ver1
plans/ChannelPlan_AU915.h
- Committer:
- Jenkins@KEILDM1.dc.multitech.prv
- Date:
- 2018-09-12
- Revision:
- 178:8f7d93f3bbb5
- Parent:
- 172:7ec44396a51b
- Child:
- 182:b642f4d0c95b
File content as of revision 178:8f7d93f3bbb5:
/** __ ___ ____ _ ______ __ ____ __ ____ * / |/ /_ __/ / /_(_)__/_ __/__ ____/ / / __/_ _____ / /____ __ _ ___ / _/__ ____ * / /|_/ / // / / __/ /___// / / -_) __/ _ \ _\ \/ // (_-</ __/ -_) ' \(_-< _/ // _ \/ __/ __ * /_/ /_/\_,_/_/\__/_/ /_/ \__/\__/_//_/ /___/\_, /___/\__/\__/_/_/_/___/ /___/_//_/\__/ /_/ * 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_PLAN_AU915_H__ #define __CHANNEL_PLAN_AU915_H__ #include "Lora.h" #include "SxRadio.h" #include "ChannelPlan.h" #include <vector> namespace lora { const uint8_t AU915_125K_NUM_CHANS = 64; //!< Number of 125k channels in AU915 channel plan const uint8_t AU915_500K_NUM_CHANS = 8; //!< Number of 500k channels in AU915 channel plan const uint32_t AU915_125K_FREQ_BASE = 915200000; //!< Frequency base for 125k AU915 uplink channels const uint32_t AU915_125K_FREQ_STEP = 200000; //!< Frequency step for 125k AU915 uplink channels const uint32_t AU915_500K_FREQ_BASE = 915900000; //!< Frequency base for 500k AU915 uplink channels const uint32_t AU915_500K_FREQ_STEP = 1600000; //!< Frequency step for 500k AU915 uplink channels const uint32_t AU915_500K_DBASE = 923300000; //!< Frequency base for 500k AU915 downlink channels const uint32_t AU915_500K_DSTEP = 600000; //!< Frequency step for 500k AU915 downlink channels const uint32_t AU915_FREQ_MIN = 915000000; const uint32_t AU915_FREQ_MAX = 928000000; const uint8_t AU915_MIN_DATARATE = (uint8_t) DR_0; //!< Minimum transmit datarate for AU915 const uint8_t AU915_MAX_DATARATE = (uint8_t) DR_6; //!< Maximum transmit datarate for AU915 const uint8_t AU915_MIN_DATARATE_OFFSET = (uint8_t) 0; //!< Minimum transmit datarate for AU915 const uint8_t AU915_MAX_DATARATE_OFFSET = (uint8_t) 5; //!< Maximum transmit datarate for AU915 const uint8_t AU915_BEACON_DR = DR_8; //!< Default beacon datarate const uint32_t AU915_BEACON_FREQ_BASE = 923300000U; //!< Base beacon broadcast frequency const uint32_t AU915_BEACON_FREQ_STEP = 600000U; //!< Step size for beacon frequencies const uint8_t AU915_BEACON_CHANNELS = 8U; //!< Number of beacon channels class ChannelPlan_AU915 : public lora::ChannelPlan { public: /** * ChannelPlan constructor * @param radio SxRadio object used to set Tx/Rx config * @param settings Settings object */ ChannelPlan_AU915(); ChannelPlan_AU915(Settings* settings); ChannelPlan_AU915(SxRadio* radio, Settings* settings); /** * ChannelPlan destructor */ virtual ~ChannelPlan_AU915(); /** * Initialize channels, datarates and duty cycle bands according to current channel plan in settings */ virtual void Init(); /** * Get the next channel to use to transmit * @return LORA_OK if channel was found * @return LORA_NO_CHANS_ENABLED */ virtual uint8_t GetNextChannel(); /** * Set the number of channels in the plan */ virtual void SetNumberOfChannels(uint8_t channels, bool resize = true); /** * Check if channel is enabled * @return true if enabled */ virtual bool IsChannelEnabled(uint8_t channel); /** * 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); /** * Get channel at index * @return Channel */ virtual Channel GetChannel(int8_t index); /** * 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); /** * Get datarate to use on the join request * @return datarate index */ virtual uint8_t GetJoinDatarate(); /** * Calculate the next time a join request is possible * @param size of join frame * @returns LORA_OK */ virtual uint8_t CalculateJoinBackoff(uint8_t size); /** * 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(); /** * Set the SxRadio rx config provided window * @param window to be opened * @param continuous keep window open * @param wnd_growth factor to increase the rx window by * @return LORA_OK */ virtual uint8_t SetRxConfig(uint8_t window, bool continuous, uint16_t wnd_growth); /** * Set frequency sub band if supported by plan * @param sub_band * @return LORA_OK */ virtual uint8_t SetFrequencySubBand(uint8_t sub_band); /** * Callback for Join Accept packet to load optional channels * @return LORA_OK */ virtual uint8_t HandleJoinAccept(const uint8_t* buffer, uint8_t size); /** * 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); /** * 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); /** * Callback to for downlink 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 HandleDownlinkChannelReq(const uint8_t* payload, uint8_t index, uint8_t size, uint8_t& status); /** * 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); /** * 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); /** * 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); /** * Validate the configuration after multiple ADR commands have been applied * @return status to be returned in MoteCommand answer */ virtual uint8_t ValidateAdrConfiguration(); /** * 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(); /** * Get the channels in use by current channel plan * @return channel frequencies */ virtual std::vector<uint32_t> GetChannels(); /** * Get the channel datarate ranges in use by current channel plan * @return channel datarate ranges */ virtual std::vector<uint8_t> GetChannelRanges(); /** * Print log message for given rx window * @param wnd 1 or 2 */ virtual void LogRxWindow(uint8_t wnd); /** * Enable the default channels of the channel plan */ virtual void EnableDefaultChannels(); virtual uint8_t GetMinDatarate(); virtual uint8_t GetMaxDatarate(); /** * Check if this packet is a beacon and if so extract parameters needed * @param payload of potential beacon * @param size of the packet * @param [out] data extracted from the beacon if this packet was indeed a beacon * @return true if this packet is beacon, false if not */ virtual bool DecodeBeacon(const uint8_t* payload, size_t size, BeaconData_t& data); /** * Update class B beacon and ping slot settings if frequency hopping enabled * @param time received in the last beacon * @param period of the beacon * @param devAddr of this end device */ virtual void FrequencyHop(uint32_t time, uint32_t period, uint32_t devAddr); protected: static const uint8_t AU915_TX_POWERS[11]; //!< List of available tx powers static const uint8_t AU915_RADIO_POWERS[21]; //!< List of calibrated tx powers static const uint8_t AU915_MAX_PAYLOAD_SIZE[]; //!< List of max payload sizes for each datarate static const uint8_t AU915_MAX_PAYLOAD_SIZE_REPEATER[]; //!< List of repeater compatible max payload sizes for each datarate typedef struct __attribute__((packed)) { uint8_t RFU1[3]; uint8_t Time[4]; uint8_t CRC1[2]; uint8_t GwSpecific[7]; uint8_t RFU2[1]; uint8_t CRC2[2]; } BCNPayload; }; } #endif // __CHANNEL_PLAN_AU915_H__