __ ____ * / |/ /_ __/ / /_(_)__/_ __/__ ____/ / / __/_ _____ / /____ __ _ ___ / _/__ ____ * / /|_/ / // / / __/ /___// / / -_) __/ _ \ _\ \/ // (_-</ __/ -_) ' \(_-< _/ // _ \/ __/ __ * /_/ /_/\_,_/_/\__/_/ /_/ \__/\__/_//_/ /___/\_, /___/\__/\__/_/_/_/___/ /___/_//_/\__/ /_/ * Copyright (C) 2015 by Multi-Tech Systems /___/ * * * @author Jason Reiss * @date 10-31-2015 * @brief lora::ChannelPlan provides an interface for LoRaWAN channel schemes * * @details * */ #ifndef __CHANNEL_STRATEGY_H__ #define __CHANNEL_STRATEGY_H__ #include "Lora.h" #include "SxRadio.h" #include <vector> namespace lora { class ChannelPlan { public: /** * Descriptions for channel plans & region information. * Bits 0-2 represent the plan type (fixed or dynamic) * 0b000 cannot be used as plans may line up with old definitions and cause much badness * 0b001 fixed channel plans * 0b010 dynamic channel plans * 0b011 - 0b111 RFU * Bits 3-7 represent the specific channel plan/region within the plan type */ enum PlanType { FIXED = 0x20, DYNAMIC = 0x40, }; enum Plan { EU868_OLD = 0x00, US915_OLD = 0x01, AU915_OLD = 0x02, FB_EU868 = 0x00, FB_US915 = 0x01, FB_AU915 = 0x02, FB_868 = 0x00, FB_915 = 0x01, US915 = FIXED | 0x00, AU915 = FIXED | 0x01, EU868 = DYNAMIC | 0x00, IN865 = DYNAMIC | 0x01, AS923 = DYNAMIC | 0x02, KR920 = DYNAMIC | 0x03, AS923_JAPAN = DYNAMIC | 0x04, NONE = 0xFF, }; /** * ChannelPlan constructor * @param radio SxRadio object used to set Tx/Rx config * @param settings Settings object */ ChannelPlan(SxRadio* radio, Settings* settings); /** * ChannelPlan destructor */ virtual ~ChannelPlan(); /** * Initialize channels, datarates and duty cycle bands according to current channel plan in settings */ virtual void Init() = 0; /** * Set SxRadio object to be used to set Tx/Rx config */ virtual void SetRadio(SxRadio* radio); /** * Set Settings object */ virtual void SetSettings(Settings* settings); /** * Get the next channel to use to transmit * @return LORA_OK if channel was found * @return LORA_NO_CHANS_ENABLED */ virtual uint8_t GetNextChannel() = 0; /** * Set the number of channels in the plan */ virtual void SetNumberOfChannels(uint8_t channels, bool resize = true); /** * Get the number of channels in the plan */ virtual uint8_t GetNumberOfChannels(); /** * Check if channel is enabled * @return true if enabled */ virtual bool IsChannelEnabled(uint8_t channel); /** * Set a 16 bit channel mask with offset * @param index of mask to set 0:0-15, 1:16-31 ... * @param mask 16 bit mask of enabled channels * @return true */ virtual bool SetChannelMask(uint8_t index, uint16_t mask); /** * Get the channel mask of currently enabled channels * @return vector containing channel bit masks */ virtual std::vector<uint16_t> GetChannelMask(); /** * Add a channel to the ChannelPlan * @param index of channel, use -1 to add to end * @param channel settings to add */ virtual uint8_t AddChannel(int8_t index, Channel channel) = 0; /** * Get channel at index * @return Channel */ virtual Channel GetChannel(int8_t index) = 0; /** * Add a downlink channel to the ChannelPlan * Set to 0 to use the default uplink channel frequency * @param index of channel, use -1 to add to end * @param channel settings to add */ virtual uint8_t AddDownlinkChannel(int8_t index, Channel channel); /** * Get channel at index * @return Channel */ virtual Channel GetDownlinkChannel(uint8_t index); /** * Set number of datarates in ChannelPlan * @param datarates */ virtual void SetNumberOfDatarates(uint8_t datarates); /** * Add a datarate to the ChannelPlan * @param index of datarate, use -1 to add to end * @param datarate settings to add */ virtual uint8_t AddDatarate(int8_t index, Datarate datarate); /** * Get datarate at index * @return Datarate */ virtual Datarate GetDatarate(int8_t index); /** * Get max payload size for current datarate * @return size in bytes */ virtual uint8_t GetMaxPayloadSize(); /** * Get rx window settings for requested window * RX_1, RX_2, RX_BEACON, RX_SLOT * @param window * @return RxWindow */ virtual RxWindow GetRxWindow(uint8_t window) = 0; /** * Get current channel to use for transmitting * @param channel index of channel * @return LORA_OK */ virtual uint8_t SetTxChannel(uint8_t channel); /** * Get datarate to use on the join request * @return datarate index */ virtual uint8_t GetJoinDatarate() = 0; /** * Calculate the next time a join request is possible * @param size of join frame * @returns LORA_OK */ virtual uint8_t CalculateJoinBackoff(uint8_t size) = 0; /** * Get the current datarate * @return Datarate */ virtual Datarate GetTxDatarate(); /** * Set the current datarate * @param index of datarate * @return LORA_OK */ virtual uint8_t SetTxDatarate(uint8_t index); /** * Set the datarate offset used for first receive window * @param offset * @return LORA_OK */ virtual uint8_t SetRx1Offset(uint8_t offset); /** * Set the frequency for second receive window * @param freq * @return LORA_OK */ virtual uint8_t SetRx2Frequency(uint32_t freq); /** * Set the datarate index used for second receive window * @param index * @return LORA_OK */ virtual uint8_t SetRx2DatarateIndex(uint8_t index); /** * Get next channel and set the SxRadio tx config with current settings * @return LORA_OK */ virtual uint8_t SetTxConfig() = 0; /** * Set the SxRadio rx config provided window * @param window to be opened * @param continuous keep window open * @return LORA_OK */ virtual uint8_t SetRxConfig(uint8_t window, bool continuous) = 0; /** * Set frequency sub band if supported by plan * @param sub_band * @return LORA_OK */ virtual uint8_t SetFrequencySubBand(uint8_t group) = 0; /** * Get frequency sub band if supported by plan * @return sub band 0-8 or 0 if not supported */ virtual uint8_t GetFrequencySubBand(); /** * Reset the ack counter used to lower datarate if ACK's are missed */ virtual void ResetAckCounter(); /** * Callback for radio to request channel change when frequency hopping * @param currentChannel */ virtual void FhssChangeChannel(uint8_t currentChannel); /** * Callback for ACK timeout event * @return LORA_OK */ virtual uint8_t HandleAckTimeout(); /** * Callback for Join Accept packet to load optional channels * @return LORA_OK */ virtual uint8_t HandleJoinAccept(const uint8_t* buffer, uint8_t size) = 0; /** * Callback to for rx parameter setup ServerCommand * @param payload packet data * @param index of start of command buffer * @param size number of bytes in command buffer * @param[out] status to be returned in MoteCommand answer * @return LORA_OK */ virtual uint8_t HandleRxParamSetup(const uint8_t* payload, uint8_t index, uint8_t size, uint8_t& status) = 0; /** * Callback to for new channel ServerCommand * @param payload packet data * @param index of start of command buffer * @param size number of bytes in command buffer * @param[out] status to be returned in MoteCommand answer * @return LORA_OK */ virtual uint8_t HandleNewChannel(const uint8_t* payload, uint8_t index, uint8_t size, uint8_t& status) = 0; /** * Callback to for ping slot channel request ServerCommand * @param payload packet data * @param index of start of command buffer * @param size number of bytes in command buffer * @param[out] status to be returned in MoteCommand answer * @return LORA_OK */ virtual uint8_t HandlePingSlotChannelReq(const uint8_t* payload, uint8_t index, uint8_t size, uint8_t& status) = 0; /** * Callback to for beacon frequency request ServerCommand * @param payload packet data * @param index of start of command buffer * @param size number of bytes in command buffer * @param[out] status to be returned in MoteCommand answer * @return LORA_OK */ virtual uint8_t HandleBeaconFrequencyReq(const uint8_t* payload, uint8_t index, uint8_t size, uint8_t& status) = 0; /** * Callback to for adaptive datarate ServerCommand * @param payload packet data * @param index of start of command buffer * @param size number of bytes in command buffer * @param[out] status to be returned in MoteCommand answer * @return LORA_OK */ virtual uint8_t HandleAdrCommand(const uint8_t* payload, uint8_t index, uint8_t size, uint8_t& status) = 0; /** * Validate the configuration after multiple ADR commands have been applied * @return status to be returned in MoteCommand answer */ virtual uint8_t ValidateAdrConfiguration() = 0; /** * Check that Rf Frequency is within channel plan range * @param freq frequency in Hz * @return true if valid frequency */ virtual bool CheckRfFrequency(uint32_t freq); /** * Flag for ADR * @return true if ADR is enable in settings */ virtual bool IsAdrEnabled(); /** * Flag if ADR ACK should be sent in next packet * @return true when flag should be set */ virtual bool AdrAckReq(); /** * Increment the ADR counter to track when ADR ACK request should be sent * @return current value */ virtual uint8_t IncAdrCounter(); /** * Reset the ADR counter when valid downlink is received from network server */ virtual void ResetAdrCounter(); /** * Get the time the radio must be off air to comply with regulations * Time to wait may be dependent on duty-cycle restrictions per channel * Or duty-cycle of join requests if OTAA is being attempted * @return ms of time to wait for next tx opportunity */ virtual uint32_t GetTimeOffAir() = 0; /** * Get the channels in use by current channel plan * @return channel frequencies */ virtual std::vector<uint32_t> GetChannels() = 0; /** * Get the downlink channels in use by current channel plan * @return channel frequencies */ virtual std::vector<uint32_t> GetDownlinkChannels(); /** * Get the channel datarate ranges in use by current channel plan * @return channel datarate ranges */ virtual std::vector<uint8_t> GetChannelRanges() = 0; /** * Set the time off air for the given duty band * @param band index * @param time off air in ms */ virtual void SetDutyBandTimeOff(uint8_t band, uint32_t timeoff); /** * Get the time off air for the given duty band * @param band index * @return time off air in ms */ virtual uint32_t GetDutyBandTimeOff(uint8_t band); /** * Get the number of duty bands in the current channel plan * @return number of bands */ virtual uint8_t GetNumDutyBands(); /** * Get the duty band index for the given frequency * @param freq frequency in Hz * @return index of duty band */ virtual int8_t GetDutyBand(uint32_t freq); /** * Add duty band * @param index of duty band or -1 to append * @param band DutyBand definition * @return LORA_OK */ virtual uint8_t AddDutyBand(int8_t index, DutyBand band); /** * Update duty cycle with current settings */ virtual void UpdateDutyCycle(uint8_t bytes); /** * Update duty cycle with at given frequency and time on air * @param freq frequency * @param time_on_air_ms tx time on air */ virtual void UpdateDutyCycle(uint32_t freq, uint32_t time_on_air_ms); /** * Get time on air with current settings * @param bytes number of bytes to be sent */ virtual uint32_t GetTimeOnAir(uint8_t bytes); /** * Reset the duty timers with the current time off air */ virtual void ResetDutyCycleTimer(); /** * Print log message for given rx window * @param wnd 1 or 2 */ virtual void LogRxWindow(uint8_t wnd) = 0; /** * Indicator of P2P mode * @return true if enabled */ virtual bool P2PEnabled(); /** * Ack timeout for P2P mode * @return timeout in ms */ virtual uint16_t P2PTimeout(); /** * Ack backoff for P2P mode * @return backoff in ms */ virtual uint16_t P2PBackoff(); /** * Enable the default channels of the channel plan */ virtual void EnableDefaultChannels() = 0; /** * Callback for radio thread to signal */ virtual void MacEvent(); /** * Called when MAC layer doesn't know about a command. * Use to add custom or new mac command handling * @return LORA_OK */ virtual uint8_t HandleMacCommand(uint8_t* payload, uint8_t& index); virtual void DecrementDatarate(); virtual void IncrementDatarate(); virtual std::string GetPlanName(); virtual uint8_t GetPlan(); virtual bool IsPlanFixed(); virtual bool IsPlanDynamic(); static bool IsPlanFixed(uint8_t plan); static bool IsPlanDynamic(uint8_t plan); virtual uint32_t GetMinFrequency(); virtual uint32_t GetMaxFrequency(); virtual uint8_t GetMinDatarate(); virtual uint8_t GetMaxDatarate(); virtual uint8_t GetMinDatarateOffset(); virtual uint8_t GetMaxDatarateOffset(); virtual uint8_t GetMinRx2Datarate(); virtual uint8_t GetMaxRx2Datarate(); virtual uint8_t GetMaxTxPower(); virtual uint8_t GetMinTxPower(); virtual uint16_t GetLBT_TimeUs(); virtual void SetLBT_TimeUs(uint16_t us); virtual int8_t GetLBT_Threshold(); virtual void SetLBT_Threshold(int8_t rssi); /** * Set LBT time and threshold to defaults */ virtual void DefaultLBT(); virtual bool ListenBeforeTalk(); protected: SxRadio* GetRadio(); //!< Get pointer to the SxRadio object or assert if it is null Settings* GetSettings(); //!< Get pointer to the settings object or assert if it is null uint8_t _txChannel; //!< Current channel for transmit uint8_t _txFrequencySubBand; //!< Current frequency sub band for hybrid operation std::vector<Datarate> _datarates; //!< List of datarates std::vector<Channel> _channels; //!< List of channels for transmit std::vector<Channel> _dlChannels; //!< List of channels for receive if changed from default std::vector<DutyBand> _dutyBands; //!< List of duty bands to limit radio time on air uint8_t _maxTxPower; //!< Max Tx power for channel Plan uint8_t _minTxPower; uint32_t _minFrequency; //!< Minimum Frequency uint32_t _maxFrequency; //!< Maximum Frequency Channel _beaconChannel; //!< Beacon window settings Channel _beaconRxChannel; //!< Beacon slot rx window settings uint8_t _minDatarate; //!< Minimum datarate to accept in ADR request uint8_t _maxDatarate; //!< Maximum datarate to accept in ADR request uint8_t _minRx2Datarate; //!< Minimum datarate to accept in for Rx2 uint8_t _maxRx2Datarate; //!< Maximum datarate to accept in for Rx2 uint8_t _minDatarateOffset; //!< Minimum datarate offset to accept uint8_t _maxDatarateOffset; //!< Maximum datarate offset to accept uint32_t _freqUBase125k; //!< Start of 125K uplink channels uint32_t _freqUStep125k; //!< Step between 125K uplink channels uint32_t _freqUBase500k; //!< Start of 500K uplink channels uint32_t _freqUStep500k; //!< Step between 500K uplink channels uint32_t _freqDBase500k; //!< Start of 500K downlink channels uint32_t _freqDStep500k; //!< Step between 500K downlink channels uint8_t _numChans; //!< Number of total channels in plan uint8_t _numChans125k; //!< Number of 125K channels in plan uint8_t _numChans500k; //!< Number of 500K channels in plan uint16_t _LBT_TimeUs; //!< Sample time in us for LBT int8_t _LBT_Threshold; //!< Threshold in dBm for LBT std::vector<uint16_t> _channelMask; //!< Bit mask for currently enabled channels Timer _dutyCycleTimer; //!< Timer for tracking time-off-air RtosTimer _txDutyTimer; //!< Event timer for expiration of time-off-air bool _txDutyCyclePending; //!< Flag for pending duty cycle event static void OnTxDutyCycleEvent(const void* arg); //!< Rtos callback for duty cycle event void OnTxDutyCycleEventBottom(); //!< Callback for duty cycle event static const uint8_t* TX_POWERS; //!< List of available tx powers static const uint8_t* RADIO_POWERS; //!< List of available tx powers static const uint8_t* MAX_PAYLOAD_SIZE; //!< List of max payload sizes for each datarate static const uint8_t* MAX_PAYLOAD_SIZE_REPEATER; //!< List of repeater compatible max payload sizes for each datarate uint8_t _plan; std::string _planName; private: SxRadio* _radio; //!< Injected SxRadio dependency Settings* _settings; //!< Current settings }; } #endif