MultiTech
/
libxDot-Custom
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libxDot-dev-mbed5-deprecated
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MultiTech
The Connect example can be used as a starting point for an xDot application.
Import programmDot_LoRa_Connect_Example_CUSTOM_AS923
Example configuration of frequencies and datarates for AS923 channel plan.
Last commit 07 Mar 2017 by MultiTech
Change the libmDot-Custom library to libxDot-Custom after importing the above example.
Change the platform for the project to xDot in upper right corner of the compiler page.
Ensure the mbed-os version matches the with the library commit.
Currently the AT Firmware cannot be built online for the xDot.
Creating new channel plans
Copy EU868 or US915 custom channel plan as a starting point
Import librarymDot_Channel_Plans
Channel plans to enable libmDot-Custom
Last commit 07 Feb 2017 by MultiTech
EU868 provides a framework for a DYNAMIC channel plan with duty-cycle limitations
US915 provides a framework for a FIXED channel plan
RADIO_POWERS are measured output in dBm for each radio tx power setting.
Additional MAC Commands can be implemented by overriding the HandleMacCommand function.
Steps
- Setup datarates, duty-cycle bands and channels in ChannelPlan_* constructor
- Modify GetJoinDatarate and CalculateJoinBackoff to change join datarates and backoff
- Customize HandleJoinAccept datarates
- Use GetRxWindow(int) to define how the device open Rx window 1 and 2
- GetNextChannel will pick a channel from the enabled channel at the current datarate before each TX
Mote.h
- Committer:
- jreiss
- Date:
- 2017-01-06
- Revision:
- 24:707857d35a6e
- Parent:
- 23:17a25e16ccf1
File content as of revision 24:707857d35a6e:
/** __ ___ ____ _ ______ __ ____ __ ____
* / |/ /_ __/ / /_(_)__/_ __/__ ____/ / / __/_ _____ / /____ __ _ ___ / _/__ ____
* / /|_/ / // / / __/ /___// / / -_) __/ _ \ _\ \/ // (_-</ __/ -_) ' \(_-< _/ // _ \/ __/ __
* /_/ /_/\_,_/_/\__/_/ /_/ \__/\__/_//_/ /___/\_, /___/\__/\__/_/_/_/___/ /___/_//_/\__/ /_/
* Copyright (C) 2015 by Multi-Tech Systems /___/
*
*
* @author Jason Reiss
* @date 10-31-2015
* @brief lora::Mote provides a user level class that abstracts the complexity of the Mac layer
*
* @details
*
*/
#ifndef __LORA_MOTE_H__
#define __LORA_MOTE_H__
#include "rtos.h"
#include "MacEvents.h"
#include <vector>
class SxRadio;
class SxRadio1272;
namespace lora {
class Mac;
class ChannelPlan;
class MoteEvents: public MacEvents {
/**
* Fired at end of TX
* @param dr datarate used for TX
*/
virtual void TxDone(uint8_t dr);
/**
* Fired if TX timed out
*/
virtual void TxTimeout(void);
/**
* Fired when JoinAccept message is received and MIC is validated
* @param payload received bytes
* @param size number of received bytes
* @param rssi of received packet
* @param snr of received packet
*/
virtual void JoinAccept(uint8_t *payload, uint16_t size, int16_t rssi, int8_t snr);
/**
* Fired when JoinAccept message is received and MIC is not valid
* @param payload received bytes
* @param size number of received bytes
* @param rssi of received packet
* @param snr of received packet
*/
virtual void JoinFailed(uint8_t *payload, uint16_t size, int16_t rssi, int8_t snr);
/**
* Fired when non duplicate packet is received and MIC is valid
* @param port of packet
* @param payload received bytes
* @param size number of received bytes
* @param rssi of received packet
* @param snr of received packet
* @param ctrl Downlink control field of packet
* @param slot rx window packet was received
* @param retries number of attempts before ack was received
*/
virtual void PacketRx(uint8_t port, uint8_t *payload, uint16_t size, int16_t rssi, int8_t snr, lora::DownlinkControl ctrl, uint8_t slot, uint8_t retries = 0);
/**
* Fired when radio has received a packet, packet is not validated
* @param payload received bytes
* @param size number of received bytes
* @param rssi of received packet
* @param snr of received packet
* @param ctrl Downlink control field of packet
* @param slot rx window packet was received
*/
virtual void RxDone(uint8_t *payload, uint16_t size, int16_t rssi, int8_t snr, lora::DownlinkControl ctrl, uint8_t slot);
/**
* Fired if rx window times out
* @param slot rx window that timed out
*/
virtual void RxTimeout(uint8_t slot);
/**
* Fired if rx CRC error
* @param slot rx window that errored
*/
virtual void RxError(uint8_t slot);
/**
* Fired if pong packet is received
* @param m_rssi of received packet at mote
* @param m_snr of received packet at mote
* @param s_rssi of received packet at server
* @param s_snr of received packet at server
*/
virtual void Pong(int16_t m_rssi, int8_t m_snr, int16_t s_rssi, int8_t s_snr);
/**
* Fired if network link check answer is received
* @param m_rssi of received packet at mote
* @param m_snr of received packet at mote
* @param s_snr margin of received packet at server
* @param s_gateways number of gateways reporting the packet
*/
virtual void NetworkLinkCheck(int16_t m_rssi, int8_t m_snr, int8_t s_snr, uint8_t s_gateways);
/**
* Callback to for device to measure the battery level and report to server
* @return battery level 0-255, 0 - external power, 1-254 level min-max, 255 device unable to measure battery
*/
virtual uint8_t MeasureBattery();
/**
* Fired when ack attempts are exhausted and RxTimeout or RxError occur
* @param retries number of attempts to resend the packet
*/
virtual void MissedAck(uint8_t retries);
};
class Mote {
public:
Mote(Settings* settings);
virtual ~Mote();
/**
* Indicator for network session join status
* @return true if joined to network
*/
bool Joined();
/**
* Send join request
* @return LORA_OK if request was sent
*/
uint8_t Join();
/**
* Send a packet
* @param port to send packet
* @param payload of packet
* @param size in bytes
* @return LORA_OK if successful
* @return LORA_MAX_PAYLOAD_EXCEEDED if payload size exceeds datarate maximum
* @return LORA_NO_CHANS_ENABLED if there is not an available channel that supports the current datarate
* @return LORA_LINK_BUSY if link was busy
* @return LORA_RADIO_BUSY if radio was busy
* @return LORA_BUFFER_FULL if mac commands filled the packet, client should resend the packet
*/
uint8_t Send(uint8_t port, const uint8_t* payload, uint8_t size);
/**
* Configure the channel plan
* @param freqBand EU868, US915, AU915
* @return LORA_OK
*/
uint8_t SetChannelPlan(uint8_t freqBand);
uint8_t SetChannelPlan(ChannelPlan* plan);
Settings* GetSettings();
/**
* Get the channel mask of currently enabled channels
* @return vector containing channel bit masks
*/
std::vector<uint16_t> GetChannelMask();
/**
* Set a 16 bit channel mask with index
* @param index of mask to set 0:0-15, 1:16-31 ...
* @param mask 16 bit mask of enabled channels
* @return true
*/
virtual uint8_t SetChannelMask(uint8_t index, uint16_t mask);
/**
* Set the current channel group for hybrid operation 1-8 else 0 for 64 channel operation
* @param group 0-8
*/
uint8_t SetChannelGroup(uint8_t group);
/**
* Get the current channel group
* @return group 0-8
*/
uint8_t GetChannelGroup();
/**
* Add a channel to the channel plan
* EU868, AS923 and KR920 allows additional channels to be added
* Channels 0-2 are fixed default channels
*
* @param index of the channel
* @param frequency of the channel or 0 to remove channel
* @param range of datarates allowed by the channel
* @return LORA_OK if channel was added
*/
uint8_t AddChannel(uint8_t index, uint32_t frequency, lora::DatarateRange range);
/**
* Add a downlink channel to the channel plan
* EU868, AS923 and KR920 allows downlink channels to be added
*
* @param index of the channel
* @param frequency of the channel or 0 to remove channel
* @return LORA_OK if channel was added
*/
uint8_t AddDownlinkChannel(uint8_t index, uint32_t frequency);
/**
* Set network mode
* Choose Public LoRaWAN mode or Private Multitech mode
*
* Public mode uses 0x34 sync word with 5/6 second join windows
* Private mode uses 0x12 sync word with 1/2 second join windows
* US915/AU915 Rx1 and Rx2 are fixed per Channel Group setting
*
* @param mode public or private
* @return LORA_OK
*/
uint8_t SetNetworkMode(uint8_t mode);
/**
* Get a pointer to the mac layer
* @return Mac mac
*/
Mac* GetMac();
/**
* Get a pointer to the radio
* Can be used to read radio registers or get a random value based on RSSI
*
* @return SxRadio pointer
*/
SxRadio* GetRadio();
/**
* Get the current statistics for the device
* @return Statistics
*/
Statistics& GetStats();
/**
* Reset the current statistics for the device
*/
void ResetStats();
/**
* Get time on air with current settings for provided payload bytes
* 13 overhead bytes will be added to payload
* @param bytes of payload data
* @return time-on-air in ms
*/
uint32_t GetTimeOnAir(uint8_t bytes);
/**
* Call before setting device in sleep mode to place radio in sleep
*/
void Sleep();
protected:
SxRadio1272* _radio;
Settings* _settings;
Mac* _mac;
private:
ChannelPlan* _plan;
MoteEvents _events;
};
}
#endif