Semtech
Source code for the SX126xDVK1xAS Dev Kit. This example code has only been tested on the Nucleo L476RG
Dependencies: mbed DmTftLibrary SX126xLib
Peripherals/Eeprom.cpp
- Committer:
- mantoine
- Date:
- 2019-01-07
- Revision:
- 3:c3ab10127815
- Parent:
- 2:8e1b4210df6b
File content as of revision 3:c3ab10127815:
/*
______ _
/ _____) _ | |
( (____ _____ ____ _| |_ _____ ____| |__
\____ \| ___ | (_ _) ___ |/ ___) _ \
_____) ) ____| | | || |_| ____( (___| | | |
(______/|_____)_|_|_| \__)_____)\____)_| |_|
(C)2016 Semtech
Description: EEPROM routines
Maintainer: Gregory Cristian & Gilbert Menth
*/
#include "mbed.h"
#include "string.h"
#include "Eeprom.h"
#include "Menu.h"
#include "DemoApplication.h"
#include "sx126x.h"
#if defined( TARGET_NUCLEO_L476RG )
#include "stm32l4xx_hal_flash.h"
#elif defined( TARGET_NUCLEO_L152RE )
#include "stm32l1xx_hal_flash.h"
#else
#error "Please define include file"
#endif
#include "DisplayDriver.h"
/*!
* \brief Define address of Emulated EEPROM (in fact region of Flash)
*/
#if defined( TARGET_NUCLEO_L476RG )
#define DATA_EEPROM_BASE ( ( uint32_t )0x0807F800U )
#define DATA_EEPROM_END ( ( uint32_t )DATA_EEPROM_BASE + 2048 )
#elif defined( TARGET_NUCLEO_L152RE )
#define DATA_EEPROM_BASE ( ( uint32_t )0x08080000U )
#define DATA_EEPROM_END ( ( uint32_t )0x080807FFU )
#else
#error "Please define EEPROM base address and size for your board "
#endif
/*!
* \brief CRC of EEPROM buffer and its valid status
*/
typedef struct
{
uint16_t Value;
bool Valid;
}MemTestStruct_t;
/*!
* \brief Local copy of Eeprom.
*/
Eeprom_t Eeprom;
// Check CRC of local copy of Eeprom (Buffer). This update Valid & Value
static MemTestStruct_t EepromDataCheckSum( void );
uint8_t EepromMcuWriteBuffer( uint16_t addr, uint8_t *buffer, uint16_t size );
void EepromInit( uint8_t deviceConnected, uint8_t matchingFreq )
{
MemTestStruct_t memTestStruct;
EepromMcuReadBuffer( 0, Eeprom.Buffer, EEPROM_BUFFER_SIZE );
EepromLoadGeneralSettings( );
memTestStruct = EepromDataCheckSum( );
if( !( memTestStruct.Valid ) || ( Eeprom.EepromData.DemoSettings.LastDeviceConnected != deviceConnected ) )
{
#ifdef ADV_DEBUG
printf("EepromDataCheckSum failed\n\r");
#endif
EepromSetDefaultSettings( deviceConnected, matchingFreq );
}
EepromLoadSettings( ( RadioPacketTypes_t ) Eeprom.EepromData.DemoSettings.ModulationType );
}
void EepromSaveSettings( EepromDataSet_t dataSet)
{
MemTestStruct_t memTestStruct;
switch( dataSet )
{
case RADIO_LORA_PARAMS:
Eeprom.EepromData.ModulationParams.Params.LoRa.SpreadingFactor = ( RadioLoRaSpreadingFactors_t ) Eeprom.EepromData.DemoSettings.ModulationParam1;
Eeprom.EepromData.ModulationParams.Params.LoRa.Bandwidth = ( RadioLoRaBandwidths_t ) Eeprom.EepromData.DemoSettings.ModulationParam2;
Eeprom.EepromData.ModulationParams.Params.LoRa.CodingRate = ( RadioLoRaCodingRates_t ) Eeprom.EepromData.DemoSettings.ModulationParam3;
Eeprom.EepromData.PacketParams.Params.LoRa.PreambleLength = Eeprom.EepromData.DemoSettings.PacketParam1;
Eeprom.EepromData.PacketParams.Params.LoRa.HeaderType = ( RadioLoRaPacketLengthsMode_t )Eeprom.EepromData.DemoSettings.PacketParam2;
Eeprom.EepromData.PacketParams.Params.LoRa.PayloadLength = Eeprom.EepromData.DemoSettings.PacketParam3;
Eeprom.EepromData.PacketParams.Params.LoRa.CrcMode = ( RadioLoRaCrcModes_t ) Eeprom.EepromData.DemoSettings.PacketParam4;
Eeprom.EepromData.PacketParams.Params.LoRa.InvertIQ = ( RadioLoRaIQModes_t ) Eeprom.EepromData.DemoSettings.PacketParam5;
memcpy( Eeprom.Buffer + MOD_LORA_SPREADF_EEPROM_ADDR, &( Eeprom.EepromData.ModulationParams.Params.LoRa.SpreadingFactor ), 1 );
memcpy( Eeprom.Buffer + MOD_LORA_BW_EEPROM_ADDR, &( Eeprom.EepromData.ModulationParams.Params.LoRa.Bandwidth ), 1 );
memcpy( Eeprom.Buffer + MOD_LORA_CODERATE_EEPROM_ADDR, &( Eeprom.EepromData.ModulationParams.Params.LoRa.CodingRate ), 1 );
memcpy( Eeprom.Buffer + PAK_LORA_PREAMBLE_LEN_EEPROM_ADDR, &( Eeprom.EepromData.PacketParams.Params.LoRa.PreambleLength ), 1 );
memcpy( Eeprom.Buffer + PAK_LORA_HEADERTYPE_EEPROM_ADDR, &( Eeprom.EepromData.PacketParams.Params.LoRa.HeaderType ), 1 );
memcpy( Eeprom.Buffer + PAK_LORA_PL_LEN_EEPROM_ADDR, &( Eeprom.EepromData.PacketParams.Params.LoRa.PayloadLength ), 1 );
memcpy( Eeprom.Buffer + PAK_LORA_CRC_MODE_EEPROM_ADDR, &( Eeprom.EepromData.PacketParams.Params.LoRa.CrcMode ), 1 );
memcpy( Eeprom.Buffer + PAK_LORA_IQ_INV_EEPROM_ADDR, &( Eeprom.EepromData.PacketParams.Params.LoRa.InvertIQ ), 1 );
#ifdef ADV_DEBUG
printf("Saved RADIO_LoRa_PARAMS\n\r");
#endif
break;
case RADIO_GFSK_PARAMS:
Eeprom.EepromData.ModulationParams.Params.Gfsk.BitRate = Eeprom.EepromData.DemoSettings.ModulationParam1;
Eeprom.EepromData.ModulationParams.Params.Gfsk.Fdev = Eeprom.EepromData.DemoSettings.ModulationParam2;
Eeprom.EepromData.ModulationParams.Params.Gfsk.ModulationShaping = ( RadioModShapings_t ) Eeprom.EepromData.DemoSettings.ModulationParam3;
Eeprom.EepromData.ModulationParams.Params.Gfsk.Bandwidth = ( RadioRxBandwidth_t ) Eeprom.EepromData.DemoSettings.ModulationParam4;
Eeprom.EepromData.PacketParams.Params.Gfsk.PreambleLength = Eeprom.EepromData.DemoSettings.PacketParam1;
Eeprom.EepromData.PacketParams.Params.Gfsk.PreambleMinDetect = ( RadioPreambleDetection_t )Eeprom.EepromData.DemoSettings.PacketParam2;
Eeprom.EepromData.PacketParams.Params.Gfsk.SyncWordLength = Eeprom.EepromData.DemoSettings.PacketParam3;
Eeprom.EepromData.PacketParams.Params.Gfsk.AddrComp = ( RadioAddressComp_t ) Eeprom.EepromData.DemoSettings.PacketParam4;
Eeprom.EepromData.PacketParams.Params.Gfsk.HeaderType = ( RadioPacketLengthModes_t )Eeprom.EepromData.DemoSettings.PacketParam5;
Eeprom.EepromData.PacketParams.Params.Gfsk.PayloadLength = Eeprom.EepromData.DemoSettings.PacketParam6;
Eeprom.EepromData.PacketParams.Params.Gfsk.CrcLength = ( RadioCrcTypes_t ) Eeprom.EepromData.DemoSettings.PacketParam7;
Eeprom.EepromData.PacketParams.Params.Gfsk.DcFree = ( RadioDcFree_t ) Eeprom.EepromData.DemoSettings.PacketParam8;
memcpy( Eeprom.Buffer + MOD_GFSK_BR_EEPROM_ADDR, &( Eeprom.EepromData.ModulationParams.Params.Gfsk.BitRate ), 4 );
memcpy( Eeprom.Buffer + MOD_GFSK_FDEV_EEPROM_ADDR, &( Eeprom.EepromData.ModulationParams.Params.Gfsk.Fdev ), 4 );
memcpy( Eeprom.Buffer + MOD_GFSK_MOD_SHAPE_EEPROM_ADDR, &( Eeprom.EepromData.ModulationParams.Params.Gfsk.ModulationShaping ), 1 );
memcpy( Eeprom.Buffer + MOD_GFSK_BW_EEPROM_ADDR, &( Eeprom.EepromData.ModulationParams.Params.Gfsk.Bandwidth ), 1 );
memcpy( Eeprom.Buffer + PAK_GFSK_PREAMBLE_LEN_EEPROM_ADDR, &( Eeprom.EepromData.PacketParams.Params.Gfsk.PreambleLength ), 1 );
memcpy( Eeprom.Buffer + PAK_GFSK_PR_MIN_DET_EEPROM_ADDR, &( Eeprom.EepromData.PacketParams.Params.Gfsk.PreambleMinDetect ), 1 );
memcpy( Eeprom.Buffer + PAK_GFSK_SYNC_LEN_EEPROM_ADDR, &( Eeprom.EepromData.PacketParams.Params.Gfsk.SyncWordLength ), 1 );
memcpy( Eeprom.Buffer + PAK_GFSK_HEADERTYPE_EEPROM_ADDR, &( Eeprom.EepromData.PacketParams.Params.Gfsk.HeaderType ), 1 );
memcpy( Eeprom.Buffer + PAK_GFSK_PL_LEN_EEPROM_ADDR, &( Eeprom.EepromData.PacketParams.Params.Gfsk.PayloadLength ), 1 );
memcpy( Eeprom.Buffer + PAK_GFSK_ADDR_COMP_EEPROM_ADDR, &( Eeprom.EepromData.PacketParams.Params.Gfsk.AddrComp ), 1 );
memcpy( Eeprom.Buffer + PAK_GFSK_CRC_LEN_EEPROM_ADDR, &( Eeprom.EepromData.PacketParams.Params.Gfsk.CrcLength ), 1 );
memcpy( Eeprom.Buffer + PAK_GFSK_DC_FREE_EEPROM_ADDR, &( Eeprom.EepromData.PacketParams.Params.Gfsk.DcFree ), 1 );
#ifdef ADV_DEBUG
printf("Saved RADIO_GFSK_PARAMS\n\r");
#endif
break;
case DEMO_SETTINGS:
memcpy( Eeprom.Buffer + APP_ENTITY_EEPROM_ADDR, &( Eeprom.EepromData.DemoSettings.Entity ), 1 );
memcpy( Eeprom.Buffer + APP_RADIO_BOOSTED_RX_EEPROM_ADDR, &( Eeprom.EepromData.DemoSettings.BoostedRx ), 1 );
memcpy( Eeprom.Buffer + APP_FREQ_EEPROM_ADDR, &( Eeprom.EepromData.DemoSettings.Frequency ), 4 );
memcpy( Eeprom.Buffer + APP_TXPWR_EEPROM_ADDR, &( Eeprom.EepromData.DemoSettings.TxPower ), 1 );
memcpy( Eeprom.Buffer + APP_MOD_TYPE_EEPROM_ADDR, &( Eeprom.EepromData.DemoSettings.ModulationType ), 1 );
memcpy( Eeprom.Buffer + APP_PER_NPAK_MAX_EEPROM_ADDR, &( Eeprom.EepromData.DemoSettings.MaxNumPacket ), 4 );
memcpy( Eeprom.Buffer + APP_RADIO_POWER_MODE_EEPROM_ADDR, &( Eeprom.EepromData.DemoSettings.RadioPowerMode ), 1 );
memcpy( Eeprom.Buffer + MOD_PKET_TYPE_EEPROM_ADDR, &( Eeprom.EepromData.DemoSettings.ModulationType ), 1 );
memcpy( Eeprom.Buffer + PAK_PKET_TYPE_EEPROM_ADDR, &( Eeprom.EepromData.DemoSettings.ModulationType ), 1 );
memcpy( Eeprom.Buffer + EEPROM_LAST_DEVICE_CONNECTED, &( Eeprom.EepromData.DemoSettings.LastDeviceConnected ), 1 );
#ifdef ADV_DEBUG
printf("Saved DEMO_SETTINGS\n\r");
#endif
break;
case SCREEN_DATA:
memcpy( Eeprom.Buffer + SCR_CAL_FLAG_EEPROM_ADDR, &( Eeprom.EepromData.MenuSettings.ScreenCalibrated ), 1 );
memcpy( Eeprom.Buffer + SCR_CAL_POSA_EEPROM_ADDR, &( Eeprom.EepromData.MenuSettings.Calibration.a ), 4 );
memcpy( Eeprom.Buffer + SCR_CAL_POSB_EEPROM_ADDR, &( Eeprom.EepromData.MenuSettings.Calibration.b ), 4 );
memcpy( Eeprom.Buffer + SCR_CAL_POSC_EEPROM_ADDR, &( Eeprom.EepromData.MenuSettings.Calibration.c ), 4 );
memcpy( Eeprom.Buffer + SCR_CAL_POSD_EEPROM_ADDR, &( Eeprom.EepromData.MenuSettings.Calibration.d ), 4 );
memcpy( Eeprom.Buffer + SCR_CAL_POSE_EEPROM_ADDR, &( Eeprom.EepromData.MenuSettings.Calibration.e ), 4 );
memcpy( Eeprom.Buffer + SCR_CAL_POSF_EEPROM_ADDR, &( Eeprom.EepromData.MenuSettings.Calibration.f ), 4 );
break;
default:
#ifdef ADV_DEBUG
printf("data not saved\n\r");
#endif
break;
}
memTestStruct = EepromDataCheckSum( );
memcpy( Eeprom.Buffer + EEPROM_CRC_EEPROM_ADDR, &( memTestStruct.Value ), 2 );
EepromMcuWriteBuffer( 0, Eeprom.Buffer, EEPROM_BUFFER_SIZE );
}
void EepromLoadGeneralSettings( void )
{
printf("Load General Settings\n\r");
memcpy( &( Eeprom.EepromData.MenuSettings.ScreenCalibrated ), Eeprom.Buffer + SCR_CAL_FLAG_EEPROM_ADDR, 1 );
memcpy( &( Eeprom.EepromData.MenuSettings.Calibration.a ), Eeprom.Buffer + SCR_CAL_POSA_EEPROM_ADDR, 4 );
memcpy( &( Eeprom.EepromData.MenuSettings.Calibration.b ), Eeprom.Buffer + SCR_CAL_POSB_EEPROM_ADDR, 4 );
memcpy( &( Eeprom.EepromData.MenuSettings.Calibration.c ), Eeprom.Buffer + SCR_CAL_POSC_EEPROM_ADDR, 4 );
memcpy( &( Eeprom.EepromData.MenuSettings.Calibration.d ), Eeprom.Buffer + SCR_CAL_POSD_EEPROM_ADDR, 4 );
memcpy( &( Eeprom.EepromData.MenuSettings.Calibration.e ), Eeprom.Buffer + SCR_CAL_POSE_EEPROM_ADDR, 4 );
memcpy( &( Eeprom.EepromData.MenuSettings.Calibration.f ), Eeprom.Buffer + SCR_CAL_POSF_EEPROM_ADDR, 4 );
memcpy( &( Eeprom.EepromData.DemoSettings.Entity ), Eeprom.Buffer + APP_ENTITY_EEPROM_ADDR, 1 );
memcpy( &( Eeprom.EepromData.DemoSettings.BoostedRx ), Eeprom.Buffer + APP_RADIO_BOOSTED_RX_EEPROM_ADDR, 1 );
memcpy( &( Eeprom.EepromData.DemoSettings.Frequency ), Eeprom.Buffer + APP_FREQ_EEPROM_ADDR, 4 );
memcpy( &( Eeprom.EepromData.DemoSettings.RadioPowerMode ), Eeprom.Buffer + APP_RADIO_POWER_MODE_EEPROM_ADDR, 1 );
memcpy( &( Eeprom.EepromData.DemoSettings.TxPower ), Eeprom.Buffer + APP_TXPWR_EEPROM_ADDR, 1 );
memcpy( &( Eeprom.EepromData.DemoSettings.ModulationType ), Eeprom.Buffer + APP_MOD_TYPE_EEPROM_ADDR, 1 );
memcpy( &( Eeprom.EepromData.DemoSettings.MaxNumPacket ), Eeprom.Buffer + APP_PER_NPAK_MAX_EEPROM_ADDR, 4 );
memcpy( &( Eeprom.EepromData.DemoSettings.LastDeviceConnected ), Eeprom.Buffer + EEPROM_LAST_DEVICE_CONNECTED, 1 );
memcpy( &( Eeprom.EepromData.ModulationParams.PacketType ), Eeprom.Buffer + MOD_PKET_TYPE_EEPROM_ADDR, 1 );
memcpy( &( Eeprom.EepromData.ModulationParams.Params.Gfsk.BitRate ), Eeprom.Buffer + MOD_GFSK_BR_EEPROM_ADDR, 4 );
memcpy( &( Eeprom.EepromData.ModulationParams.Params.Gfsk.Fdev ), Eeprom.Buffer + MOD_GFSK_FDEV_EEPROM_ADDR, 4 );
memcpy( &( Eeprom.EepromData.ModulationParams.Params.Gfsk.ModulationShaping ), Eeprom.Buffer + MOD_GFSK_MOD_SHAPE_EEPROM_ADDR, 1 );
memcpy( &( Eeprom.EepromData.ModulationParams.Params.Gfsk.Bandwidth ), Eeprom.Buffer + MOD_GFSK_BW_EEPROM_ADDR, 1 );
memcpy( &( Eeprom.EepromData.ModulationParams.Params.LoRa.SpreadingFactor ), Eeprom.Buffer + MOD_LORA_SPREADF_EEPROM_ADDR, 1 );
memcpy( &( Eeprom.EepromData.ModulationParams.Params.LoRa.Bandwidth ), Eeprom.Buffer + MOD_LORA_BW_EEPROM_ADDR, 1 );
memcpy( &( Eeprom.EepromData.ModulationParams.Params.LoRa.CodingRate ), Eeprom.Buffer + MOD_LORA_CODERATE_EEPROM_ADDR, 1 );
memcpy( &( Eeprom.EepromData.PacketParams.PacketType ), Eeprom.Buffer + PAK_PKET_TYPE_EEPROM_ADDR, 1 );
memcpy( &( Eeprom.EepromData.PacketParams.Params.Gfsk.PreambleLength ), Eeprom.Buffer + PAK_GFSK_PREAMBLE_LEN_EEPROM_ADDR, 1 );
memcpy( &( Eeprom.EepromData.PacketParams.Params.Gfsk.PreambleMinDetect ), Eeprom.Buffer + PAK_GFSK_PR_MIN_DET_EEPROM_ADDR, 1 );
memcpy( &( Eeprom.EepromData.PacketParams.Params.Gfsk.SyncWordLength ), Eeprom.Buffer + PAK_GFSK_SYNC_LEN_EEPROM_ADDR, 1 );
memcpy( &( Eeprom.EepromData.PacketParams.Params.Gfsk.HeaderType ), Eeprom.Buffer + PAK_GFSK_HEADERTYPE_EEPROM_ADDR, 1 );
memcpy( &( Eeprom.EepromData.PacketParams.Params.Gfsk.PayloadLength ), Eeprom.Buffer + PAK_GFSK_PL_LEN_EEPROM_ADDR, 1 );
memcpy( &( Eeprom.EepromData.PacketParams.Params.Gfsk.AddrComp ), Eeprom.Buffer + PAK_GFSK_ADDR_COMP_EEPROM_ADDR, 1 );
memcpy( &( Eeprom.EepromData.PacketParams.Params.Gfsk.CrcLength ), Eeprom.Buffer + PAK_GFSK_CRC_LEN_EEPROM_ADDR, 1 );
memcpy( &( Eeprom.EepromData.PacketParams.Params.Gfsk.DcFree ), Eeprom.Buffer + PAK_GFSK_DC_FREE_EEPROM_ADDR, 1 );
memcpy( &( Eeprom.EepromData.PacketParams.Params.LoRa.PreambleLength ), Eeprom.Buffer + PAK_LORA_PREAMBLE_LEN_EEPROM_ADDR, 1 );
memcpy( &( Eeprom.EepromData.PacketParams.Params.LoRa.HeaderType ), Eeprom.Buffer + PAK_LORA_HEADERTYPE_EEPROM_ADDR, 1 );
memcpy( &( Eeprom.EepromData.PacketParams.Params.LoRa.PayloadLength ), Eeprom.Buffer + PAK_LORA_PL_LEN_EEPROM_ADDR, 1 );
memcpy( &( Eeprom.EepromData.PacketParams.Params.LoRa.CrcMode ), Eeprom.Buffer + PAK_LORA_CRC_MODE_EEPROM_ADDR, 1 );
memcpy( &( Eeprom.EepromData.PacketParams.Params.LoRa.InvertIQ ), Eeprom.Buffer + PAK_LORA_IQ_INV_EEPROM_ADDR, 1 );
}
void EepromLoadSettings( RadioPacketTypes_t modulation )
{
if( modulation == PACKET_TYPE_LORA )
{
printf("Load Settings PACKET_TYPE_LORA\n\r");
memcpy( &( Eeprom.EepromData.ModulationParams.Params.LoRa.SpreadingFactor ), Eeprom.Buffer + MOD_LORA_SPREADF_EEPROM_ADDR, 1 );
memcpy( &( Eeprom.EepromData.ModulationParams.Params.LoRa.Bandwidth ), Eeprom.Buffer + MOD_LORA_BW_EEPROM_ADDR, 1 );
memcpy( &( Eeprom.EepromData.ModulationParams.Params.LoRa.CodingRate ), Eeprom.Buffer + MOD_LORA_CODERATE_EEPROM_ADDR, 1 );
memcpy( &( Eeprom.EepromData.PacketParams.Params.LoRa.PreambleLength ), Eeprom.Buffer + PAK_LORA_PREAMBLE_LEN_EEPROM_ADDR, 1 );
memcpy( &( Eeprom.EepromData.PacketParams.Params.LoRa.HeaderType ), Eeprom.Buffer + PAK_LORA_HEADERTYPE_EEPROM_ADDR, 1 );
memcpy( &( Eeprom.EepromData.PacketParams.Params.LoRa.PayloadLength ), Eeprom.Buffer + PAK_LORA_PL_LEN_EEPROM_ADDR, 1 );
memcpy( &( Eeprom.EepromData.PacketParams.Params.LoRa.CrcMode ), Eeprom.Buffer + PAK_LORA_CRC_MODE_EEPROM_ADDR, 1 );
memcpy( &( Eeprom.EepromData.PacketParams.Params.LoRa.InvertIQ ), Eeprom.Buffer + PAK_LORA_IQ_INV_EEPROM_ADDR, 1 );
Eeprom.EepromData.ModulationParams.PacketType = PACKET_TYPE_LORA;
Eeprom.EepromData.PacketParams.PacketType = PACKET_TYPE_LORA;
Eeprom.EepromData.DemoSettings.ModulationParam1 = Eeprom.EepromData.ModulationParams.Params.LoRa.SpreadingFactor;
Eeprom.EepromData.DemoSettings.ModulationParam2 = Eeprom.EepromData.ModulationParams.Params.LoRa.Bandwidth;
Eeprom.EepromData.DemoSettings.ModulationParam3 = Eeprom.EepromData.ModulationParams.Params.LoRa.CodingRate;
Eeprom.EepromData.DemoSettings.PacketParam1 = Eeprom.EepromData.PacketParams.Params.LoRa.PreambleLength;
Eeprom.EepromData.DemoSettings.PacketParam2 = Eeprom.EepromData.PacketParams.Params.LoRa.HeaderType;
Eeprom.EepromData.DemoSettings.PacketParam3 = Eeprom.EepromData.PacketParams.Params.LoRa.PayloadLength;
Eeprom.EepromData.DemoSettings.PacketParam4 = Eeprom.EepromData.PacketParams.Params.LoRa.CrcMode;
Eeprom.EepromData.DemoSettings.PacketParam5 = Eeprom.EepromData.PacketParams.Params.LoRa.InvertIQ;
Eeprom.EepromData.DemoSettings.PacketParam6 = 0x00;
Eeprom.EepromData.DemoSettings.PacketParam7 = 0x00;
}
else// if( modulation == PACKET_TYPE_GFSK )
{
printf("Load Settings PACKET_TYPE_GFSK\n\r");
memcpy( &( Eeprom.EepromData.ModulationParams.Params.Gfsk.BitRate ), Eeprom.Buffer + MOD_GFSK_BR_EEPROM_ADDR, 4 );
memcpy( &( Eeprom.EepromData.ModulationParams.Params.Gfsk.Fdev ), Eeprom.Buffer + MOD_GFSK_FDEV_EEPROM_ADDR, 4 );
memcpy( &( Eeprom.EepromData.ModulationParams.Params.Gfsk.ModulationShaping ), Eeprom.Buffer + MOD_GFSK_MOD_SHAPE_EEPROM_ADDR, 1 );
memcpy( &( Eeprom.EepromData.ModulationParams.Params.Gfsk.Bandwidth ), Eeprom.Buffer + MOD_GFSK_BW_EEPROM_ADDR, 1 );
memcpy( &( Eeprom.EepromData.PacketParams.Params.Gfsk.PreambleLength ), Eeprom.Buffer + PAK_GFSK_PREAMBLE_LEN_EEPROM_ADDR, 1 );
memcpy( &( Eeprom.EepromData.PacketParams.Params.Gfsk.PreambleMinDetect ), Eeprom.Buffer + PAK_GFSK_PR_MIN_DET_EEPROM_ADDR, 1 );
memcpy( &( Eeprom.EepromData.PacketParams.Params.Gfsk.SyncWordLength ), Eeprom.Buffer + PAK_GFSK_SYNC_LEN_EEPROM_ADDR, 1 );
memcpy( &( Eeprom.EepromData.PacketParams.Params.Gfsk.HeaderType ), Eeprom.Buffer + PAK_GFSK_HEADERTYPE_EEPROM_ADDR, 1 );
memcpy( &( Eeprom.EepromData.PacketParams.Params.Gfsk.PayloadLength ), Eeprom.Buffer + PAK_GFSK_PL_LEN_EEPROM_ADDR, 1 );
memcpy( &( Eeprom.EepromData.PacketParams.Params.Gfsk.AddrComp ), Eeprom.Buffer + PAK_GFSK_ADDR_COMP_EEPROM_ADDR, 1 );
memcpy( &( Eeprom.EepromData.PacketParams.Params.Gfsk.CrcLength ), Eeprom.Buffer + PAK_GFSK_CRC_LEN_EEPROM_ADDR, 1 );
memcpy( &( Eeprom.EepromData.PacketParams.Params.Gfsk.DcFree ), Eeprom.Buffer + PAK_GFSK_DC_FREE_EEPROM_ADDR, 1 );
Eeprom.EepromData.ModulationParams.PacketType = PACKET_TYPE_GFSK;
Eeprom.EepromData.PacketParams.PacketType = PACKET_TYPE_GFSK;
Eeprom.EepromData.DemoSettings.ModulationParam1 = Eeprom.EepromData.ModulationParams.Params.Gfsk.BitRate;
Eeprom.EepromData.DemoSettings.ModulationParam2 = Eeprom.EepromData.ModulationParams.Params.Gfsk.Fdev;
Eeprom.EepromData.DemoSettings.ModulationParam3 = Eeprom.EepromData.ModulationParams.Params.Gfsk.ModulationShaping;
Eeprom.EepromData.DemoSettings.ModulationParam4 = Eeprom.EepromData.ModulationParams.Params.Gfsk.Bandwidth;
Eeprom.EepromData.DemoSettings.PacketParam1 = Eeprom.EepromData.PacketParams.Params.Gfsk.PreambleLength;
Eeprom.EepromData.DemoSettings.PacketParam2 = Eeprom.EepromData.PacketParams.Params.Gfsk.PreambleMinDetect;
Eeprom.EepromData.DemoSettings.PacketParam3 = Eeprom.EepromData.PacketParams.Params.Gfsk.SyncWordLength;
Eeprom.EepromData.DemoSettings.PacketParam4 = Eeprom.EepromData.PacketParams.Params.Gfsk.AddrComp;
Eeprom.EepromData.DemoSettings.PacketParam5 = Eeprom.EepromData.PacketParams.Params.Gfsk.HeaderType;
Eeprom.EepromData.DemoSettings.PacketParam6 = Eeprom.EepromData.PacketParams.Params.Gfsk.PayloadLength;
Eeprom.EepromData.DemoSettings.PacketParam7 = Eeprom.EepromData.PacketParams.Params.Gfsk.CrcLength;
Eeprom.EepromData.DemoSettings.PacketParam8 = Eeprom.EepromData.PacketParams.Params.Gfsk.DcFree;
}
Eeprom.EepromData.DemoSettings.ModulationType = modulation;
}
void EepromSetDefaultSettings( uint8_t deviceConnected, uint8_t matchingFreq )
{
Eeprom.EepromData.MenuSettings.ScreenCalibrated = false;
printf("Set Default Settings\n\r");
EepromSaveSettings( SCREEN_DATA );
Eeprom.EepromData.DemoSettings.ModulationType = PACKET_TYPE_LORA;
Eeprom.EepromData.ModulationParams.PacketType = PACKET_TYPE_LORA;
Eeprom.EepromData.PacketParams.PacketType = PACKET_TYPE_LORA;
Eeprom.EepromData.DemoSettings.ModulationParam1 = LORA_SF7;
if( deviceConnected == SX1268 )
{
if( matchingFreq == MATCHING_FREQ_780 )
{
Eeprom.EepromData.DemoSettings.ModulationParam2 = LORA_BW_125;
}
else
{
Eeprom.EepromData.DemoSettings.ModulationParam2 = LORA_BW_500;
}
}
else
{
Eeprom.EepromData.DemoSettings.ModulationParam2 = LORA_BW_500;
}
Eeprom.EepromData.DemoSettings.ModulationParam3 = LORA_CR_4_5;
Eeprom.EepromData.DemoSettings.ModulationParam4 = 0x00;
Eeprom.EepromData.DemoSettings.PacketParam1 = 8; // PreambleLength
Eeprom.EepromData.DemoSettings.PacketParam2 = LORA_PACKET_VARIABLE_LENGTH;
Eeprom.EepromData.DemoSettings.PacketParam3 = 16; // PayloadLength
Eeprom.EepromData.DemoSettings.PacketParam4 = LORA_CRC_ON;
Eeprom.EepromData.DemoSettings.PacketParam5 = LORA_IQ_NORMAL;
EepromSaveSettings( RADIO_LORA_PARAMS );
Eeprom.EepromData.DemoSettings.ModulationType = PACKET_TYPE_GFSK;
Eeprom.EepromData.ModulationParams.PacketType = PACKET_TYPE_GFSK;
Eeprom.EepromData.PacketParams.PacketType = PACKET_TYPE_GFSK;
Eeprom.EepromData.DemoSettings.ModulationParam1 = 19200;
Eeprom.EepromData.DemoSettings.ModulationParam2 = 5000;
Eeprom.EepromData.DemoSettings.ModulationParam3 = MOD_SHAPING_G_BT_1;
Eeprom.EepromData.DemoSettings.ModulationParam4 = RX_BW_39000;
Eeprom.EepromData.DemoSettings.PacketParam1 = 40;
Eeprom.EepromData.DemoSettings.PacketParam2 = RADIO_PREAMBLE_DETECTOR_08_BITS;
Eeprom.EepromData.DemoSettings.PacketParam3 = 4;
Eeprom.EepromData.DemoSettings.PacketParam4 = RADIO_ADDRESSCOMP_FILT_OFF;
Eeprom.EepromData.DemoSettings.PacketParam5 = RADIO_PACKET_VARIABLE_LENGTH;
Eeprom.EepromData.DemoSettings.PacketParam6 = 16; // PayloadLength
Eeprom.EepromData.DemoSettings.PacketParam7 = RADIO_CRC_2_BYTES_CCIT;
Eeprom.EepromData.DemoSettings.PacketParam8 = RADIO_DC_FREE_OFF;
EepromSaveSettings( RADIO_GFSK_PARAMS );
Eeprom.EepromData.DemoSettings.Entity = SLAVE;
Eeprom.EepromData.DemoSettings.BoostedRx = true;
if( deviceConnected == SX1261 )
{
Eeprom.EepromData.DemoSettings.LastDeviceConnected = deviceConnected;
Eeprom.EepromData.DemoSettings.RadioPowerMode = USE_DCDC;
Eeprom.EepromData.DemoSettings.TxPower = SX1261_POWER_TX_MAX;
}
else if( deviceConnected == SX1268 )
{
if( matchingFreq == MATCHING_FREQ_490 )
{
Eeprom.EepromData.DemoSettings.LastDeviceConnected = deviceConnected;
Eeprom.EepromData.DemoSettings.RadioPowerMode = USE_LDO;
Eeprom.EepromData.DemoSettings.TxPower = SX1262_POWER_TX_MAX;
}
else
{
Eeprom.EepromData.DemoSettings.LastDeviceConnected = deviceConnected;
Eeprom.EepromData.DemoSettings.RadioPowerMode = USE_DCDC;
Eeprom.EepromData.DemoSettings.TxPower = 10;
}
}
else if( deviceConnected == SX1262 )
{
Eeprom.EepromData.DemoSettings.LastDeviceConnected = deviceConnected;
Eeprom.EepromData.DemoSettings.RadioPowerMode = USE_LDO;
Eeprom.EepromData.DemoSettings.TxPower = SX1262_POWER_TX_MAX;
}
if( matchingFreq == MATCHING_FREQ_169 )
{
Eeprom.EepromData.DemoSettings.Frequency = DEMO_CENTRAL_FREQ_PRESET1;
}
else if( matchingFreq == MATCHING_FREQ_280 )
{
Eeprom.EepromData.DemoSettings.Frequency = DEMO_CENTRAL_FREQ_PRESET2;
}
else if( matchingFreq == MATCHING_FREQ_434 )
{
Eeprom.EepromData.DemoSettings.Frequency = DEMO_CENTRAL_FREQ_PRESET3;
}
else if( matchingFreq == MATCHING_FREQ_490 )
{
Eeprom.EepromData.DemoSettings.Frequency = DEMO_CENTRAL_FREQ_PRESET4;
}
else if( matchingFreq == MATCHING_FREQ_780 )
{
Eeprom.EepromData.DemoSettings.Frequency = DEMO_CENTRAL_FREQ_PRESET5;
}
else if( matchingFreq == MATCHING_FREQ_868 )
{
Eeprom.EepromData.DemoSettings.Frequency = DEMO_CENTRAL_FREQ_PRESET6;
}
else if( matchingFreq == MATCHING_FREQ_915 )
{
Eeprom.EepromData.DemoSettings.Frequency = DEMO_CENTRAL_FREQ_PRESET7;
}
Eeprom.EepromData.DemoSettings.MaxNumPacket = 0x00;
Eeprom.EepromData.DemoSettings.ModulationType = PACKET_TYPE_LORA;
EepromSaveSettings( DEMO_SETTINGS );
}
/*!
* \brief Erase a page of Flash. Here used to Erase EEPROM region.
*
* \param [in] page address of page to erase
* \param [in] banks address of banks to erase
*/
void FlashPageErase( uint32_t page, uint32_t banks )
{
// Check the parameters
assert_param( IS_FLASH_PAGE( page ) );
assert_param( IS_FLASH_BANK_EXCLUSIVE( banks ) );
if( ( banks & FLASH_BANK_1 ) != RESET )
{
CLEAR_BIT( FLASH->CR, FLASH_CR_BKER );
}
else
{
SET_BIT( FLASH->CR, FLASH_CR_BKER );
}
// Proceed to erase the page
MODIFY_REG( FLASH->CR, FLASH_CR_PNB, ( page << 3 ) );
SET_BIT( FLASH->CR, FLASH_CR_PER );
SET_BIT( FLASH->CR, FLASH_CR_STRT );
}
/*!
* \brief Write Eeprom to emulated EEPROM (in fact in Flash " higher address).
*
* \param [in] addr address of data (EEPROM offset not to be include)
* \param [in] buffer buffer to use for copy
* \param [in] size size of data to copy
*
* \retval status Status of operation (SUCCESS, ..)
*/
uint8_t EepromMcuWriteBuffer( uint16_t addr, uint8_t *buffer, uint16_t size )
{
uint64_t *flash = ( uint64_t* )buffer;
// assert_param( addr >= DATA_EEPROM_BASE );
assert_param( buffer != NULL );
assert_param( size < ( DATA_EEPROM_END - DATA_EEPROM_BASE ) );
HAL_FLASH_Unlock( );
FlashPageErase( 255, 1 );
WRITE_REG( FLASH->CR, 0x40000000 );
for( uint32_t i = 0; i < size; i++ )
{
HAL_FLASH_Program( FLASH_TYPEPROGRAM_DOUBLEWORD, DATA_EEPROM_BASE + \
( 8 * i ), flash[i] );
}
HAL_FLASH_Lock( );
return SUCCESS;
}
uint8_t EepromMcuReadBuffer( uint16_t addr, uint8_t *buffer, uint16_t size )
{
assert_param( buffer != NULL );
// assert_param( addr >= DATA_EEPROM_BASE );
assert_param( buffer != NULL );
assert_param( size < ( DATA_EEPROM_END - DATA_EEPROM_BASE ) );
memcpy( buffer, ( uint8_t* )DATA_EEPROM_BASE, size );
return SUCCESS;
}
static MemTestStruct_t EepromDataCheckSum( void )
{
MemTestStruct_t memTestStruct;
uint8_t x;
uint8_t i;
uint16_t crcBuf;
memTestStruct.Value = 0xFFFF;
for( i = 0; i < EEPROM_BUFFER_SIZE - sizeof( uint16_t ); i++ )
{
x = memTestStruct.Value >> 8 ^ Eeprom.Buffer[i];
x ^= x >> 4;
memTestStruct.Value = ( memTestStruct.Value << 8 ) ^ \
( ( uint16_t )( x << 12 ) ) ^ \
( ( uint16_t )( x << 5 ) ) ^ \
( ( uint16_t )x );
}
memcpy( &crcBuf, Eeprom.Buffer + EEPROM_CRC_EEPROM_ADDR, 2 );
memTestStruct.Valid = ( crcBuf == memTestStruct.Value );
return memTestStruct;
}
void EepromEraseCheckSum( void )
{
memset( Eeprom.Buffer, 0, sizeof( Eeprom.Buffer ) );
EepromMcuWriteBuffer( 0, Eeprom.Buffer, EEPROM_BUFFER_SIZE );
}
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Repository details
| Type: | Program |
|---|---|
| Mbed OS support: | Mbed 2 deprecated |
| Created: | 09 Mar 2018 |
| Imports: | 722 |
| Forks: | 0 |
| Commits: | 4 |
| Dependents: | 0 |
| Dependencies: | 3 |
| Followers: | 112 |
The code in this repository is Apache licensed.
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