Amir Chaudhary
/
Analog_values_current
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Dependencies: mbed LoRaWAN-lib SX1276Lib
app/main.cpp
- Committer:
- mluis
- Date:
- 2015-11-26
- Revision:
- 1:352f608c3337
- Parent:
- 0:92bca02df485
- Child:
- 3:9c6f7f082151
File content as of revision 1:352f608c3337:
/*
/ _____) _ | |
( (____ _____ ____ _| |_ _____ ____| |__
\____ \| ___ | (_ _) ___ |/ ___) _ \
_____) ) ____| | | || |_| ____( (___| | | |
(______/|_____)_|_|_| \__)_____)\____)_| |_|
(C)2015 Semtech
Description: LoRaMac classA device implementation
License: Revised BSD License, see LICENSE.TXT file include in the project
Maintainer: Miguel Luis and Gregory Cristian
*/
#include "mbed.h"
#include "board.h"
#include "radio.h"
#include "LoRaMac.h"
#include "SerialDisplay.h"
/*!
* When set to 1 the application uses the Over-the-Air activation procedure
* When set to 0 the application uses the Personalization activation procedure
*/
#define OVER_THE_AIR_ACTIVATION 1
/*!
* Indicates if the end-device is to be connected to a private or public network
*/
#define LORAWAN_PUBLIC_NETWORK true
#if( OVER_THE_AIR_ACTIVATION != 0 )
/*!
* Join requests trials duty cycle.
*/
#define OVER_THE_AIR_ACTIVATION_DUTYCYCLE 10000000 // 10 [s] value in us
/*!
* Mote device IEEE EUI
*
* \remark must be written as a little endian value (reverse order of normal reading)
*/
#define LORAWAN_DEVICE_EUI { 0x01, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0xFF }
/*!
* Application IEEE EUI
*
* \remark must be written as a little endian value (reverse order of normal reading)
*/
#define LORAWAN_APPLICATION_EUI { 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 }
/*!
* AES encryption/decryption cipher application key
*/
#define LORAWAN_APPLICATION_KEY { 0x11, 0x22, 0x33, 0x44, 0x55, 0x66, 0x77, 0x88, 0x99, 0xAA, 0xBB, 0xCC, 0xDD, 0xEE, 0xFF, 0x01 }
#else
/*!
* Current network ID
*/
#define LORAWAN_NETWORK_ID ( uint32_t )0
/*!
* Device address on the network
*
* \remark must be written as a big endian value (normal reading order)
*/
#define LORAWAN_DEVICE_ADDRESS ( uint32_t )0xFF000001
/*!
* AES encryption/decryption cipher network session key
*/
#define LORAWAN_NWKSKEY { 0x11, 0x22, 0x33, 0x44, 0x55, 0x66, 0x77, 0x88, 0x99, 0xAA, 0xBB, 0xCC, 0xDD, 0xEE, 0xFF, 0x01 }
/*!
* AES encryption/decryption cipher application session key
*/
#define LORAWAN_APPSKEY { 0x11, 0x22, 0x33, 0x44, 0x55, 0x66, 0x77, 0x88, 0x99, 0xAA, 0xBB, 0xCC, 0xDD, 0xEE, 0xFF, 0x01 }
#endif
/*!
* Defines the application data transmission duty cycle. 5s, value in [us].
*/
#define APP_TX_DUTYCYCLE 5000000
/*!
* Defines a random delay for application data transmission duty cycle. 1s,
* value in [us].
*/
#define APP_TX_DUTYCYCLE_RND 1000000
/*!
* LoRaWAN confirmed messages
*/
#define LORAWAN_CONFIRMED_MSG_ON true
/*!
* LoRaWAN Adaptative Data Rate
*
* \remark Please note that when ADR is enabled the end-device should be static
*/
#define LORAWAN_ADR_ON 1
#if defined( USE_BAND_868 )
/*!
* LoRaWAN ETSI duty cycle control enable/disable
*
* \remark Please note that ETSI mandates duty cycled transmissions. Use only for test purposes
*/
#define LORAWAN_DUTYCYCLE_ON false
#endif
/*!
* LoRaWAN application port
*/
#define LORAWAN_APP_PORT 15
/*!
* User application data buffer size
*/
#if ( LORAWAN_CONFIRMED_MSG_ON == 1 )
#define LORAWAN_APP_DATA_SIZE 6
#else
#define LORAWAN_APP_DATA_SIZE 1
#endif
#if( OVER_THE_AIR_ACTIVATION != 0 )
static uint8_t DevEui[] = LORAWAN_DEVICE_EUI;
static uint8_t AppEui[] = LORAWAN_APPLICATION_EUI;
static uint8_t AppKey[] = LORAWAN_APPLICATION_KEY;
#else
static uint8_t NwkSKey[] = LORAWAN_NWKSKEY;
static uint8_t AppSKey[] = LORAWAN_APPSKEY;
#endif
/*!
* Indicates if the MAC layer has already joined a network.
*/
static bool IsNetworkJoined = false;
static bool IsNetworkJoinedStatusUpdate = false;
/*!
* Application port
*/
static uint8_t AppPort = LORAWAN_APP_PORT;
/*!
* User application data size
*/
static uint8_t AppDataSize = LORAWAN_APP_DATA_SIZE;
/*!
* User application data buffer size
*/
#define LORAWAN_APP_DATA_MAX_SIZE 64
/*!
* User application data
*/
static uint8_t AppData[LORAWAN_APP_DATA_MAX_SIZE];
/*!
* Indicates if the node is sending confirmed or unconfirmed messages
*/
static uint8_t IsTxConfirmed = LORAWAN_CONFIRMED_MSG_ON;
/*!
* Defines the application data transmission duty cycle
*/
static uint32_t TxDutyCycleTime;
/*!
* Timer to handle the application data transmission duty cycle
*/
static TimerEvent_t TxNextPacketTimer;
#if( OVER_THE_AIR_ACTIVATION != 0 )
/*!
* Defines the join request timer
*/
static TimerEvent_t JoinReqTimer;
#endif
/*!
* Indicates if a new packet can be sent
*/
static bool TxNextPacket = true;
static bool ScheduleNextTx = false;
static LoRaMacCallbacks_t LoRaMacCallbacks;
static TimerEvent_t Led1Timer;
volatile bool Led1State = false;
volatile bool Led1StateChanged = false;
static TimerEvent_t Led2Timer;
volatile bool Led2State = false;
volatile bool Led2StateChanged = false;
static bool AppLedStateOn = false;
volatile bool Led3StateChanged = false;
volatile bool LinkStatusUpdated = false;
static bool ComplianceTestOn = false;
static uint8_t ComplianceTestState = 0;
static uint16_t ComplianceTestDownLinkCounter = 0;
static bool ComplianceTestLinkCheck = false;
static uint8_t ComplianceTestDemodMargin = 0;
static uint8_t ComplianceTestNbGateways = 0;
struct sLoRaMacUplinkStatus
{
uint8_t Acked;
int8_t Datarate;
uint16_t UplinkCounter;
uint8_t Port;
uint8_t *Buffer;
uint8_t BufferSize;
}LoRaMacUplinkStatus;
struct sLoRaMacDownlinkStatus
{
int16_t Rssi;
int8_t Snr;
uint16_t DownlinkCounter;
bool RxData;
uint8_t Port;
uint8_t *Buffer;
uint8_t BufferSize;
}LoRaMacDownlinkStatus;
void SerialDisplayRefresh( void )
{
SerialDisplayInit( );
SerialDisplayUpdateActivationMode( OVER_THE_AIR_ACTIVATION );
#if( OVER_THE_AIR_ACTIVATION == 0 )
SerialDisplayUpdateNwkId( LORAWAN_NETWORK_ID );
SerialDisplayUpdateDevAddr( LORAWAN_DEVICE_ADDRESS );
SerialDisplayUpdateKey( 12, NwkSKey );
SerialDisplayUpdateKey( 13, AppSKey );
#else
SerialDisplayUpdateEui( 5, DevEui );
SerialDisplayUpdateEui( 6, AppEui );
SerialDisplayUpdateKey( 7, AppKey );
#endif
SerialDisplayUpdateNetworkIsJoined( IsNetworkJoined );
SerialDisplayUpdateAdr( LORAWAN_ADR_ON );
#if defined( USE_BAND_868 )
SerialDisplayUpdateDutyCycle( LORAWAN_DUTYCYCLE_ON );
#else
SerialDisplayUpdateDutyCycle( false );
#endif
SerialDisplayUpdatePublicNetwork( LORAWAN_PUBLIC_NETWORK );
SerialDisplayUpdateLedState( 3, AppLedStateOn );
}
void SerialRxProcess( void )
{
if( SerialDisplayReadable( ) == true )
{
switch( SerialDisplayGetChar( ) )
{
case 'R':
case 'r':
// Refresh Serial screen
SerialDisplayRefresh( );
break;
default:
break;
}
}
}
/*!
* Prepares the frame buffer to be sent
*/
static void PrepareTxFrame( uint8_t port )
{
switch( port )
{
case 15:
{
AppData[0] = AppLedStateOn;
if( IsTxConfirmed == true )
{
AppData[1] = LoRaMacDownlinkStatus.DownlinkCounter >> 8;
AppData[2] = LoRaMacDownlinkStatus.DownlinkCounter;
AppData[3] = LoRaMacDownlinkStatus.Rssi >> 8;
AppData[4] = LoRaMacDownlinkStatus.Rssi;
AppData[5] = LoRaMacDownlinkStatus.Snr;
}
}
break;
case 224:
if( ComplianceTestLinkCheck == true )
{
ComplianceTestLinkCheck = false;
AppDataSize = 3;
AppData[0] = 5;
AppData[1] = ComplianceTestDemodMargin;
AppData[2] = ComplianceTestNbGateways;
ComplianceTestState = 1;
}
else
{
switch( ComplianceTestState )
{
case 4:
ComplianceTestState = 1;
break;
case 1:
AppDataSize = 2;
AppData[0] = ComplianceTestDownLinkCounter >> 8;
AppData[1] = ComplianceTestDownLinkCounter;
break;
}
}
break;
}
}
static void ProcessRxFrame( LoRaMacEventFlags_t *flags, LoRaMacEventInfo_t *info )
{
switch( info->RxPort ) // Check Rx port number
{
case 1: // The application LED can be controlled on port 1 or 2
case 2:
if( info->RxBufferSize == 1 )
{
AppLedStateOn = info->RxBuffer[0] & 0x01;
Led3StateChanged = true;
}
break;
case 224:
if( ComplianceTestOn == false )
{
// Check compliance test enable command (i)
if( ( info->RxBufferSize == 4 ) &&
( info->RxBuffer[0] == 0x01 ) &&
( info->RxBuffer[1] == 0x01 ) &&
( info->RxBuffer[2] == 0x01 ) &&
( info->RxBuffer[3] == 0x01 ) )
{
IsTxConfirmed = false;
AppPort = 224;
AppDataSize = 2;
ComplianceTestDownLinkCounter = 0;
ComplianceTestLinkCheck = false;
ComplianceTestDemodMargin = 0;
ComplianceTestNbGateways = 0;
ComplianceTestOn = true;
ComplianceTestState = 1;
LoRaMacSetAdrOn( true );
#if defined( USE_BAND_868 )
LoRaMacTestSetDutyCycleOn( false );
#endif
}
}
else
{
ComplianceTestState = info->RxBuffer[0];
switch( ComplianceTestState )
{
case 0: // Check compliance test disable command (ii)
IsTxConfirmed = LORAWAN_CONFIRMED_MSG_ON;
AppPort = LORAWAN_APP_PORT;
if( IsTxConfirmed == true )
{
AppDataSize = 6;
}
else
{
AppDataSize = 1;
}
ComplianceTestDownLinkCounter = 0;
ComplianceTestOn = false;
LoRaMacSetAdrOn( LORAWAN_ADR_ON );
#if defined( USE_BAND_868 )
LoRaMacTestSetDutyCycleOn( LORAWAN_DUTYCYCLE_ON );
#endif
break;
case 1: // (iii, iv)
AppDataSize = 2;
break;
case 2: // Enable confirmed messages (v)
IsTxConfirmed = true;
ComplianceTestState = 1;
break;
case 3: // Disable confirmed messages (vi)
IsTxConfirmed = false;
ComplianceTestState = 1;
break;
case 4: // (vii)
AppDataSize = info->RxBufferSize;
AppData[0] = 4;
for( uint8_t i = 1; i < AppDataSize; i++ )
{
AppData[i] = info->RxBuffer[i] + 1;
}
break;
case 5: // (viii)
LoRaMacLinkCheckReq( );
break;
default:
break;
}
}
break;
default:
break;
}
}
static bool SendFrame( void )
{
uint8_t sendFrameStatus = 0;
LoRaMacUplinkStatus.Acked = false;
LoRaMacUplinkStatus.Port = AppPort;
LoRaMacUplinkStatus.Buffer = AppData;
LoRaMacUplinkStatus.BufferSize = AppDataSize;
SerialDisplayUpdateFrameType( IsTxConfirmed );
if( IsTxConfirmed == false )
{
sendFrameStatus = LoRaMacSendFrame( AppPort, AppData, AppDataSize );
}
else
{
sendFrameStatus = LoRaMacSendConfirmedFrame( AppPort, AppData, AppDataSize, 8 );
}
switch( sendFrameStatus )
{
case 5: // NO_FREE_CHANNEL
// Try again later
return true;
default:
return false;
}
}
#if( OVER_THE_AIR_ACTIVATION != 0 )
/*!
* \brief Function executed on JoinReq Timeout event
*/
static void OnJoinReqTimerEvent( void )
{
TimerStop( &JoinReqTimer );
TxNextPacket = true;
}
#endif
/*!
* \brief Function executed on TxNextPacket Timeout event
*/
static void OnTxNextPacketTimerEvent( void )
{
TimerStop( &TxNextPacketTimer );
TxNextPacket = true;
}
/*!
* \brief Function executed on Led 1 Timeout event
*/
static void OnLed1TimerEvent( void )
{
TimerStop( &Led1Timer );
Led1State = false;
Led1StateChanged = true;
}
/*!
* \brief Function executed on Led 2 Timeout event
*/
static void OnLed2TimerEvent( void )
{
TimerStop( &Led2Timer );
Led2State = false;
Led2StateChanged = true;
}
/*!
* \brief Function to be executed on MAC layer event
*/
static void OnMacEvent( LoRaMacEventFlags_t *flags, LoRaMacEventInfo_t *info )
{
if( flags->Bits.JoinAccept == 1 )
{
#if( OVER_THE_AIR_ACTIVATION != 0 )
TimerStop( &JoinReqTimer );
#endif
IsNetworkJoined = true;
IsNetworkJoinedStatusUpdate = true;
}
else
{
if( flags->Bits.Tx == 1 )
{
}
if( flags->Bits.Rx == 1 )
{
if( ComplianceTestOn == true )
{
ComplianceTestDownLinkCounter++;
if( flags->Bits.LinkCheck == 1 )
{
ComplianceTestLinkCheck = true;
ComplianceTestDemodMargin = info->DemodMargin;
ComplianceTestNbGateways = info->NbGateways;
}
}
if( flags->Bits.RxData == true )
{
ProcessRxFrame( flags, info );
}
LoRaMacDownlinkStatus.Rssi = info->RxRssi;
if( info->RxSnr & 0x80 ) // The SNR sign bit is 1
{
// Invert and divide by 4
LoRaMacDownlinkStatus.Snr = ( ( ~info->RxSnr + 1 ) & 0xFF ) >> 2;
LoRaMacDownlinkStatus.Snr = -LoRaMacDownlinkStatus.Snr;
}
else
{
// Divide by 4
LoRaMacDownlinkStatus.Snr = ( info->RxSnr & 0xFF ) >> 2;
}
LoRaMacDownlinkStatus.DownlinkCounter++;
LoRaMacDownlinkStatus.RxData = flags->Bits.RxData;
LoRaMacDownlinkStatus.Port = info->RxPort;
LoRaMacDownlinkStatus.Buffer = info->RxBuffer;
LoRaMacDownlinkStatus.BufferSize = info->RxBufferSize;
Led2State = true;
Led2StateChanged = true;
TimerStart( &Led2Timer );
}
LoRaMacUplinkStatus.Acked = info->TxAckReceived;
LoRaMacUplinkStatus.Datarate = info->TxDatarate;
LoRaMacUplinkStatus.UplinkCounter = LoRaMacGetUpLinkCounter( ) - 1;
}
LinkStatusUpdated = true;
// Schedule a new transmission
ScheduleNextTx = true;
}
/**
* Main application entry point.
*/
int main( void )
{
SerialDisplayInit( );
#if( OVER_THE_AIR_ACTIVATION != 0 )
uint8_t sendFrameStatus = 0;
#endif
bool trySendingFrameAgain = false;
BoardInit( );
LoRaMacCallbacks.MacEvent = OnMacEvent;
LoRaMacCallbacks.GetBatteryLevel = BoardGetBatteryLevel;
LoRaMacInit( &LoRaMacCallbacks );
IsNetworkJoined = false;
SerialDisplayUpdateActivationMode( OVER_THE_AIR_ACTIVATION );
#if( OVER_THE_AIR_ACTIVATION == 0 )
LoRaMacInitNwkIds( LORAWAN_NETWORK_ID, LORAWAN_DEVICE_ADDRESS, NwkSKey, AppSKey );
IsNetworkJoined = true;
SerialDisplayUpdateNwkId( LORAWAN_NETWORK_ID );
SerialDisplayUpdateDevAddr( LORAWAN_DEVICE_ADDRESS );
SerialDisplayUpdateKey( 12, NwkSKey );
SerialDisplayUpdateKey( 13, AppSKey );
#else
// Sends a JoinReq Command every 5 seconds until the network is joined
TimerInit( &JoinReqTimer, OnJoinReqTimerEvent );
TimerSetValue( &JoinReqTimer, OVER_THE_AIR_ACTIVATION_DUTYCYCLE );
SerialDisplayUpdateEui( 5, DevEui );
SerialDisplayUpdateEui( 6, AppEui );
SerialDisplayUpdateKey( 7, AppKey );
#endif
SerialDisplayUpdateNetworkIsJoined( IsNetworkJoined );
TxNextPacket = true;
TimerInit( &TxNextPacketTimer, OnTxNextPacketTimerEvent );
TimerInit( &Led1Timer, OnLed1TimerEvent );
TimerSetValue( &Led1Timer, 500000 );
TimerInit( &Led2Timer, OnLed2TimerEvent );
TimerSetValue( &Led2Timer, 500000 );
LoRaMacSetAdrOn( LORAWAN_ADR_ON );
#if defined( USE_BAND_868 )
LoRaMacTestSetDutyCycleOn( LORAWAN_DUTYCYCLE_ON );
#endif
LoRaMacSetPublicNetwork( LORAWAN_PUBLIC_NETWORK );
SerialDisplayUpdateAdr( LORAWAN_ADR_ON );
#if defined( USE_BAND_868 )
SerialDisplayUpdateDutyCycle( LORAWAN_DUTYCYCLE_ON );
#else
SerialDisplayUpdateDutyCycle( false );
#endif
SerialDisplayUpdatePublicNetwork( LORAWAN_PUBLIC_NETWORK );
LoRaMacDownlinkStatus.DownlinkCounter = 0;
while( 1 )
{
while( IsNetworkJoined == false )
{
#if( OVER_THE_AIR_ACTIVATION != 0 )
if( TxNextPacket == true )
{
TxNextPacket = false;
sendFrameStatus = LoRaMacJoinReq( DevEui, AppEui, AppKey );
switch( sendFrameStatus )
{
case 1: // BUSY
break;
case 0: // OK
case 2: // NO_NETWORK_JOINED
case 3: // LENGTH_PORT_ERROR
case 4: // MAC_CMD_ERROR
case 6: // DEVICE_OFF
default:
// Relaunch timer for next trial
TimerStart( &JoinReqTimer );
break;
}
}
SerialRxProcess( );
#endif
}
SerialRxProcess( );
if( IsNetworkJoinedStatusUpdate == true )
{
IsNetworkJoinedStatusUpdate = false;
SerialDisplayUpdateNetworkIsJoined( IsNetworkJoined );
}
if( Led1StateChanged == true )
{
Led1StateChanged = false;
SerialDisplayUpdateLedState( 1, Led1State );
}
if( Led2StateChanged == true )
{
Led2StateChanged = false;
SerialDisplayUpdateLedState( 2, Led2State );
}
if( Led3StateChanged == true )
{
Led3StateChanged = false;
SerialDisplayUpdateLedState( 3, AppLedStateOn );
}
if( LinkStatusUpdated == true )
{
LinkStatusUpdated = false;
SerialDisplayUpdateLedState( 2, Led2State );
SerialDisplayUpdateUplink( LoRaMacUplinkStatus.Acked, LoRaMacUplinkStatus.Datarate, LoRaMacUplinkStatus.UplinkCounter, LoRaMacUplinkStatus.Port, LoRaMacUplinkStatus.Buffer, LoRaMacUplinkStatus.BufferSize );
SerialDisplayUpdateDownlink( LoRaMacDownlinkStatus.RxData, LoRaMacDownlinkStatus.Rssi, LoRaMacDownlinkStatus.Snr, LoRaMacDownlinkStatus.DownlinkCounter, LoRaMacDownlinkStatus.Port, LoRaMacDownlinkStatus.Buffer, LoRaMacDownlinkStatus.BufferSize );
}
if( ScheduleNextTx == true )
{
ScheduleNextTx = false;
// if( ComplianceTestOn == true )
// {
// TxNextPacket = true;
// }
// else
// {
// Schedule next packet transmission
TxDutyCycleTime = APP_TX_DUTYCYCLE + randr( -APP_TX_DUTYCYCLE_RND, APP_TX_DUTYCYCLE_RND );
TimerSetValue( &TxNextPacketTimer, TxDutyCycleTime );
TimerStart( &TxNextPacketTimer );
// }
}
if( trySendingFrameAgain == true )
{
trySendingFrameAgain = SendFrame( );
}
if( TxNextPacket == true )
{
TxNextPacket = false;
SerialDisplayUpdateDonwlinkRxData( false );
PrepareTxFrame( AppPort );
Led1State = true;
SerialDisplayUpdateLedState( 1, Led1State );
TimerStart( &Led1Timer );
trySendingFrameAgain = SendFrame( );
SerialDisplayUpdateUplink( LoRaMacUplinkStatus.Acked, LoRaMacUplinkStatus.Datarate, LoRaMacUplinkStatus.UplinkCounter, LoRaMacUplinkStatus.Port, LoRaMacUplinkStatus.Buffer, LoRaMacUplinkStatus.BufferSize );
}
}
}