Brendan Kelly
libMDot form for loop/dht22 project
Dependents: mDot_LoRa_Connect_ABPA_DHT22_sleep mDot_LoRa_Connect_ABPA FrostyBoySensor mDot_LoRa_Connect_ABPA_Lux ... more
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MultiTech
Lora.h
- Committer:
- kellybs1
- Date:
- 2017-08-21
- Revision:
- 63:af2fa55cbace
- Parent:
- 60:7985b4783af9
File content as of revision 63:af2fa55cbace:
/** __ ___ ____ _ ______ __ ____ __ ____
* / |/ /_ __/ / /_(_)__/_ __/__ ____/ / / __/_ _____ / /____ __ _ ___ / _/__ ____
* / /|_/ / // / / __/ /___// / / -_) __/ _ \ _\ \/ // (_-</ __/ -_) ' \(_-< _/ // _ \/ __/ __
* /_/ /_/\_,_/_/\__/_/ /_/ \__/\__/_//_/ /___/\_, /___/\__/\__/_/_/_/___/ /___/_//_/\__/ /_/
* 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 uint8_t US915_125K_NUM_CHANS = 64; //!< Number of 125k channels in US915 channel plan
const uint8_t US915_500K_NUM_CHANS = 8; //!< Number of 500k channels in US915 channel plan
const uint32_t US915_125K_FREQ_BASE = 902300000; //!< Frequency base for 125k US915 uplink channels
const uint32_t US915_125K_FREQ_STEP = 200000; //!< Frequency step for 125k US915 uplink channels
const uint32_t US915_500K_FREQ_BASE = 903000000; //!< Frequency base for 500k US915 uplink channels
const uint32_t US915_500K_FREQ_STEP = 1600000; //!< Frequency step for 500k US915 uplink channels
const uint32_t US915_500K_DBASE = 923300000; //!< Frequency base for 500k US915 downlink channels
const uint32_t US915_500K_DSTEP = 600000; //!< Frequency step for 500k US915 downlink channels
const uint32_t US915_FREQ_MIN = 902000000;
const uint32_t US915_FREQ_MAX = 928000000;
const uint8_t US915_MIN_DATARATE = (uint8_t) DR_0; //!< Minimum transmit datarate for US915
const uint8_t US915_MAX_DATARATE = (uint8_t) DR_4; //!< Maximum transmit datarate for US915
const uint8_t US915_MIN_DATARATE_OFFSET = (uint8_t) 0; //!< Minimum transmit datarate for US915
const uint8_t US915_MAX_DATARATE_OFFSET = (uint8_t) 3; //!< Maximum transmit datarate for US915
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_4; //!< 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) 3; //!< Maximum transmit datarate for AU915
const uint8_t EU868_125K_NUM_CHANS = 16; //!< Number of 125k channels in EU868 channel plan
const uint8_t EU868_DEFAULT_NUM_CHANS = 3; //!< Number of defualt channels in EU868 channel plan
const uint32_t EU868_125K_FREQ_BASE = 868100000; //!< Frequency base for 125k EU868 uplink channels
const uint32_t EU868_125K_FREQ_STEP = 200000; //!< Frequency step for 125k EU868 uplink channels
const uint32_t EU868_RX2_FREQ = 869525000; //!< Frequency default for second rx window in EU868
const uint8_t EU868_TX_POWER_MAX = 14; //!< Max power for EU868 channel plan
// 0.1% duty cycle 863-868
// Limiting to 865-868 allows for 1% duty cycle
const uint32_t EU868_MILLI_FREQ_MIN = 865000000;
const uint32_t EU868_MILLI_FREQ_MAX = 868000000;
const uint32_t EU868_MILLI_1_FREQ_MIN = 868700000;
const uint32_t EU868_MILLI_1_FREQ_MAX = 869200000;
// 1% duty cycle
const uint32_t EU868_CENTI_FREQ_MIN = 868000000;
const uint32_t EU868_CENTI_FREQ_MAX = 868600000;
// 10% duty cycle
const uint32_t EU868_DECI_FREQ_MIN = 869400000;
const uint32_t EU868_DECI_FREQ_MAX = 869650000;
// Below 7dBm there is no duty cycle for these frequencies
// Up to 14dBm there is 1% duty cycle
const uint32_t EU868_VAR_FREQ_MIN = 869700000;
const uint32_t EU868_VAR_FREQ_MAX = 870000000;
const uint32_t EU868_FREQ_MIN = 863000000;
const uint32_t EU868_FREQ_MAX = 870000000;
const uint8_t EU868_MIN_DATARATE = (uint8_t) DR_0; //!< Minimum transmit datarate for EU868
const uint8_t EU868_MAX_DATARATE = (uint8_t) DR_7; //!< Maximum transmit datarate for EU868
const uint8_t EU868_MIN_DATARATE_OFFSET = (uint8_t) 0; //!< Minimum transmit datarate for US915
const uint8_t EU868_MAX_DATARATE_OFFSET = (uint8_t) 5; //!< Maximum transmit datarate for US915
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 ADR_ACK_LIMIT = 64; //!< Number of packets without ADR ACK Request
const uint8_t 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
/**
* Settings for type of network
* PUBLIC - defaults to 5/6 second join windows and 0x34 sync word
* PRIVATE - defaults to 1/2 second join windows and 0x12 sync word
*/
enum NetworkType {
PRIVATE = 0,
PUBLIC = 1,
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_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
};
/**
* Received window used by Link
*/
enum ReceiveWindows {
RX_1 = 1, //!< First receive window
RX_2, //!< Second receive window
RX_BEACON, //!< Beacon receive window
RX_SLOT, //!< Beacon Slot receive window
RX_TEST
};
/**
* 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();
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;
/**
* 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
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
} 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 Rx1DatarateOffset; //!< Offset for datarate for first window
uint32_t Rx2Frequency; //!< Frequency used in second window
uint8_t Rx2DatarateIndex; //!< Datarate for second window
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;
/**
* Application configuration
*/
typedef struct {
uint8_t Port; //!< Port used by application
uint8_t AppEUI; //!< Application ID
uint8_t AppKey[16]; //!< Application Key
} ApplicationConfig;
/**
* 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;
ApplicationConfig Applications[MAX_APPS];
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,
/* Class B */
MOTE_MAC_PING_SLOT_INFO_REQ = 0x0B,
MOTE_MAC_PING_SLOT_FREQ_ANS = 0x0C,
MOTE_MAC_PING_SLOT_CHANNEL_ANS = 0x0D,
MOTE_MAC_BEACON_TIMING_REQ = 0x0E,
MOTE_MAC_BEACON_FREQ_ANS = 0x0F,
/* 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,
/* Class B */
SRV_MAC_PING_SLOT_INFO_ANS = 0x0B,
SRV_MAC_PING_SLOT_FREQ_REQ = 0x0C,
SRV_MAC_PING_SLOT_CHANNEL_REQ = 0x0D,
SRV_MAC_BEACON_TIMING_ANS = 0x0E,
SRV_MAC_BEACON_FREQ_REQ = 0x0F,
/* 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;
/**
* 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