MultiTech
Stable version of the xDot library for mbed 5. This version of the library is suitable for deployment scenarios.
Dependents: Dot-Examples XDOT-Devicewise Dot-Examples-delujoc Dot-Examples_receive ... more
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MultiTech
The Dot library provides a LoRaWan certified stack for LoRa communication using MultiTech mDot and xDot devices. The stack is compatible with mbed 5.
The name of the repository can be used to determine which device the stack was compiled for and if it's a development or production-ready build:
- libmDot-mbed5 -> production-ready build for mDot
- libmDot-dev-mbed5 -> development build for mDot
- libxDot-mbed5 -> production-ready build for xDot
- libxDot-dev-mbed5 -> development build for xDot
A changelog for the Dot library can be found here.
The Dot library version and the version of mbed-os it was compiled against can both be found in the commit message for that revision of the Dot library. Building your application with the same version of mbed-os as what was used to build the Dot library is highly recommended!
The Dot-Examples repository demonstrates how to use the Dot library in a custom application.
The mDot and xDot platform pages have lots of platform specific information and document potential issues, gotchas, etc, and provide instructions for getting started with development. Please take a look at the platform page before starting development as they should answer many questions you will have.
FOTA
Full FOTA support is only available with mDot, xDot does not have the required external flash. xDot can use the FOTA example to dynamically join a multicast session only. After joining the multicast session the received Fragmentation packets could be handed to a host MCU for processing and at completion the firmware can be loaded into the xDot using the bootloader and y-modem. See xDot Developer Guide.
- Add the following code to allow Fota to use the Dot instance
examples/src/fota_example.cpp
// Initialize FOTA singleton
Fota::getInstance(dot);
- Add fragmentation handling the the PacketRx event
examples/inc/RadioEvent.h
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, uint32_t address, bool dupRx) {
mDotEvent::PacketRx(port, payload, size, rssi, snr, ctrl, slot, retries, address, dupRx);
#if ACTIVE_EXAMPLE == FOTA_EXAMPLE
if(port == 200 || port == 201 || port == 202) {
Fota::getInstance()->processCmd(payload, port, size);
}
#endif
}
The FOTA implementation has a few differences from the LoRaWAN Protocol
- Fragmentation Indexing starts at 0
- McKEKey is 00-00-00-00-00-00-00-00-00-00-00-00-00-00-00-00
- Start Time is a count-down in seconds to start of session
Lora.h
- Committer:
- Jenkins@KEILDM1.dc.multitech.prv
- Date:
- 2019-08-29
- Revision:
- 19:aa5b1fcd05be
- Parent:
- 18:d7332302f5f1
- Child:
- 20:bc12c888e7dc
File content as of revision 19:aa5b1fcd05be:
/** __ ___ ____ _ ______ __ ____ __ ____
* / |/ /_ __/ / /_(_)__/_ __/__ ____/ / / __/_ _____ / /____ __ _ ___ / _/__ ____
* / /|_/ / // / / __/ /___// / / -_) __/ _ \ _\ \/ // (_-</ __/ -_) ' \(_-< _/ // _ \/ __/ __
* /_/ /_/\_,_/_/\__/_/ /_/ \__/\__/_//_/ /___/\_, /___/\__/\__/_/_/_/___/ /___/_//_/\__/ /_/
* Copyright (C) 2015 by Multi-Tech Systems /___/
*
*
* @author Jason Reiss
* @date 10-31-2015
* @brief lora namespace defines global settings, structures and enums for the lora library
*
* @details
*
*
*
*/
#ifndef __LORA_H__
#define __LORA_H__
#include "mbed.h"
#include <assert.h>
#include "MTSLog.h"
//#include <cstring>
#include <inttypes.h>
namespace lora {
/**
* Frequency bandwidth of a Datarate, higher bandwidth gives higher datarate
*/
enum Bandwidth {
BW_125,
BW_250,
BW_500,
BW_FSK = 50
};
/**
* Spreading factor of a Datarate, lower spreading factor gives higher datarate
*/
enum SpreadingFactors {
SF_6 = 6,
SF_7,
SF_8,
SF_9,
SF_10,
SF_11,
SF_12,
SF_FSK,
SF_INVALID
};
/**
* Datarates for use with ChannelPlan
*/
enum Datarates {
DR_0 = 0,
DR_1,
DR_2,
DR_3,
DR_4,
DR_5,
DR_6,
DR_7,
DR_8,
DR_9,
DR_10,
DR_11,
DR_12,
DR_13,
DR_14,
DR_15
};
const uint8_t MIN_DATARATE = (uint8_t) DR_0; //!< Minimum datarate
const uint8_t MAX_PHY_PACKET_SIZE = 255; //!< Maximum size for a packet
const uint8_t MAX_APPS = 8; //!< Maximum number of apps sessions to save
const uint8_t MAX_MULTICAST_SESSIONS = 8; //!< Maximum number of multicast sessions to save
const uint8_t EUI_SIZE = 8; //!< Number of bytes in an EUI
const uint8_t KEY_SIZE = 16; //!< Number of bytes in an AES key
const uint8_t DEFAULT_NUM_CHANNELS = 16; //!< Default number of channels in a plan
const uint8_t DEFAULT_RX1_DR_OFFSET = 0; //!< Default datarate offset for first rx window
const uint8_t DEFAULT_RX2_DATARATE = 0; //!< Default datarate for second rx window
const uint8_t DEFAULT_TX_POWER = 14; //!< Default transmit power
const uint8_t DEFAULT_CODE_RATE = 1; //!< Default coding rate 1:4/5, 2:4/6, 3:4/7, 4:4/8
const uint8_t DEFAULT_PREAMBLE_LEN = 8; //!< Default preamble length
const int32_t MAX_FCNT_GAP = 16384; //!< Maximum allowed gap in sequence numbers before roll-over
const uint16_t PRIVATE_JOIN_DELAY = 1000; //!< Default join delay used for private network
const uint16_t PUBLIC_JOIN_DELAY = 5000; //!< Default join delay used for public network
const uint16_t DEFAULT_JOIN_DELAY = PRIVATE_JOIN_DELAY; //!< Default join delay1
const uint16_t DEFAULT_RX_DELAY = 1000; //!< Default delay for first receive window
const uint16_t DEFAULT_RX_TIMEOUT = 3000; //!< Default timeout for receive windows
const uint8_t HI_DR_SYMBOL_TIMEOUT = 12; //!< Symbol timeout for receive at datarate with SF < 11
const uint8_t LO_DR_SYMBOL_TIMEOUT = 8; //!< Symbol timeout for receive at datarate with SF > 10
const uint16_t RX2_DELAY_OFFSET = 1000; //!< Delay between first and second window
const uint16_t RXC_OFFSET = 50; //!< Time between end of RXC after TX and RX1
const uint16_t BEACON_PREAMBLE_LENGTH = 10U; //!< Beacon preamble length
const uint16_t DEFAULT_BEACON_PERIOD = 128U; //!< Default period of the beacon (in seconds)
const uint16_t PING_SLOT_LENGTH = 30U; //!< Duration of each class B ping slot (in milliseconds)
const uint16_t BEACON_RESERVED_TIME = 2120U; //!< Time reserved for beacon broadcast (in milliseconds)
const uint16_t BEACON_GUARD_TIME = 3000U; //!< Guard time before beacon transmission where no ping slots can be scheduled (in milliseconds)
const uint32_t MAX_BEACONLESS_OP_TIME = 7200U; //!< Maximum time to operate in class B since last beacon received (in seconds)
const uint16_t MAX_CLASS_B_WINDOW_GROWTH = 3U; //!< Maximum window growth factor for beacons and ping slots in beacon-less operation
const uint16_t DEFAULT_PING_NB = 1U; //!< Default number of ping slots per beacon interval
const uint16_t CLS_B_PAD = 15U; //!< Pad added to the beginning of ping slot rx windows (in milliseconds)
const int16_t DEFAULT_FREE_CHAN_RSSI_THRESHOLD = -90; //!< Threshold for channel activity detection (CAD) dBm
const uint8_t CHAN_MASK_SIZE = 16; //!< Number of bits in a channel mask
const uint8_t COMMANDS_BUFFER_SIZE = 15; //!< Size of Mac Command buffer
const uint8_t PKT_HEADER = 0; //!< Index to packet mHdr field
const uint8_t PKT_ADDRESS = 1; //!< Index to first byte of packet address field
const uint8_t PKT_FRAME_CONTROL = PKT_ADDRESS + 4; //!< Index to packet fCtrl field @see UplinkControl
const uint8_t PKT_FRAME_COUNTER = PKT_FRAME_CONTROL + 1; //!< Index to packet frame counter field
const uint8_t PKT_OPTIONS_START = PKT_FRAME_COUNTER + 2; //!< Index to start of optional mac commands
const uint8_t PKT_JOIN_APP_NONCE = 1; //!< Index to application nonce in Join Accept message
const uint8_t PKT_JOIN_NETWORK_ID = 4; //!< Index to network id in Join Accept message
const uint8_t PKT_JOIN_NETWORK_ADDRESS = 7; //!< Index to network address in Join Accept message
const uint8_t PKT_JOIN_DL_SETTINGS = 11; //!< Index to downlink settings in Join Accept message
const uint8_t PKT_JOIN_RX_DELAY = 12; //!< Index to rx delay in Join Accept message
const uint8_t DEFAULT_ADR_ACK_LIMIT = 64; //!< Number of packets without ADR ACK Request
const uint8_t DEFAULT_ADR_ACK_DELAY = 32; //!< Number of packets to expect ADR ACK Response within
const uint16_t ACK_TIMEOUT = 2000; //!< Base millisecond timeout to resend after missed ACK
const uint16_t ACK_TIMEOUT_RND = 1000; //!< Random millisecond adjustment to resend after missed ACK
const uint8_t FRAME_OVERHEAD = 13; //!< Bytes of network info overhead in a frame
const uint16_t MAX_OFF_AIR_WAIT = 5000U; //!< Max time in ms to block for a duty cycle restriction to expire before erroring out
/**
* Settings for type of network
*
* PRIVATE_MTS - Sync Word 0x12, US/AU Downlink frequencies per Frequency Sub Band
* PUBLIC_LORAWAN - Sync Word 0x34
* PRIVATE_LORAWAN - Sync Word 0x12
* PEER_TO_PEER - Sync Word 0x56 used for Dot to Dot communication
*
* Join Delay window settings are independent of Network Type setting
*/
enum NetworkType {
PRIVATE_MTS = 0,
PUBLIC_LORAWAN = 1,
PRIVATE_LORAWAN = 2,
PEER_TO_PEER = 4
};
/**
* Enum for on/off settings
*/
enum Enabled {
OFF = 0,
ON = 1
};
/**
* Return status of mac functions
*/
enum MacStatus {
LORA_OK = 0,
LORA_ERROR = 1,
LORA_JOIN_ERROR = 2,
LORA_SEND_ERROR = 3,
LORA_MIC_ERROR = 4,
LORA_ADDRESS_ERROR = 5,
LORA_NO_CHANS_ENABLED = 6,
LORA_COMMAND_BUFFER_FULL = 7,
LORA_UNKNOWN_MAC_COMMAND = 8,
LORA_ADR_OFF = 9,
LORA_BUSY = 10,
LORA_LINK_BUSY = 11,
LORA_RADIO_BUSY = 12,
LORA_BUFFER_FULL = 13,
LORA_JOIN_BACKOFF = 14,
LORA_NO_FREE_CHAN = 15,
LORA_AGGREGATED_DUTY_CYCLE = 16,
LORA_MAC_COMMAND_ERROR = 17,
LORA_MAX_PAYLOAD_EXCEEDED = 18,
LORA_LBT_CHANNEL_BUSY = 19
};
/**
* State for Link
*/
enum LinkState {
LINK_IDLE = 0, //!< Link ready to send or receive
LINK_TX, //!< Link is busy sending
LINK_ACK_TX, //!< Link is busy resending after missed ACK
LINK_REP_TX, //!< Link is busy repeating
LINK_RX, //!< Link has receive window open
LINK_RX1, //!< Link has first received window open
LINK_RX2, //!< Link has second received window open
LINK_RXC, //!< Link has class C received window open
LINK_RX_BEACON, //!< Link has a beacon receive window open
LINK_RX_PING, //!< Link has a ping slot receive window open
LINK_P2P //!< Link is busy sending
};
/**
* State for MAC
*/
enum MacState {
MAC_IDLE,
MAC_RX1,
MAC_RX2,
MAC_RXC,
MAC_TX,
MAC_JOIN
};
/**
* Operation class for device
*/
enum MoteClass {
CLASS_A = 0x00, //!< Device can only receive in windows opened after a transmit
CLASS_B = 0x01, //!< Device can receive in windows sychronized with gateway beacon
CLASS_C = 0x02 //!< Device can receive any time when not transmitting
};
/**
* Direction of a packet
*/
enum Direction {
DIR_UP = 0, //!< Packet is sent from mote to gateway
DIR_DOWN = 1, //!< Packet was received from gateway
DIR_PEER = 2 //!< Packet was received from peer
};
/**
* Receive window used by Link
*/
enum ReceiveWindows {
RX_1 = 1, //!< First receive window
RX_2, //!< Second receive window
RX_SLOT, //!< Ping slot receive window
RX_BEACON, //!< Beacon receive window
RXC, //!< Class C continuous window
RX_TEST
};
/**
* Beacon info descriptors for the GwSpecific Info field
*/
enum BeaconInfoDesc {
GPS_FIRST_ANTENNA = 0, //!< GPS coordinates of the gateway's first antenna
GPS_SECOND_ANTENNA, //!< GPS coordinates of the gateway's second antenna
GPS_THIRD_ANTENNA, //!< GPS coordinates of the gateway's third antenna
};
/**
* Datarate range for a Channel
*/
typedef union {
int8_t Value;
struct {
int8_t Min :4;
int8_t Max :4;
} Fields;
} DatarateRange;
/**
* Datarate used for transmitting and receiving
*/
typedef struct Datarate {
uint8_t Index;
uint8_t Bandwidth;
uint8_t Coderate;
uint8_t PreambleLength;
uint8_t SpreadingFactor;
uint8_t Crc;
uint8_t TxIQ;
uint8_t RxIQ;
uint8_t SymbolTimeout(uint16_t pad_ms = 0);
float Timeout();
Datarate();
} Datarate;
/**
* Channel used for transmitting
*/
typedef struct {
uint8_t Index;
uint32_t Frequency;
DatarateRange DrRange;
} Channel;
/**
* Receive window
*/
typedef struct {
uint8_t Index;
uint32_t Frequency;
uint8_t DatarateIndex;
} RxWindow;
/**
* Duty band for limiting time-on-air for regional regulations
*/
typedef struct {
uint8_t Index;
uint32_t FrequencyMin;
uint32_t FrequencyMax;
uint8_t PowerMax;
uint16_t DutyCycle; //!< Multiplier of time on air, 0:100%, 1:50%, 2:33%, 10:10%, 100:1%, 1000,0.1%
uint32_t TimeOffEnd; //!< Timestamp when this band will be available
} DutyBand;
/**
* Beacon data content (w/o CRCs and RFUs)
*/
typedef struct {
uint32_t Time;
uint8_t InfoDesc;
uint32_t Latitude;
uint32_t Longitude;
} BeaconData_t;
/**
* Device configuration
*/
typedef struct {
uint8_t FrequencyBand; //!< Used to choose ChannelPlan
uint8_t EUI[8]; //!< Unique identifier assigned to device
} DeviceConfig;
/**
* Network configuration
*/
typedef struct {
uint8_t Mode; //!< PUBLIC, PRIVATE or PEER_TO_PEER network mode
uint8_t Class; //!< Operating class of device
uint8_t EUI[8]; //!< Network ID or AppEUI
uint8_t Key[16]; //!< Network Key or AppKey
uint8_t JoinDelay; //!< Number of seconds to wait before 1st RX Window
uint8_t RxDelay; //!< Number of seconds to wait before 1st RX Window
uint8_t FrequencySubBand; //!< FrequencySubBand used for US915 hybrid operation 0:72 channels, 1:1-8 channels ...
uint8_t AckAttempts; //!< Number of attempts to send packet and receive an ACK from server
uint8_t Retries; //!< Number of times to resend a packet without receiving an ACK, redundancy
uint8_t ADREnabled; //!< Enable adaptive datarate
uint16_t AdrAckLimit; //!< Number of uplinks without a downlink to allow before setting ADRACKReq
uint16_t AdrAckDelay; //!< Number of downlinks to expect ADR ACK Response within
uint8_t CADEnabled; //!< Enable listen before talk/channel activity detection
uint8_t RepeaterMode; //!< Limit payloads to repeater compatible sizes
uint8_t TxPower; //!< Default radio output power in dBm
uint8_t TxPowerMax; //!< Max transmit power
uint8_t TxDatarate; //!< Datarate for P2P transmit
uint32_t TxFrequency; //!< Frequency for P2P transmit
int8_t AntennaGain; //!< Antenna Gain
uint8_t DisableEncryption; //!< Disable Encryption
uint8_t DisableCRC; //!< Disable CRC on uplink packets
uint16_t P2PACKTimeout;
uint16_t P2PACKBackoff;
uint8_t JoinRx1DatarateOffset; //!< Offset for datarate for first window
uint32_t JoinRx2Frequency; //!< Frequency used in second window
uint8_t JoinRx2DatarateIndex; //!< Datarate for second window
uint8_t PingPeriodicity; //!< Number of ping slots to open in a beacon interval (2^(7-PingPeriodicity))
} NetworkConfig;
/**
* Network session info
* Some settings are acquired in join message and others may be changed through Mac Commands from server
*/
typedef struct {
uint8_t Joined; //!< State of session
uint8_t Class; //!< Operating class of device
uint8_t Rx1DatarateOffset; //!< Offset for datarate for first window
uint32_t Rx2Frequency; //!< Frequency used in second window
uint8_t Rx2DatarateIndex; //!< Datarate for second window
uint32_t BeaconFrequency; //!< Frequency used for the beacon window
bool BeaconFreqHop; //!< Beacon frequency hopping enable
uint32_t PingSlotFrequency; //!< Frequency used for ping slot windows
uint8_t PingSlotDatarateIndex; //!< Datarate for the ping slots
bool PingSlotFreqHop; //!< Ping slot frequency hopping enable
uint8_t TxPower; //!< Current total radiated output power in dBm
uint8_t TxDatarate; //!< Current datarate can be changed when ADR is enabled
uint32_t Address; //!< Network address
uint32_t NetworkID; //!< Network ID 24-bits
uint8_t NetworkSessionKey[16]; //!< Network session key
uint8_t ApplicationSessionKey[16]; //!< Data session key
uint16_t ChannelMask[4]; //!< Current channel mask
uint16_t ChannelMask500k; //!< Current channel mask for 500k channels
uint32_t DownlinkCounter; //!< Downlink counter of last packet received from server
uint32_t UplinkCounter; //!< Uplink counter of last packet received from server
uint8_t Redundancy; //!< Number of time to repeat an uplink
uint8_t MaxDutyCycle; //!< Current Max Duty Cycle value
uint32_t JoinTimeOnAir; //!< Balance of time on air used during join attempts
uint32_t JoinTimeOffEnd; //!< RTC time of next join attempt
uint32_t JoinFirstAttempt; //!< RTC time of first failed join attempt
uint32_t AggregatedTimeOffEnd; //!< Time off air expiration for aggregate duty cycle
uint16_t AggregateDutyCycle; //!< Used for enforcing time-on-air
uint8_t AckCounter; //!< Current number of packets sent without ACK from server
uint8_t AdrCounter; //!< Current number of packets received without downlink from server
uint8_t RxDelay; //!< Number of seconds to wait before 1st RX Window
uint8_t CommandBuffer[COMMANDS_BUFFER_SIZE]; //!< Buffer to hold Mac Commands and parameters to be sent in next packet
uint8_t CommandBufferIndex; //!< Index to place next Mac Command, also current size of Command Buffer
bool SrvRequestedAck; //!< Indicator of ACK requested by server in last packet received
bool DataPending; //!< Indicator of data pending at server
uint8_t RxTimingSetupReqReceived; //!< Indicator that RxTimingSetupAns should be included in uplink
uint8_t RxParamSetupReqAnswer; //!< Indicator that RxParamSetupAns should be included in uplink
uint8_t DlChannelReqAnswer; //!< Indicator that DlChannelAns should be included in uplink
uint8_t DownlinkDwelltime; //!< On air dwell time for downlink packets 0:NONE,1:400ms
uint8_t UplinkDwelltime; //!< On air dwell time for uplink packets 0:NONE,1:400ms
uint8_t Max_EIRP; //!< Maximum allowed EIRP for uplink
} NetworkSession;
/**
* Multicast session info
*/
typedef struct {
uint32_t Address; //!< Network address
uint8_t NetworkSessionKey[16]; //!< Network session key
uint8_t DataSessionKey[16]; //!< Data session key
uint32_t DownlinkCounter; //!< Downlink counter of last packet received from server
} MulticastSession;
/**
* Statistics of current network session
*/
typedef struct Statistics {
uint32_t Up; //!< Number of uplink packets sent
uint32_t Down; //!< Number of downlink packets received
uint32_t Joins; //!< Number of join requests sent
uint32_t JoinFails; //!< Number of join requests without response or invalid response
uint32_t MissedAcks; //!< Number of missed acknowledgement attempts of confirmed packets
uint32_t CRCErrors; //!< Number of CRC errors in received packets
int32_t AvgCount; //!< Number of packets used to compute rolling average of RSSI and SNR
int16_t Rssi; //!< RSSI of last packet received
int16_t RssiMin; //!< Minimum RSSI of last AvgCount packets
int16_t RssiMax; //!< Maximum RSSI of last AvgCount packets
int16_t RssiAvg; //!< Rolling average RSSI of last AvgCount packets
int16_t Snr; //!< SNR of last packet received
int16_t SnrMin; //!< Minimum SNR of last AvgCount packets
int16_t SnrMax; //!< Maximum SNR of last AvgCount packets
int16_t SnrAvg; //!< Rolling average SNR of last AvgCount packets
} Statistics;
/**
* Testing settings
*/
typedef struct {
uint8_t TestMode;
uint8_t SkipMICCheck;
uint8_t DisableDutyCycle;
uint8_t DisableRx1;
uint8_t DisableRx2;
uint8_t FixedUplinkCounter;
uint8_t DisableRandomJoinDatarate;
} Testing;
/**
* Combination of device, network, testing settings and statistics
*/
typedef struct {
DeviceConfig Device;
NetworkConfig Network;
NetworkSession Session;
MulticastSession Multicast[MAX_MULTICAST_SESSIONS];
Statistics Stats;
Testing Test;
} Settings;
/**
* Downlink settings sent in Join Accept message
*/
typedef union {
uint8_t Value;
struct {
uint8_t Rx2Datarate :4;
uint8_t Rx1Offset :3;
uint8_t RFU :1;
};
} DownlinkSettings;
/**
* Frame structure for Join Request
*/
typedef struct {
uint8_t Type;
uint8_t AppEUI[8];
uint8_t DevEUI[8];
uint8_t Nonce[2];
uint8_t MIC[4];
} JoinRequestFrame;
/**
* Mac header of uplink and downlink packets
*/
typedef union {
uint8_t Value;
struct {
uint8_t Major :2;
uint8_t RFU :3;
uint8_t MType :3;
} Bits;
} MacHeader;
/**
* Frame control field of uplink packets
*/
typedef union {
uint8_t Value;
struct {
uint8_t OptionsLength :4;
uint8_t ClassB :1;
uint8_t Ack :1;
uint8_t AdrAckReq :1;
uint8_t Adr :1;
} Bits;
} UplinkControl;
/**
* Frame control field of downlink packets
*/
typedef union {
uint8_t Value;
struct {
uint8_t OptionsLength :4;
uint8_t FPending :1;
uint8_t Ack :1;
uint8_t RFU :1;
uint8_t Adr :1;
} Bits;
} DownlinkControl;
/**
* Frame type of packet
*/
typedef enum {
FRAME_TYPE_JOIN_REQ = 0x00,
FRAME_TYPE_JOIN_ACCEPT = 0x01,
FRAME_TYPE_DATA_UNCONFIRMED_UP = 0x02,
FRAME_TYPE_DATA_UNCONFIRMED_DOWN = 0x03,
FRAME_TYPE_DATA_CONFIRMED_UP = 0x04,
FRAME_TYPE_DATA_CONFIRMED_DOWN = 0x05,
FRAME_TYPE_RFU = 0x06,
FRAME_TYPE_PROPRIETARY = 0x07,
} FrameType;
/**
* LoRaWAN mote MAC commands
*/
typedef enum {
/* Class A */
MOTE_MAC_LINK_CHECK_REQ = 0x02,
MOTE_MAC_LINK_ADR_ANS = 0x03,
MOTE_MAC_DUTY_CYCLE_ANS = 0x04,
MOTE_MAC_RX_PARAM_SETUP_ANS = 0x05,
MOTE_MAC_DEV_STATUS_ANS = 0x06,
MOTE_MAC_NEW_CHANNEL_ANS = 0x07,
MOTE_MAC_RX_TIMING_SETUP_ANS = 0x08,
MOTE_MAC_TX_PARAM_SETUP_ANS = 0x09,
MOTE_MAC_DL_CHANNEL_ANS = 0x0A,
MOTE_MAC_REKEY_IND = 0x0B,
MOTE_MAC_ADR_PARAM_SETUP_ANS = 0x0C,
MOTE_MAC_DEVICE_TIME_REQ = 0x0D,
MOTE_MAC_REJOIN_PARAM_SETUP_ANS = 0x0F,
/* Class B */
MOTE_MAC_PING_SLOT_INFO_REQ = 0x10,
MOTE_MAC_PING_SLOT_CHANNEL_ANS = 0x11,
MOTE_MAC_BEACON_TIMING_REQ = 0x12,
MOTE_MAC_BEACON_FREQ_ANS = 0x13,
/* Multitech */
MOTE_MAC_PING_REQ = 0x80,
MOTE_MAC_CHANGE_CLASS = 0x81,
MOTE_MAC_MULTIPART_START_REQ = 0x82,
MOTE_MAC_MULTIPART_START_ANS = 0x83,
MOTE_MAC_MULTIPART_CHUNK = 0x84,
MOTE_MAC_MULTIPART_END_REQ = 0x85,
MOTE_MAC_MULTIPART_END_ANS = 0x86
} MoteCommand;
/*!
* LoRaWAN server MAC commands
*/
typedef enum {
/* Class A */
SRV_MAC_LINK_CHECK_ANS = 0x02,
SRV_MAC_LINK_ADR_REQ = 0x03,
SRV_MAC_DUTY_CYCLE_REQ = 0x04,
SRV_MAC_RX_PARAM_SETUP_REQ = 0x05,
SRV_MAC_DEV_STATUS_REQ = 0x06,
SRV_MAC_NEW_CHANNEL_REQ = 0x07,
SRV_MAC_RX_TIMING_SETUP_REQ = 0x08,
SRV_MAC_TX_PARAM_SETUP_REQ = 0x09,
SRV_MAC_DL_CHANNEL_REQ = 0x0A,
SRV_MAC_REKEY_CONF = 0x0B,
SRV_MAC_ADR_PARAM_SETUP_REQ = 0x0C,
SRV_MAC_DEVICE_TIME_ANS = 0x0D,
SRV_MAC_FORCE_REJOIN_REQ = 0x0E,
SRV_MAC_REJOIN_PARAM_SETUP_REQ = 0x0F,
/* Class B */
SRV_MAC_PING_SLOT_INFO_ANS = 0x10,
SRV_MAC_PING_SLOT_CHANNEL_REQ = 0x11,
SRV_MAC_BEACON_TIMING_ANS = 0x12,
SRV_MAC_BEACON_FREQ_REQ = 0x13,
/* Multitech */
SRV_MAC_PING_ANS = 0x80,
SRV_MAC_CHANGE_CLASS = 0x81,
SRV_MAC_MULTIPART_START_REQ = 0x82,
SRV_MAC_MULTIPART_START_ANS = 0x83,
SRV_MAC_MULTIPART_CHUNK = 0x84,
SRV_MAC_MULTIPART_END_REQ = 0x85,
SRV_MAC_MULTIPART_END_ANS = 0x86
} ServerCommand;
/**
* Radio configuration options
*/
typedef enum RadioCfg {
NO_RADIO_CFG,
TX_RADIO_CFG,
RX_RADIO_CFG
} RadioCfg_t;
/**
* Random seed for software RNG
*/
void srand(uint32_t seed);
/**
* Software RNG for consistent results across differing hardware
*/
int rand(void);
/**
* Generate random number bounded by min and max
*/
int32_t rand_r(int32_t min, int32_t max);
uint8_t CountBits(uint16_t mask);
/**
* Copy 3-bytes network order from array into LSB of integer value
*/
void CopyNetIDtoInt(const uint8_t* arr, uint32_t& val);
/**
* Copy LSB 3-bytes from integer value into array network order
*/
void CopyNetIDtoArray(uint32_t val, uint8_t* arr);
/**
* Copy 4-bytes network order from array in to integer value
*/
void CopyAddrtoInt(const uint8_t* arr, uint32_t& val);
/**
* Copy 4-bytes from integer in to array network order
*/
void CopyAddrtoArray(uint32_t val, uint8_t* arr);
/**
* Copy 3-bytes network order from array into integer value and multiply by 100
*/
void CopyFreqtoInt(const uint8_t* arr, uint32_t& freq);
/**
* Reverse memory copy
*/
void memcpy_r(uint8_t *dst, const uint8_t *src, size_t n);
}
#endif
