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/*
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xsns_62_esp32_mi_ble . ino - MI - BLE - sensors via ESP32 support for Tasmota
enabled by ESP32 & & USE_BLE_ESP32
if ( ESP32 & & ! USE_BLE_ESP32 ) then xsns_62_esp32_mi . ino is used - the older driver
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Copyright ( C ) 2020 Christian Baars and Theo Arends
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Also Simon Hailes and Robert Klauco
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This program is free software : you can redistribute it and / or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation , either version 3 of the License , or
( at your option ) any later version .
This program is distributed in the hope that it will be useful ,
but WITHOUT ANY WARRANTY ; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE . See the
GNU General Public License for more details .
You should have received a copy of the GNU General Public License
along with this program . If not , see < http : //www.gnu.org/licenses/>.
- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
Version yyyymmdd Action Description
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0.9 .2 .1 20210217 changed - make features alos depend on received data - i . e . ' unknown ' devices will show what they send .
Add MI32Option6 1 to switch to tele / tasmota_ble / < somename > style MQTT independent of HASS discovery .
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0.9 .2 .0 20210127 changed - Officially includes as the mi driver when using USE_BLE_ESP32 .
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0.9 .1 .9 20201226 changed - All change now .
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0.9 .1 .7 20201116 changed - small bugfixes , add BLOCK and OPTION command , send BLE scan via MQTT
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0.9 .1 .6 20201022 changed - Beacon support , RSSI at TELEPERIOD , refactoring
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0.9 .1 .5 20201021 changed - HASS related ( ' null ' , hold back discovery ) , number of found sensors for RULES
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0.9 .1 .4 20201020 changed - use BearSSL for decryption , revert to old TELEPERIOD - cycle as default
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0.9 .1 .3 20200926 changed - Improve HA discovery , make key + MAC case insensitive
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0.9 .1 .3 20200916 changed - add ATC ( custom FW for LYWSD03MMC ) , API adaption for NimBLE - Arduino 1.0 .2
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0.9 .1 .2 20200802 changed - add MHO - C303
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0.9 .1 .1 20200715 changed - add MHO - C401 , refactoring
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0.9 .1 .0 20200712 changed - add lights and yeerc , add pure passive mode with decryption ,
lots of refactoring
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0.9 .0 .1 20200706 changed - adapt to new NimBLE - API , tweak scan process
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0.9 .0 .0 20200413 started - initial development by Christian Baars
forked - from arendst / tasmota - https : //github.com/arendst/Tasmota
*/
//#define VSCODE_DEV
/*
# ifdef VSCODE_DEV
# define ESP32
# define USE_BLE_ESP32
# define USE_MI_ESP32
# endif
*/
//#undef USE_MI_ESP32
// for testing of BLE_ESP32, we remove xsns_62_MI_ESP32.ino completely, and instead add this modified xsns_52_ibeacon_BLE_ESP32.ino
# ifdef USE_BLE_ESP32
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# ifdef ESP32 // ESP32 family only. Use define USE_HM10 for ESP8266 support
# if defined CONFIG_IDF_TARGET_ESP32 || defined CONFIG_IDF_TARGET_ESP32C3
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# ifdef USE_MI_ESP32
# define XSNS_62 62
# define USE_MI_DECRYPTION
# include <vector>
# ifdef USE_MI_DECRYPTION
# include <t_bearssl.h>
# endif //USE_MI_DECRYPTION
void MI32scanEndedCB ( NimBLEScanResults results ) ;
void MI32notifyCB ( NimBLERemoteCharacteristic * pRemoteCharacteristic , uint8_t * pData , size_t length , bool isNotify ) ;
struct {
uint16_t perPage = 4 ;
uint8_t mqttCurrentSlot = 0 ;
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uint8_t mqttCurrentSingleSlot = 0 ;
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uint32_t period ; // set manually in addition to TELE-period, is set to TELE-period after start
int secondsCounter = 0 ; // counts up in MI32EverySecond to period
int secondsCounter2 = 0 ; // counts up in MI32EverySecond to period
union {
struct {
uint32_t init : 1 ;
uint32_t shallClearResults : 1 ; // BLE scan results
uint32_t shallShowStatusInfo : 1 ; // react to amount of found sensors via RULES
uint32_t firstAutodiscoveryDone : 1 ;
uint32_t shallTriggerTele : 1 ;
uint32_t triggeredTele : 1 ;
} ;
uint32_t all = 0 ;
} mode ;
struct {
// the slot currently having it's battery read
// set to 0 to start a battery read cycle
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uint8_t slot = 255 ;
uint8_t active = 0 ;
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} batteryreader ;
struct {
// the slot currently having it's battery read
// set to 0 to start a battery read cycle
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uint8_t slot = 255 ;
uint8_t active = 0 ;
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} sensorreader ;
struct {
uint32_t allwaysAggregate : 1 ; // always show all known values of one sensor in brdigemode
uint32_t noSummary : 1 ; // no sensor values at TELE-period
uint32_t directBridgeMode : 1 ; // send every received BLE-packet as a MQTT-message in real-time
uint32_t holdBackFirstAutodiscovery : 1 ; // allows to trigger it later
uint32_t showRSSI : 1 ;
uint32_t ignoreBogusBattery : 1 ;
uint32_t minimalSummary : 1 ; // DEPRECATED!!
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uint32_t onlyAliased : 1 ; // only include sensors that are aliased
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uint32_t MQTTType : 1 ;
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} option ;
} MI32 ;
# pragma pack(1) // byte-aligned structures to read the sensor data
struct {
int16_t temp ;
uint8_t hum ;
uint16_t volt ; // LYWSD03 only
} LYWSD0x_HT ;
struct {
uint8_t spare ;
int16_t temp ;
uint16_t hum ;
} CGD1_HT ;
struct {
int16_t temp ;
uint8_t spare ;
uint32_t lux ;
uint8_t moist ;
uint16_t fert ;
} Flora_TLMF ; // temperature, lux, moisture, fertility
////////////////////////////////////////////////////////////
// from https://github.com/Magalex2x14/LYWSD03MMC-info
struct mi_beacon_frame_data_t {
// data from byte 0 - e.g. 30
uint8_t meshflag ; //Byte 0: x.......
uint8_t dataflag ; //Byte 0: .x......
uint8_t compatibilityflag ; //Byte 0: ..x..... - indicates compatibility data present
uint8_t MACFlag ; //Byte 0: ...x....
uint8_t isencrypted ; //Byte 0: ....x...
uint8_t reserved ; //Byte 0: .....xxx
// data from byte 1 - e.g. 58
uint8_t version ; //Byte 0: xxxx....
uint8_t authMode ; //Byte 0: ....xx.. // e.g. 2
uint8_t bindingvalidreq ; //Byte 0: ......x.
uint8_t registeredflag ; //Byte 0: .......x
} ;
struct mi_beacon_compatibility_data_t { // e.g. 28/08
uint8_t reserved ; //Byte 0: xx......
uint8_t IOcap ; //Byte 0: ..x.....
uint8_t bondability ; //Byte 0: ...xx...
uint8_t unused ; //Byte 0: .....xxx
uint16_t IOCapability ; // bytes 1-2, e.g. 01 00 -> 0001
} ;
struct mi_beacon_mac_data_t { // e.g. 28/08
uint8_t mac [ 6 ] ;
} ;
struct mi_beacon_payload_data_t { //
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uint16_t type ;
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uint8_t size ;
uint8_t data [ 16 ] ;
} ;
struct mi_beacon_data_t { //
mi_beacon_frame_data_t framedata ;
uint16_t devicetype ;
uint8_t framecnt ;
mi_beacon_mac_data_t macdata ;
mi_beacon_compatibility_data_t compatibility ;
uint8_t payloadpresent ;
uint8_t needkey ; // we need a (new) encryption key?
mi_beacon_payload_data_t payload ;
} ;
struct mi_beacon_data_payload_data_t { //
union {
struct { //01
uint16_t num ;
uint8_t longPress ;
} Btn ;
int16_t temp ; //04
uint16_t hum ; //06
uint32_t lux ; //07
uint8_t moist ; //08
uint16_t fert ; //09
uint8_t bat ; //0a
struct { //0d
int16_t temp ;
uint16_t hum ;
} HT ;
uint32_t NMT ; //17
} ;
} ;
///////////////////////////////////////////////////////////
union mi_bindKey_t {
struct {
uint8_t key [ 16 ] ;
uint8_t MAC [ 6 ] ;
} ;
uint8_t buf [ 22 ] ;
} ;
struct ATCPacket_t {
//uint8_t size; // = 16?
//uint8_t uid; // = 0x16, 16-bit UUID
//uint16_t UUID; // = 0x181A, GATT Service 0x181A Environmental Sensing
uint8_t MAC [ 6 ] ; // [0] - hi, .. [6] - lo digits
uint16_t temp ; //sadly this is in wrong endianess
uint8_t hum ;
uint8_t batPer ;
uint16_t batMV ;
uint8_t frameCnt ;
} ;
// GATT Service 0x181A Environmental Sensing
// All data little-endian
struct PVVXPacket_t {
//uint8_t size; // = 19
//uint8_t uid; // = 0x16, 16-bit UUID
//uint16_t UUID; // = 0x181A, GATT Service 0x181A Environmental Sensing
uint8_t MAC [ 6 ] ; // [0] - lo, .. [6] - hi digits
int16_t temperature ; // x 0.1 degree
uint16_t humidity ; // x 0.01 %
uint16_t battery_mv ; // mV
uint8_t battery_level ; // 0..100 %
uint8_t counter ; // measurement count
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uint8_t flags ;
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} ;
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struct MiScaleV1Packet_t {
//uint8_t size; // = 14
//uint8_t uid; // = 0x16, 16-bit UUID
//uint16_t UUID; // = 0x181D
uint8_t status ; // bit 0 lbs, 4 jin, 5, stabilized, 7, weight removed
uint16_t weight ;
uint16_t year ;
uint8_t month ;
uint8_t day ;
uint8_t hour ;
uint8_t minute ;
uint8_t second ;
} ;
struct MiScaleV2Packet_t {
//uint8_t size; // = 17
//uint8_t uid; // = 0x16, 16-bit UUID
//uint16_t UUID; // = 0x181B
uint8_t weight_unit ;
uint8_t status ;
uint16_t year ;
uint8_t month ;
uint8_t day ;
uint8_t hour ;
uint8_t minute ;
uint8_t second ;
uint16_t impedance ;
uint16_t weight ;
} ;
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# pragma pack(0)
struct mi_sensor_t {
uint8_t type ; //MI_Flora = 1; MI_MI-HT_V1=2; MI_LYWSD02=3; MI_LYWSD03=4; MI_CGG1=5; MI_CGD1=6
uint8_t needkey ; // tells http to display needkey message with link
uint8_t lastCnt ; //device generated counter of the packet
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uint8_t nextDiscoveryData ; // used to lkimit discovery to one MQTT per sec
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uint8_t shallSendMQTT ;
uint8_t MAC [ 6 ] ;
union {
struct {
uint32_t temp : 1 ;
uint32_t hum : 1 ;
uint32_t tempHum : 1 ; //every hum sensor has temp too, easier to use Tasmota dew point functions
uint32_t lux : 1 ;
uint32_t moist : 1 ;
uint32_t fert : 1 ;
uint32_t bat : 1 ;
uint32_t NMT : 1 ;
uint32_t PIR : 1 ;
uint32_t Btn : 1 ;
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uint32_t events : 1 ;
uint32_t pairing : 1 ;
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uint32_t light : 1 ; // binary light sensor
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uint32_t scale : 1 ;
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} ;
uint32_t raw ;
} feature ;
union {
struct {
uint32_t temp : 1 ;
uint32_t hum : 1 ;
uint32_t tempHum : 1 ; //can be combined from the sensor
uint32_t lux : 1 ;
uint32_t moist : 1 ;
uint32_t fert : 1 ;
uint32_t bat : 1 ;
uint32_t NMT : 1 ;
uint32_t motion : 1 ;
uint32_t noMotion : 1 ;
uint32_t Btn : 1 ;
uint32_t PairBtn : 1 ;
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uint32_t light : 1 ; // binary light sensor
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uint32_t scale : 1 ;
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} ;
uint32_t raw ;
} eventType ;
int RSSI ;
uint8_t pairing ;
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int8_t light ; // binary light sensor - initialise to -1
int16_t Btn ; // moved so we can initialise to -1
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uint32_t lastTime ;
uint32_t lux ;
float temp ; //Flora, MJ_HT_V1, LYWSD0x, CGx
union {
struct {
uint8_t moisture ;
uint16_t fertility ;
char firmware [ 6 ] ; // actually only for FLORA but hopefully we can add for more devices
} ; // Flora
struct {
float hum ;
} ; // MJ_HT_V1, LYWSD0x
struct {
uint16_t events ; //"alarms" since boot
uint32_t NMT ; // no motion time in seconds for the MJYD2S
} ;
} ;
union {
uint8_t bat ; // many values seem to be hard-coded garbage (LYWSD0x, GCD1)
} ;
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union {
struct {
uint8_t has_impedance ;
uint8_t stabilized ;
uint8_t weight_removed ;
char weight_unit [ 4 ] ; // kg, lbs, jin or empty when unknown
float weight ;
uint16_t impedance ;
} ;
} ;
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} ;
struct MAC_t {
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uint8_t buf [ 7 ] ;
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} ;
std : : vector < mi_sensor_t > MIBLEsensors ;
std : : vector < mi_bindKey_t > MIBLEbindKeys ;
std : : vector < MAC_t > MIBLEBlockList ;
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SemaphoreHandle_t slotmutex = ( SemaphoreHandle_t ) nullptr ;
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/*********************************************************************************************\
* constants
\ * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
# define D_CMND_MI32 "MI32"
const char kMI32_Commands [ ] PROGMEM = D_CMND_MI32 " | "
# ifdef USE_MI_DECRYPTION
" Key| "
" Keys| "
# endif // USE_MI_DECRYPTION
" Period|Time|Page|Battery|Unit|Block|Option " ;
void ( * const MI32_Commands [ ] ) ( void ) PROGMEM = {
# ifdef USE_MI_DECRYPTION
& CmndMi32Key ,
& CmndMi32Keys ,
# endif // USE_MI_DECRYPTION
& CmndMi32Period , & CmndMi32Time , & CmndMi32Page , & CmndMi32Battery , & CmndMi32Unit , & CmndMi32Block , & CmndMi32Option } ;
# define MI_UNKOWN 1
# define MI_FLORA 2
# define MI_MJ_HT_V1 3
# define MI_LYWSD02 4
# define MI_LYWSD03MMC 5
# define MI_CGG1 6
# define MI_CGD1 7
# define MI_NLIGHT 8
# define MI_MJYD2S 9
# define MI_YEERC 10
# define MI_MHOC401 11
# define MI_MHOC303 12
# define MI_ATC 13
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# define MI_DOOR 14
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# define MI_SCALE_V1 15
# define MI_SCALE_V2 16
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# define MI_MI32_TYPES 16 //count this manually
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const uint16_t kMI32DeviceID [ MI_MI32_TYPES ] = {
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0x0000 , // Unkown
0x0098 , // Flora
0x01aa , // MJ_HT_V1
0x045b , // LYWSD02
0x055b , // LYWSD03
0x0347 , // CGG1
0x0576 , // CGD1
0x03dd , // NLIGHT
0x07f6 , // MJYD2S
0x0153 , // yee-rc
0x0387 , // MHO-C401
0x06d3 , // MHO-C303
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0x0a1c , // ATC -> this is a fake ID
0x098b , // door/window sensor
0x181d , // Mi Scale V1
0x181b // Mi Scale V2
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} ;
const char kMI32DeviceType0 [ ] PROGMEM = " Unknown " ;
const char kMI32DeviceType1 [ ] PROGMEM = " Flora " ;
const char kMI32DeviceType2 [ ] PROGMEM = " MJ_HT_V1 " ;
const char kMI32DeviceType3 [ ] PROGMEM = " LYWSD02 " ;
const char kMI32DeviceType4 [ ] PROGMEM = " LYWSD03 " ;
const char kMI32DeviceType5 [ ] PROGMEM = " CGG1 " ;
const char kMI32DeviceType6 [ ] PROGMEM = " CGD1 " ;
const char kMI32DeviceType7 [ ] PROGMEM = " NLIGHT " ;
const char kMI32DeviceType8 [ ] PROGMEM = " MJYD2S " ;
const char kMI32DeviceType9 [ ] PROGMEM = " YEERC " ;
const char kMI32DeviceType10 [ ] PROGMEM = " MHOC401 " ;
const char kMI32DeviceType11 [ ] PROGMEM = " MHOC303 " ;
const char kMI32DeviceType12 [ ] PROGMEM = " ATC " ;
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const char kMI32DeviceType13 [ ] PROGMEM = " DOOR " ;
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const char kMI32DeviceType14 [ ] PROGMEM = " MISCALEV1 " ;
const char kMI32DeviceType15 [ ] PROGMEM = " MISCALEV2 " ;
const char * kMI32DeviceType [ ] PROGMEM = { kMI32DeviceType0 , kMI32DeviceType1 , kMI32DeviceType2 , kMI32DeviceType3 , kMI32DeviceType4 , kMI32DeviceType5 , kMI32DeviceType6 , kMI32DeviceType7 , kMI32DeviceType8 , kMI32DeviceType9 , kMI32DeviceType10 , kMI32DeviceType11 , kMI32DeviceType12 , kMI32DeviceType13 , kMI32DeviceType14 , kMI32DeviceType15 } ;
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typedef int BATREAD_FUNCTION ( int slot ) ;
typedef int UNITWRITE_FUNCTION ( int slot , int unit ) ;
typedef int TIMEWRITE_FUNCTION ( int slot ) ;
int genericOpCompleteFn ( BLE_ESP32 : : generic_sensor_t * pStruct ) ;
int genericBatReadFn ( int slot ) ;
int genericUnitWriteFn ( int slot , int unit ) ;
int genericTimeWriteFn ( int slot ) ;
int MI32scanCompleteCallback ( NimBLEScanResults results ) ;
const char LYWSD02_Svc [ ] PROGMEM = " EBE0CCB0-7A0A-4B0C-8A1A-6FF2997DA3A6 " ;
const char LYWSD02_BattChar [ ] PROGMEM = " EBE0CCC4-7A0A-4B0C-8A1A-6FF2997DA3A6 " ;
const char LYWSD02_UnitChar [ ] PROGMEM = " EBE0CCBE-7A0A-4B0C-8A1A-6FF2997DA3A6 " ;
const char LYWSD02_TimeChar [ ] PROGMEM = " EBE0CCB7-7A0A-4B0C-8A1A-6FF2997DA3A6 " ;
const char LYWSD02_BattNotifyChar [ ] PROGMEM = " EBE0CCC1-7A0A-4B0C-8A1A-6FF2997DA3A6 " ;
const char * LYWSD03_Svc = LYWSD02_Svc ;
const char * LYWSD03_BattNotifyChar = LYWSD02_BattNotifyChar ;
const char * MHOC303_Svc = LYWSD02_Svc ;
const char * MHOC303_UnitChar = LYWSD02_UnitChar ;
const char * MHOC303_TimeChar = LYWSD02_TimeChar ;
const char * MHOC401_Svc = LYWSD02_Svc ;
const char * MHOC401_BattNotifyChar = LYWSD02_BattNotifyChar ;
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const char CGD1_Svc [ ] PROGMEM = " 180F " ;
const char CGD1_BattChar [ ] PROGMEM = " 2A19 " ;
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const char FLORA_Svc [ ] PROGMEM = " 00001204-0000-1000-8000-00805F9B34FB " ;
const char FLORA_BattChar [ ] PROGMEM = " 00001A02-0000-1000-8000-00805F9B34FB " ;
/*********************************************************************************************\
* enumerations
\ * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
// types of operation performed, included in context
enum MI32_MI_OP_TYPES {
OP_TIME_WRITE = 0 ,
OP_BATT_READ = 1 ,
OP_UNIT_WRITE = 2 ,
OP_UNIT_READ = 3 ,
OP_UNIT_TOGGLE = 4 ,
OP_READ_HT_LY = 5 ,
} ;
enum MI32_MI_KEY_REQ {
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KEY_REQUIREMENT_UNKNOWN = 0 , // we don't know if a key is needed
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KEY_NOT_REQUIRED = 1 , // we got an unencrypted payload
KEY_REQUIRED_BUT_NOT_FOUND = 2 , // we got an encrypted packet, but had not key
KEY_REQUIRED_AND_FOUND = 3 , // we got an encrypted packet, and could decrypt
KEY_REQUIRED_AND_INVALID = 4 , // we got an encrypted packet, and could not decrypt
} ;
/*********************************************************************************************\
* Classes
\ * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
// fn type READ_CALLBACK
// NOTE!!!: this callback is called DIRECTLY from the operation task, so be careful about cross-thread access of data
// if is called after read, so that you can do a read/modify/write operation on a characteristic.
int toggleUnit ( BLE_ESP32 : : generic_sensor_t * op ) {
uint32_t context = ( uint32_t ) op - > context ;
int opType = context > > 24 ;
// we only need to op type
int devType = ( context > > 16 ) & 0xff ;
int slot = ( context ) & 0xff ;
switch ( opType ) {
case OP_UNIT_TOGGLE : {
uint8_t curUnit = 0 ;
if ( op - > dataRead [ 0 ] ! = 0 & & op - > dataRead [ 0 ] < 101 ) {
curUnit = op - > dataRead [ 0 ] ;
}
curUnit = curUnit = = 0x01 ? 0xFF : 0x01 ; // C/F
// copy in ALL of the data, because we don't know how long this is from the existing src code.
memcpy ( op - > dataToWrite , op - > dataRead , op - > readlen ) ;
op - > writelen = op - > readlen ;
op - > dataToWrite [ 0 ] = curUnit ;
} break ;
case OP_UNIT_WRITE : {
uint8_t curUnit = op - > dataToWrite [ 0 ] ;
// copy in ALL of the data, because we don't know how long this is from the existing src code.
memcpy ( op - > dataToWrite , op - > dataRead , op - > readlen ) ;
op - > writelen = op - > readlen ;
op - > dataToWrite [ 0 ] = curUnit ;
} break ;
}
return 0 ;
}
bool MI32Operation ( int slot , int optype , const char * svc , const char * charactistic , const char * notifychar = nullptr , const uint8_t * data = nullptr , int datalen = 0 , uint8_t * addr = nullptr ) {
if ( ! svc | | ! svc [ 0 ] ) {
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AddLog ( LOG_LEVEL_ERROR , PSTR ( " M32: Op inv svc " ) ) ;
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return 0 ;
}
BLE_ESP32 : : generic_sensor_t * op = nullptr ;
// ALWAYS use this function to create a new one.
int res = BLE_ESP32 : : newOperation ( & op ) ;
if ( ! res ) {
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AddLog ( LOG_LEVEL_ERROR , PSTR ( " M32: Can't get a newOperation " ) ) ;
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return 0 ;
} else {
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if ( BLE_ESP32 : : BLEDebugMode > 0 ) AddLog ( LOG_LEVEL_DEBUG , PSTR ( " M32: Got a newOperation " ) ) ;
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}
if ( slot > = 0 ) {
op - > addr = NimBLEAddress ( MIBLEsensors [ slot ] . MAC ) ;
} else {
if ( ! addr ) {
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AddLog ( LOG_LEVEL_ERROR , PSTR ( " M32: No addr " ) ) ;
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BLE_ESP32 : : freeOperation ( & op ) ;
return 0 ;
}
op - > addr = NimBLEAddress ( addr ) ;
}
bool havechar = false ;
op - > serviceUUID = NimBLEUUID ( svc ) ;
if ( ! op - > serviceUUID . bitSize ( ) ) {
BLE_ESP32 : : freeOperation ( & op ) ;
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AddLog ( LOG_LEVEL_ERROR , PSTR ( " M32: MI Bad service string %s " ) , svc ) ;
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return 0 ;
}
if ( charactistic & & charactistic [ 0 ] ) {
havechar = true ;
op - > characteristicUUID = NimBLEUUID ( charactistic ) ;
if ( ! op - > characteristicUUID . bitSize ( ) ) {
BLE_ESP32 : : freeOperation ( & op ) ;
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AddLog ( LOG_LEVEL_ERROR , PSTR ( " M32: MI Bad characteristic string %s " ) , charactistic ) ;
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return 0 ;
}
}
if ( notifychar & & notifychar [ 0 ] ) {
op - > notificationCharacteristicUUID = NimBLEUUID ( notifychar ) ;
if ( ! op - > notificationCharacteristicUUID . bitSize ( ) ) {
BLE_ESP32 : : freeOperation ( & op ) ;
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AddLog ( LOG_LEVEL_ERROR , PSTR ( " M32: MI Bad notifycharacteristic string %s " ) , notifychar ) ;
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return 0 ;
}
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}
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if ( data & & datalen ) {
op - > writelen = datalen ;
memcpy ( op - > dataToWrite , data , datalen ) ;
} else {
if ( ! datalen & & havechar ) {
op - > readlen = 1 ; // if we don't set readlen, then it won't read
}
}
// the only times we intercept between read abnd write
if ( ( optype = = OP_UNIT_WRITE ) | | ( optype = = OP_UNIT_TOGGLE ) ) {
op - > readlen = 1 ; // if we don't set readlen, then it won't read
op - > readmodifywritecallback = ( void * ) toggleUnit ;
}
// this op will call us back on complete or failure.
op - > completecallback = ( void * ) genericOpCompleteFn ;
uint32_t context = ( optype < < 24 ) | ( MIBLEsensors [ slot ] . type < < 16 ) | slot ;
op - > context = ( void * ) context ;
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if ( BLE_ESP32 : : BLEDebugMode > 0 ) AddLog ( LOG_LEVEL_DEBUG , PSTR ( " M32: MI s:%d op:%s " ) , slot , BLE_ESP32 : : BLETriggerResponse ( op ) . c_str ( ) ) ;
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res = BLE_ESP32 : : extQueueOperation ( & op ) ;
if ( ! res ) {
// if it fails to add to the queue, do please delete it
BLE_ESP32 : : freeOperation ( & op ) ;
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AddLog ( LOG_LEVEL_ERROR , PSTR ( " M32: Failed to queue new operation - deleted " ) ) ;
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}
return res ;
}
int genericBatReadFn ( int slot ) {
int res = 0 ;
switch ( MIBLEsensors [ slot ] . type ) {
// these use notify for battery read, and it comes in the temp packet
case MI_LYWSD03MMC :
res = MI32Operation ( slot , OP_BATT_READ , LYWSD03_Svc , nullptr , LYWSD03_BattNotifyChar ) ;
break ;
case MI_MHOC401 :
res = MI32Operation ( slot , OP_BATT_READ , MHOC401_Svc , nullptr , MHOC401_BattNotifyChar ) ;
break ;
// these read a characteristic
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case MI_FLORA :
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res = MI32Operation ( slot , OP_BATT_READ , FLORA_Svc , FLORA_BattChar ) ;
break ;
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case MI_LYWSD02 :
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res = MI32Operation ( slot , OP_BATT_READ , LYWSD02_Svc , LYWSD02_BattChar ) ;
break ;
case MI_CGD1 :
res = MI32Operation ( slot , OP_BATT_READ , CGD1_Svc , CGD1_BattChar ) ;
break ;
// this was for testing only - it does work, but no need to read as we get good bat in advert
// case MI_MJ_HT_V1:
// res = MI32Operation(slot, OP_BATT_READ, CGD1_Svc, CGD1_BattChar);
// break;
default :
res = - 10 ; // no need to read
break ;
}
if ( res > 0 ) {
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if ( BLE_ESP32 : : BLEDebugMode > 0 ) AddLog ( LOG_LEVEL_INFO , PSTR ( " M32: Req batt read slot %d type %d queued " ) , slot , MIBLEsensors [ slot ] . type ) ;
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} else {
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if ( BLE_ESP32 : : BLEDebugMode > 0 ) AddLog ( LOG_LEVEL_INFO , PSTR ( " M32: Req batt read slot %d type %d non-queued res %d " ) , slot , MIBLEsensors [ slot ] . type , res ) ;
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}
return res ;
}
int genericSensorReadFn ( int slot , int force ) {
int res = 0 ;
switch ( MIBLEsensors [ slot ] . type ) {
/* seen notify timeout consistently with MI_LYWSD02,
so although the characteristic seems to exist , it does not work ?
further dev required with sensor to hand .
case MI_LYWSD02 :
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// don't read if key present and we've decoded at least one advert
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if ( MIBLEsensors [ slot ] . needkey = = KEY_REQUIRED_AND_FOUND ) return - 2 ;
res = MI32Operation ( slot , OP_READ_HT_LY , LYWSD02_Svc , nullptr , LYWSD02_BattNotifyChar ) ;
break ; */
case MI_LYWSD03MMC :
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// don't read if key present and we've decoded at least one advert
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if ( MIBLEsensors [ slot ] . needkey = = KEY_REQUIRED_AND_FOUND & & ! force ) return - 2 ;
res = MI32Operation ( slot , OP_READ_HT_LY , LYWSD03_Svc , nullptr , LYWSD03_BattNotifyChar ) ;
break ;
case MI_MHOC401 :
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// don't read if key present and we've decoded at least one advert
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if ( MIBLEsensors [ slot ] . needkey = = KEY_REQUIRED_AND_FOUND & & ! force ) return - 2 ;
res = MI32Operation ( slot , OP_READ_HT_LY , MHOC401_Svc , nullptr , MHOC401_BattNotifyChar ) ;
break ;
default :
res = - 1 ;
break ;
}
return res ;
}
// called once per second
int readOneSensor ( ) {
if ( MI32 . sensorreader . active ) {
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AddLog ( LOG_LEVEL_DEBUG , PSTR ( " M32: readOneSensor - already active reading %d " ) , MI32 . sensorreader . slot - 1 ) ;
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return 0 ;
}
// loop if the sensor at the slot does not need to be read
// i.e. drop out of loop when we start a read, or hit the end
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int res = - 1 ;
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do {
// MI32.sensorreader.slot is reset to zero to trigger a read sequence
if ( MI32 . sensorreader . slot > = MIBLEsensors . size ( ) ) {
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//AddLog(LOG_LEVEL_DEBUG, PSTR("BLE: readOneSensor past end of slots - %d > %d"), MI32.sensorreader.slot, MIBLEsensors.size());
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return 0 ;
}
res = genericSensorReadFn ( MI32 . sensorreader . slot , 0 ) ;
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if ( BLE_ESP32 : : BLEDebugMode > 0 ) AddLog ( LOG_LEVEL_DEBUG , PSTR ( " M32: genericSensorReadFn slot %d res %d " ) , MI32 . sensorreader . slot , res ) ;
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// if this sensor in this slot does not need to be read via notify, just move on top the next one
if ( res < 0 ) {
MI32 . sensorreader . slot + + ;
} else {
break ;
}
} while ( 1 ) ;
if ( res = = 0 ) {
// can't read at the moment (no operations available?)
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AddLog ( LOG_LEVEL_DEBUG , PSTR ( " M32: readOneSensor no ops available slot %d res %d " ) , MI32 . sensorreader . slot , res ) ;
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return 0 ;
}
// setup next slot to read
MI32 . sensorreader . slot + + ;
// and make it wait until the read/notify is complete
// this is cleared in the response callback.
MI32 . sensorreader . active = 1 ;
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if ( BLE_ESP32 : : BLEDebugMode > 0 ) AddLog ( LOG_LEVEL_DEBUG , PSTR ( " M32: readOneSensor reading for slot %d res %d " ) , MI32 . sensorreader . slot - 1 , res ) ;
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// started one
return 1 ;
}
// called once per second
int readOneBat ( ) {
if ( MI32 . batteryreader . active ) {
return 0 ;
}
//MI32.batteryreader.slot is rest to zero to trigger a read...
if ( MI32 . batteryreader . slot > = MIBLEsensors . size ( ) ) {
return 0 ;
}
int res = genericBatReadFn ( MI32 . batteryreader . slot ) ;
// if this sensor in this slot does not support battery read, just move on top the next one
if ( res < 0 ) {
MI32 . batteryreader . slot + + ;
if ( MI32 . batteryreader . slot > = MIBLEsensors . size ( ) ) {
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if ( BLE_ESP32 : : BLEDebugMode > 0 ) AddLog ( LOG_LEVEL_INFO , PSTR ( " M32: Batt loop complete at %d " ) , MI32 . batteryreader . slot ) ;
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}
return 0 ;
}
if ( res = = 0 ) {
// can't read at the moment (no operations available?)
return 0 ;
}
// setup next slot to read
MI32 . batteryreader . slot + + ;
// and make it wait until the read/notify is complete
// this is cleared in the response callback.
MI32 . batteryreader . active = 1 ;
if ( MI32 . batteryreader . slot > = MIBLEsensors . size ( ) ) {
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if ( BLE_ESP32 : : BLEDebugMode > 0 ) AddLog ( LOG_LEVEL_INFO , PSTR ( " M32: Batt loop will complete at %d " ) , MI32 . batteryreader . slot ) ;
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}
// started one
return 1 ;
}
/////////////////////////////////////////////////////
// change the unit of measurement?
// call with unit == -1 to cause the unit to be toggled.
int genericUnitWriteFn ( int slot , int unit ) {
int res = 0 ;
int op = OP_UNIT_WRITE ;
if ( unit = = - 1 ) {
op = OP_UNIT_TOGGLE ;
}
uint8_t writeData [ 1 ] ;
writeData [ 0 ] = unit ;
switch ( MIBLEsensors [ slot ] . type ) {
case MI_LYWSD02 :
res = MI32Operation ( slot , op , LYWSD02_Svc , LYWSD02_UnitChar , nullptr , writeData , 1 ) ;
break ;
case MI_MHOC303 : // actually, EXACTLY the same as above, including the sevice and characteristic...
res = MI32Operation ( slot , op , MHOC303_Svc , MHOC303_UnitChar , nullptr , writeData , 1 ) ;
break ;
default :
res = - 1 ;
break ;
}
return res ;
}
/////////////////////////////////////////////////////
// read the unit of measurement. genericOpCompleteFn
int genericUnitReadFn ( int slot ) {
int res = 0 ;
switch ( MIBLEsensors [ slot ] . type ) {
case MI_LYWSD02 :
res = MI32Operation ( slot , OP_UNIT_READ , LYWSD02_Svc , LYWSD02_UnitChar ) ;
break ;
case MI_MHOC303 : // actually, EXACTLY the same as above, including the sevice and characteristic...
res = MI32Operation ( slot , OP_UNIT_READ , MHOC303_Svc , MHOC303_UnitChar ) ;
break ;
default :
res = - 1 ;
break ;
}
return res ;
}
/////////////////////////////////////////////////////
// write time to a device. genericOpCompleteFn
int genericTimeWriteFn ( int slot ) {
int res = 0 ;
switch ( MIBLEsensors [ slot ] . type ) {
case MI_LYWSD02 : {
union {
uint8_t buf [ 5 ] ;
uint32_t time ;
} _utc ;
_utc . time = Rtc . utc_time ;
_utc . buf [ 4 ] = Rtc . time_timezone / 60 ;
res = MI32Operation ( slot , OP_TIME_WRITE , LYWSD02_Svc , LYWSD02_TimeChar , nullptr , _utc . buf , sizeof ( _utc . buf ) ) ;
} break ;
case MI_MHOC303 : // actually, EXACTLY the same as above, including the sevice and characteristic...
union {
uint8_t buf [ 5 ] ;
uint32_t time ;
} _utc ;
_utc . time = Rtc . utc_time ;
_utc . buf [ 4 ] = Rtc . time_timezone / 60 ;
res = MI32Operation ( slot , OP_TIME_WRITE , MHOC303_Svc , MHOC303_TimeChar , nullptr , _utc . buf , sizeof ( _utc . buf ) ) ;
break ;
default :
res = - 1 ;
break ;
}
return res ;
}
int genericOpCompleteFn ( BLE_ESP32 : : generic_sensor_t * op ) {
uint32_t context = ( uint32_t ) op - > context ;
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if ( BLE_ESP32 : : BLEDebugMode > 0 ) AddLog ( LOG_LEVEL_DEBUG , PSTR ( " M32: MI op complete context %x " ) , context ) ;
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int opType = context > > 24 ;
int devType = ( context > > 16 ) & 0xff ;
int slot = ( context ) & 0xff ;
char slotMAC [ 13 ] ;
BLE_ESP32 : : dump ( slotMAC , sizeof ( slotMAC ) , MIBLEsensors [ slot ] . MAC , 6 ) ;
uint8_t addrrev [ 6 ] ;
memcpy ( addrrev , MIBLEsensors [ slot ] . MAC , 6 ) ;
//BLE_ESP32::ReverseMAC(addrrev);
NimBLEAddress addr ( addrrev ) ;
bool fail = false ;
if ( op - > addr ! = addr ) {
// slot changed during operation?
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AddLog ( LOG_LEVEL_ERROR , PSTR ( " M32: Slot mac changed during an operation " ) ) ;
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fail = true ;
}
if ( op - > state < = GEN_STATE_FAILED ) {
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AddLog ( LOG_LEVEL_ERROR , PSTR ( " M32: Operation failed %d for %s " ) , op - > state , slotMAC ) ;
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fail = true ;
}
if ( fail ) {
switch ( opType ) {
case OP_BATT_READ : {
// allow another...
MI32 . batteryreader . active = 0 ;
} break ;
case OP_READ_HT_LY : {
// allow another...
MI32 . sensorreader . active = 0 ;
} break ;
}
return 0 ;
}
switch ( opType ) {
case OP_TIME_WRITE :
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AddLog ( LOG_LEVEL_DEBUG , PSTR ( " M32: Time write for %s complete " ) , slotMAC ) ;
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return 0 ; // nothing to do
case OP_BATT_READ : {
uint8_t * data = nullptr ;
int len = 0 ;
if ( op - > notifylen ) {
data = op - > dataNotify ;
len = op - > notifylen ;
// note: the only thingas that have battery in notify FOR THE MOMENT read it like this.
MI32notifyHT_LY ( slot , ( char * ) op - > dataNotify , op - > notifylen ) ;
}
if ( op - > readlen ) {
data = op - > dataRead ;
len = op - > readlen ;
MIParseBatt ( slot , data , len ) ;
}
// allow another...
MI32 . batteryreader . active = 0 ;
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AddLog ( LOG_LEVEL_INFO , PSTR ( " M32: Batt read slot %d done state %x " ) , slot , op - > state ) ;
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} return 0 ;
case OP_UNIT_WRITE : // nothing more to do?
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AddLog ( LOG_LEVEL_DEBUG , PSTR ( " M32: Unit write for %s complete " ) , slotMAC ) ;
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return 0 ;
case OP_UNIT_READ : {
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uint8_t currUnit = op - > dataRead [ 0 ] ;
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AddLog ( LOG_LEVEL_DEBUG , PSTR ( " M32: Unit read for %s complete %d " ) , slotMAC , currUnit ) ;
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} return 0 ;
case OP_UNIT_TOGGLE : {
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uint8_t currUnit = op - > dataToWrite [ 0 ] ;
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AddLog ( LOG_LEVEL_DEBUG , PSTR ( " M32: Unit toggle for %s complete %d->%d; datasize was %d " ) , slotMAC , op - > dataRead [ 0 ] , op - > dataToWrite [ 0 ] , op - > readlen ) ;
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} return 0 ;
case OP_READ_HT_LY : {
// allow another...
MI32 . sensorreader . active = 0 ;
MI32notifyHT_LY ( slot , ( char * ) op - > dataNotify , op - > notifylen ) ;
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if ( BLE_ESP32 : : BLEDebugMode > 0 ) AddLog ( LOG_LEVEL_DEBUG , PSTR ( " M32: HT_LY notify for %s complete " ) , slotMAC ) ;
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} return 0 ;
default :
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AddLog ( LOG_LEVEL_ERROR , PSTR ( " M32: OpType %d not recognised? " ) , opType ) ;
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return 0 ;
}
return 0 ;
}
int MI32advertismentCallback ( BLE_ESP32 : : ble_advertisment_t * pStruct )
{
// we will try not to use this...
BLEAdvertisedDevice * advertisedDevice = pStruct - > advertisedDevice ;
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// AddLog(LOG_LEVEL_DEBUG, PSTR("M32: Advertised Device: %s Buffer: %u"),advertisedDevice->getAddress().toString().c_str(),advertisedDevice->getServiceData(0).length());
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int RSSI = pStruct - > RSSI ;
const uint8_t * addr = pStruct - > addr ;
if ( MI32isInBlockList ( addr ) = = true ) return 0 ;
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if ( MI32 . option . onlyAliased ) {
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const char * alias = BLE_ESP32 : : getAlias ( addr ) ;
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if ( ! alias | | ! ( * alias ) ) {
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return 0 ;
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}
}
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int svcdataCount = advertisedDevice - > getServiceDataCount ( ) ;
if ( svcdataCount = = 0 ) {
return 0 ;
}
NimBLEUUID UUIDBig = advertisedDevice - > getServiceDataUUID ( 0 ) ; //.getNative()->u16.value;
const ble_uuid_any_t * native = UUIDBig . getNative ( ) ;
if ( native - > u . type ! = 16 ) {
//not interested in 128 bit;
return 0 ;
}
uint16_t UUID = native - > u16 . value ;
char temp [ 60 ] ;
BLE_ESP32 : : dump ( temp , 13 , addr , 6 ) ;
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if ( BLE_ESP32 : : BLEDebugMode > 0 ) AddLog ( LOG_LEVEL_DEBUG_MORE , PSTR ( " M32: MI:%s svc[0] UUID (%x) " ) , temp , UUID ) ;
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std : : string ServiceDataStr = advertisedDevice - > getServiceData ( 0 ) ;
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uint32_t ServiceDataLength = ServiceDataStr . length ( ) ;
const uint8_t * ServiceData = ( const uint8_t * ) ServiceDataStr . data ( ) ;
BLE_ESP32 : : dump ( temp , 60 , ServiceData , ServiceDataLength ) ;
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if ( BLE_ESP32 : : BLEDebugMode > 0 ) AddLog ( LOG_LEVEL_DEBUG_MORE , PSTR ( " M32: MI:%s " ) , temp ) ;
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if ( UUID ) {
// this will take and keep the mutex until the function is over
TasAutoMutex localmutex ( & slotmutex , " Mi32AdCB2 " ) ;
switch ( UUID ) {
case 0xfe95 : // std MI?
case 0xfdcd : // CGD1?
{
MI32ParseResponse ( ServiceData , ServiceDataLength , addr , RSSI ) ;
} break ;
case 0x181a : { //ATC
MI32ParseATCPacket ( ServiceData , ServiceDataLength , addr , RSSI ) ;
} break ;
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case 0x181d : // Mi Scale V1
case 0x181b : // Mi Scale V2
{
MI32ParseMiScalePacket ( ServiceData , ServiceDataLength , addr , RSSI , UUID ) ;
} break ;
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default : {
} break ;
}
}
return 0 ;
}
/*********************************************************************************************\
* Helper functions
\ * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
/**
* @ brief Remove all colons from null terminated char array
*
* @ param _string Typically representing a MAC - address like AA : BB : CC : DD : EE : FF
*/
void MI32stripColon ( char * _string ) {
uint32_t _length = strlen ( _string ) ;
uint32_t _index = 0 ;
while ( _index < _length ) {
char c = _string [ _index ] ;
if ( c = = ' : ' ) {
memmove ( _string + _index , _string + _index + 1 , _length - _index ) ;
}
_index + + ;
}
_string [ _index ] = 0 ;
}
/**
* @ brief Convert string that repesents a hexadecimal number to a byte array
*
* @ param _string input string in format : AABBCCDDEEFF or AA : BB : CC : DD : EE : FF , caseinsensitive
* @ param _mac target byte array must match the correct size ( i . e . AA : BB - > uint8_t bytes [ 2 ] )
*/
void MI32HexStringToBytes ( char * _string , uint8_t * _byteArray ) {
MI32stripColon ( _string ) ;
UpperCase ( _string , _string ) ;
uint32_t index = 0 ;
uint32_t _end = strlen ( _string ) ;
memset ( _byteArray , 0 , _end / 2 ) ;
while ( index < _end ) {
char c = _string [ index ] ;
uint8_t value = 0 ;
if ( c > = ' 0 ' & & c < = ' 9 ' )
value = ( c - ' 0 ' ) ;
else if ( c > = ' A ' & & c < = ' F ' )
value = ( 10 + ( c - ' A ' ) ) ;
_byteArray [ ( index / 2 ) ] + = value < < ( ( ( index + 1 ) % 2 ) * 4 ) ;
index + + ;
}
}
/**
* @ brief Reverse an array of 6 bytes
*
* @ param _mac a byte array of size 6 ( typicalliy representing a MAC address )
*/
void MI32_ReverseMAC ( uint8_t _mac [ ] ) {
uint8_t _reversedMAC [ 6 ] ;
for ( uint8_t i = 0 ; i < 6 ; i + + ) {
_reversedMAC [ 5 - i ] = _mac [ i ] ;
}
memcpy ( _mac , _reversedMAC , sizeof ( _reversedMAC ) ) ;
}
# ifdef USE_MI_DECRYPTION
int MI32AddKey ( char * payload , char * key = nullptr ) {
mi_bindKey_t keyMAC ;
if ( ! key ) {
MI32HexStringToBytes ( payload , keyMAC . buf ) ;
} else {
MI32HexStringToBytes ( payload , keyMAC . MAC ) ;
MI32HexStringToBytes ( key , keyMAC . key ) ;
}
bool unknownKey = true ;
for ( uint32_t i = 0 ; i < MIBLEbindKeys . size ( ) ; i + + ) {
if ( memcmp ( keyMAC . MAC , MIBLEbindKeys [ i ] . MAC , sizeof ( keyMAC . MAC ) ) = = 0 ) {
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AddLog ( LOG_LEVEL_DEBUG , PSTR ( " M32: Known key " ) ) ;
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memcpy ( MIBLEbindKeys [ i ] . key , keyMAC . key , 16 ) ;
unknownKey = false ;
return 1 ;
}
}
if ( unknownKey ) {
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AddLog ( LOG_LEVEL_DEBUG , PSTR ( " M32: New key " ) ) ;
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MIBLEbindKeys . push_back ( keyMAC ) ;
return 1 ;
}
return 0 ;
}
int MIDecryptPayload ( const uint8_t * macin , const uint8_t * nonce , uint32_t tag , uint8_t * data , int len ) {
uint8_t payload [ 32 ] ;
uint8_t mac [ 6 ] ;
memcpy ( mac , macin , 6 ) ;
MI32_ReverseMAC ( mac ) ;
uint8_t _bindkey [ 32 ] = { 0x0 } ;
const unsigned char authData [ 16 ] = { 0x11 } ;
bool foundNoKey = true ;
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if ( BLE_ESP32 : : BLEDebugMode > 0 ) AddLog ( LOG_LEVEL_DEBUG , PSTR ( " M32: Search key for MAC: %02x%02x%02x%02x%02x%02x " ) , mac [ 0 ] , mac [ 1 ] , mac [ 2 ] , mac [ 3 ] , mac [ 4 ] , mac [ 5 ] ) ;
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for ( uint32_t i = 0 ; i < MIBLEbindKeys . size ( ) ; i + + ) {
if ( memcmp ( mac , MIBLEbindKeys [ i ] . MAC , 6 ) = = 0 ) {
memcpy ( _bindkey , MIBLEbindKeys [ i ] . key , 16 ) ;
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if ( BLE_ESP32 : : BLEDebugMode > 0 ) AddLog ( LOG_LEVEL_DEBUG , PSTR ( " M32: Decryption Key found " ) ) ;
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foundNoKey = false ;
break ;
}
}
if ( foundNoKey ) {
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AddLog ( LOG_LEVEL_DEBUG , PSTR ( " M32: No Key found " ) ) ;
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return - 2 ; // indicates needs key
}
br_aes_small_ctrcbc_keys keyCtx ;
br_aes_small_ctrcbc_init ( & keyCtx , _bindkey , 16 ) ;
br_ccm_context ctx ;
br_ccm_init ( & ctx , & keyCtx . vtable ) ;
br_ccm_reset ( & ctx , nonce , 12 , 1 , len , 4 ) ;
br_ccm_aad_inject ( & ctx , authData , 1 ) ;
br_ccm_flip ( & ctx ) ;
memcpy ( payload , data , len ) ; //we want to be sure about 4-byte alignement
br_ccm_run ( & ctx , 0 , payload , len ) ;
memcpy ( data , payload , len ) ; //back to the packet
// crashed in here - why?, so give it more space to work with?
// returns 1 if matched, else 0
int ret = br_ccm_check_tag ( & ctx , & tag ) ;
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if ( BLE_ESP32 : : BLEDebugMode > 0 ) AddLog ( LOG_LEVEL_DEBUG , PSTR ( " M32: Err:%i, Decrypted : %02x %02x %02x %02x %02x " ) , ret , payload [ 1 ] , payload [ 2 ] , payload [ 3 ] , payload [ 4 ] , payload [ 5 ] ) ;
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return ret - 1 ; // -> -1=fail, 0=success
}
# endif // USE_MI_DECRYPTION
// packet examples:
// MJ_HT_V1
// 5020 AA01 41 3AF4DAA8654C 0A100109
// 5020 AA01 43 3AF4DAA8654C 061002E901
// 5020 AA01 48 3AF4DAA8654C 041002BF00
// 5020 AA01 4A 3AF4DAA8654C 0D1004BF00E901
// 7122 AA01 15 3AF4DAA8654C 0D 0200020D10
// LYWSD03 encrypted data:
// 5858 5B05 2F B3E30838C1A4 [69A9FBDF67] ,060000 0791C39A - 23bytes
// 23-9 = 14
// -> nonce B3E30838C1A4|5B02|2F|060000
// 23-6 = 17
// -> tag 0791C39A
// datalen = 23 - 9 - 4 - 3 - 1 - 1 = 5
// CGD1 reconstructed from src: (svcdata on fdcd)
// xxyy FFEEDDCCBBAA MMMM TTTTHHHH|BB
// xxyy FFEEDDCCBBAA 0104 TTTTHHHH
// xxyy FFEEDDCCBBAA 0201 BB
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const char * MIaddrStr ( const uint8_t * addr , int useAlias = 0 ) {
static char addrstr [ 32 ] ;
const char * id = nullptr ;
if ( useAlias ) {
id = BLE_ESP32 : : getAlias ( addr ) ;
}
if ( ! id | | ! ( * id ) ) {
id = addrstr ;
BLE_ESP32 : : dump ( addrstr , 13 , addr , 6 ) ;
} else {
}
return id ;
}
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int MIParsePacket ( const uint8_t * slotmac , struct mi_beacon_data_t * parsed , const uint8_t * datain , int len ) {
uint8_t data [ 32 ] ;
memcpy ( data , datain , len ) ;
if ( ! parsed ) {
return 0 ;
}
if ( len < 5 ) {
return 0 ;
}
int byteindex = 0 ;
// 58 58 = 0x5858 = data|comp|mac|enc, v5|auth2
// 30 58 = 0x5830 = comp|mac, v5|auth2
// 30 50 = 0x5030 = comp|mac, v5|auth0
// 48 59 = 0x5948 = data|enc, v5|auth2|registered
// 10 59 = 0x5910 = mac, v5|auth2|registered
// 71 22 = 0x2271 = data|comp|mac v2|bind
// 50 20 = 0x2050 = data|mac v2 - MJ_HT_V1 data
// 71 22 = 0x2271 = data|comp|mac|reserved1 v2|bind - MJ_HT_V1 pair
// data from byte 0 - e.g. 30
parsed - > framedata . meshflag = ( data [ byteindex ] & 0x80 ) > > 7 ; //Byte 0: x.......
parsed - > framedata . dataflag = ( data [ byteindex ] & 0x40 ) > > 6 ; //Byte 0: .x......
parsed - > framedata . compatibilityflag = ( data [ byteindex ] & 0x20 ) > > 5 ; //Byte 0: ..x..... - indicates compatibility data present
parsed - > framedata . MACFlag = ( data [ byteindex ] & 0x10 ) > > 4 ; //Byte 0: ...x....
parsed - > framedata . isencrypted = ( data [ byteindex ] & 0x08 ) > > 3 ; //Byte 0: ....x...
parsed - > framedata . reserved = ( data [ byteindex ] & 0x03 ) > > 6 ; //Byte 0: .....xxx
// data from byte 1 - e.g. 58
byteindex + + ;
parsed - > framedata . version = ( data [ byteindex ] & 0xf0 ) > > 4 ; //Byte 0: xxxx....
parsed - > framedata . authMode = ( data [ byteindex ] & 0x0C ) > > 6 ; //Byte 0: ....xx.. // e.g. 2
parsed - > framedata . bindingvalidreq = ( data [ byteindex ] & 0x02 ) > > 1 ; //Byte 0: ......x.
parsed - > framedata . registeredflag = ( data [ byteindex ] & 0x01 ) ; //Byte 0: .......x
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// note:
// if bindingvalidreq, we should connect and establish a key.
// However, how do we determine WHICH TAS should do this?
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byteindex + + ;
parsed - > devicetype = * ( ( uint16_t * ) ( data + byteindex ) ) ;
byteindex + = 2 ;
parsed - > framecnt = data [ byteindex ] ;
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//if (BLE_ESP32::BLEDebugMode > 0) AddLog(LOG_LEVEL_DEBUG, PSTR("M32: MI frame %d"), parsed->framecnt);
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byteindex + + ;
if ( parsed - > framedata . version < = 3 ) {
// e.g. MJ_HT_V1
}
if ( parsed - > framedata . MACFlag ) {
if ( len < byteindex + 6 ) {
return 0 ;
}
memcpy ( parsed - > macdata . mac , & data [ byteindex ] , 6 ) ;
byteindex + = 6 ;
}
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int decres = 1 ;
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// everything after MAC is encrypted if specified?
if ( parsed - > framedata . isencrypted ) {
if ( len < byteindex + 3 + 4 + 1 ) {
return 0 ;
}
const uint8_t * mac = slotmac ;
if ( parsed - > framedata . MACFlag ) {
mac = parsed - > macdata . mac ;
}
uint8_t nonce [ 12 ] ;
uint8_t * p = nonce ;
memcpy ( p , mac , 6 ) ;
p + = 6 ;
memcpy ( p , & parsed - > devicetype , 2 ) ;
p + = 2 ;
* ( p + + ) = parsed - > framecnt ;
uint8_t * extCnt = data + ( len - 7 ) ;
memcpy ( p , extCnt , 3 ) ;
p + = 3 ;
uint32_t tag = * ( uint32_t * ) ( data + ( len - 4 ) ) ;
// decrypt the data in place
decres = MIDecryptPayload ( mac , nonce , tag , data + byteindex , len - byteindex - 7 ) ;
// no longer need the nonce data.
len - = 7 ;
}
switch ( decres ) {
case 1 : // decrypt not requested
break ;
case 0 : // suceeded
parsed - > needkey = KEY_REQUIRED_AND_FOUND ;
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if ( BLE_ESP32 : : BLEDebugMode > 0 ) AddLog ( LOG_LEVEL_DEBUG , PSTR ( " M32 %s: Payload decrypted " ) , MIaddrStr ( slotmac ) ) ;
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break ;
case - 1 : // key failed to work
parsed - > needkey = KEY_REQUIRED_AND_INVALID ;
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AddLog ( LOG_LEVEL_ERROR , PSTR ( " M32 %s: Payload decrypt failed " ) , MIaddrStr ( slotmac ) ) ;
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parsed - > payloadpresent = 0 ;
return 0 ;
break ;
case - 2 : // key not present
parsed - > needkey = KEY_REQUIRED_BUT_NOT_FOUND ;
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AddLog ( LOG_LEVEL_ERROR , PSTR ( " M32 %s: Payload encrypted but no key " ) , MIaddrStr ( slotmac ) ) ;
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parsed - > payloadpresent = 0 ;
return 0 ;
break ;
}
// if set, there could be 1 or 3 bytes here.
if ( parsed - > framedata . compatibilityflag ) {
if ( len < byteindex + 1 ) {
return 0 ;
}
// e.g. in pair: 7122 AA01 15 3AF4DAA8654C [0D] 0200020D10 -> bond|unused2
parsed - > compatibility . reserved = ( data [ byteindex ] & 0xc0 ) > > 6 ; //Byte 0: xx......
parsed - > compatibility . IOcap = ( data [ byteindex ] & 0x20 ) > > 5 ; //Byte 0: ..x.....
parsed - > compatibility . bondability = ( data [ byteindex ] & 0x18 ) > > 3 ; //Byte 0: ...xx...
parsed - > compatibility . unused = ( data [ byteindex ] & 0x07 ) > > 0 ; //Byte 0: .....xxx
byteindex + + ;
if ( parsed - > compatibility . IOcap ) {
if ( len < byteindex + 2 ) {
return 0 ;
}
parsed - > compatibility . IOCapability = * ( ( uint16_t * ) ( data + byteindex ) ) ; // bytes 1-2, e.g. 01 00 -> 0001
byteindex + = 2 ;
}
}
// rest is payload
int rem = ( len - byteindex ) ;
if ( rem > sizeof ( parsed - > payload ) ) {
rem = sizeof ( parsed - > payload ) ;
return 0 ;
}
if ( ( len - byteindex ) = = 0 ) {
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if ( BLE_ESP32 : : BLEDebugMode > 0 ) AddLog ( LOG_LEVEL_DEBUG , PSTR ( " M32 %s: No payload " ) , MIaddrStr ( slotmac ) ) ;
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parsed - > payload . size = 0 ;
parsed - > payloadpresent = 0 ;
return 0 ;
}
// we have payload which did not need decrypt.
if ( decres = = 1 ) {
parsed - > needkey = KEY_NOT_REQUIRED ;
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if ( BLE_ESP32 : : BLEDebugMode > 0 ) AddLog ( LOG_LEVEL_DEBUG , PSTR ( " M32 %s: Payload unencrypted " ) , MIaddrStr ( slotmac ) ) ;
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}
// already decrypted if required
parsed - > payloadpresent = 1 ;
memcpy ( & parsed - > payload , ( data + byteindex ) , ( len - byteindex ) ) ;
if ( parsed - > payload . size ! = ( len - byteindex ) - 3 ) {
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AddLog ( LOG_LEVEL_DEBUG , PSTR ( " M32 %s: Payload length mismatch " ) , MIaddrStr ( slotmac ) ) ;
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}
return 1 ;
}
/*********************************************************************************************\
* common functions
\ * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
/**
* @ brief Return the slot number of a known sensor or return create new sensor slot
*
* @ param _MAC BLE address of the sensor
* @ param _type Type number of the sensor
* @ return uint32_t Known or new slot in the sensors - vector
*/
uint32_t MIBLEgetSensorSlot ( const uint8_t * mac , uint16_t _type , uint8_t counter ) {
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//AddLog(LOG_LEVEL_DEBUG_MORE,PSTR("M32: %s: will test ID-type: %x"),D_CMND_MI32, _type);
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bool _success = false ;
for ( uint32_t i = 0 ; i < MI_MI32_TYPES ; i + + ) { // i < sizeof(kMI32DeviceID) gives compiler warning
if ( _type = = kMI32DeviceID [ i ] ) {
_type = i + 1 ;
_success = true ;
break ;
}
else {
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//AddLog(LOG_LEVEL_DEBUG_MORE,PSTR("M32: %s: ID-type is not: %x"),D_CMND_MI32,kMI32DeviceID[i]);
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}
}
if ( ! _success ) {
_type = 1 ; // unknown
}
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//AddLog(LOG_LEVEL_DEBUG_MORE,PSTR("M32: %s: vector size %u"),D_CMND_MI32, MIBLEsensors.size());
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for ( uint32_t i = 0 ; i < MIBLEsensors . size ( ) ; i + + ) {
if ( memcmp ( mac , MIBLEsensors [ i ] . MAC , 6 ) = = 0 ) {
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// AddLog(LOG_LEVEL_DEBUG,PSTR("M32: Counters: %x %x"),MIBLEsensors[i].lastCnt, counter);
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if ( MIBLEsensors [ i ] . lastCnt = = counter ) {
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// AddLog(LOG_LEVEL_DEBUG,PSTR("Old packet"));
if ( BLE_ESP32 : : BLEDebugMode > 0 ) AddLog ( LOG_LEVEL_DEBUG_MORE , PSTR ( " M32: %s: slot: %u/%u - ign repeat " ) , D_CMND_MI32 , i , MIBLEsensors . size ( ) ) ;
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//return 0xff; // packet received before, stop here
}
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if ( BLE_ESP32 : : BLEDebugMode > 0 ) AddLog ( LOG_LEVEL_DEBUG , PSTR ( " M32: Frame %d, last %d " ) , counter , MIBLEsensors [ i ] . lastCnt ) ;
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MIBLEsensors [ i ] . lastCnt = counter ;
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if ( BLE_ESP32 : : BLEDebugMode > 0 ) AddLog ( LOG_LEVEL_DEBUG_MORE , PSTR ( " M32: %s: slot: %u/%u " ) , D_CMND_MI32 , i , MIBLEsensors . size ( ) ) ;
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if ( MIBLEsensors [ i ] . type ! = _type ) {
// this happens on incorrectly configured pvvx ATC firmware
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AddLog ( LOG_LEVEL_ERROR , PSTR ( " M32: %s: slot: %u - device type 0x%04x(%s) -> 0x%04x(%s) - check device is only sending one type of advert. " ) , D_CMND_MI32 , i ,
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kMI32DeviceID [ MIBLEsensors [ i ] . type - 1 ] , kMI32DeviceType [ MIBLEsensors [ i ] . type - 1 ] , kMI32DeviceID [ _type - 1 ] , kMI32DeviceType [ _type - 1 ] ) ;
MIBLEsensors [ i ] . type = _type ;
}
return i ;
}
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//AddLog(LOG_LEVEL_DEBUG_MORE,PSTR("M32: %s: i: %x %x %x %x %x %x"),D_CMND_MI32, MIBLEsensors[i].MAC[5], MIBLEsensors[i].MAC[4],MIBLEsensors[i].MAC[3],MIBLEsensors[i].MAC[2],MIBLEsensors[i].MAC[1],MIBLEsensors[i].MAC[0]);
//AddLog(LOG_LEVEL_DEBUG_MORE,PSTR("M32: %s: n: %x %x %x %x %x %x"),D_CMND_MI32, mac[5], mac[4], mac[3],mac[2],mac[1],mac[0]);
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}
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//AddLog(LOG_LEVEL_DEBUG_MORE,PSTR("M32: %s: new sensor -> slot: %u"),D_CMND_MI32, MIBLEsensors.size());
//AddLog(LOG_LEVEL_DEBUG_MORE,PSTR("M32: %s: found new sensor"),D_CMND_MI32);
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mi_sensor_t _newSensor ;
memset ( & _newSensor , 0 , sizeof ( _newSensor ) ) ;
memcpy ( _newSensor . MAC , mac , 6 ) ;
_newSensor . type = _type ;
_newSensor . eventType . raw = 0 ;
_newSensor . feature . raw = 0 ;
_newSensor . temp = NAN ;
_newSensor . needkey = KEY_REQUIREMENT_UNKNOWN ;
_newSensor . bat = 0x00 ;
_newSensor . RSSI = 0xffff ;
_newSensor . lux = 0x00ffffff ;
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_newSensor . light = - 1 ;
_newSensor . Btn = - 1 ;
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switch ( _type )
{
case MI_FLORA :
_newSensor . moisture = 0xff ;
_newSensor . fertility = 0xffff ;
_newSensor . firmware [ 0 ] = ' \0 ' ;
_newSensor . feature . temp = 1 ;
_newSensor . feature . moist = 1 ;
_newSensor . feature . fert = 1 ;
_newSensor . feature . lux = 1 ;
_newSensor . feature . bat = 1 ;
break ;
case MI_NLIGHT :
_newSensor . events = 0x00 ;
_newSensor . feature . PIR = 1 ;
_newSensor . feature . NMT = 1 ;
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_newSensor . feature . events = 1 ;
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break ;
case MI_MJYD2S :
_newSensor . NMT = 0 ;
_newSensor . events = 0x00 ;
_newSensor . feature . PIR = 1 ;
_newSensor . feature . NMT = 1 ;
_newSensor . feature . lux = 1 ;
_newSensor . feature . bat = 1 ;
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_newSensor . feature . events = 1 ;
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break ;
case MI_YEERC :
_newSensor . feature . Btn = 1 ;
break ;
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case MI_DOOR : // MCCGQ02HL
_newSensor . feature . Btn = 1 ;
_newSensor . feature . light = 1 ;
_newSensor . feature . bat = 1 ;
break ;
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case MI_SCALE_V1 :
case MI_SCALE_V2 :
_newSensor . feature . scale = 1 ;
break ;
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default :
_newSensor . hum = NAN ;
_newSensor . feature . temp = 1 ;
_newSensor . feature . hum = 1 ;
_newSensor . feature . tempHum = 1 ;
_newSensor . feature . bat = 1 ;
break ;
}
MIBLEsensors . push_back ( _newSensor ) ;
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AddLog ( LOG_LEVEL_DEBUG , PSTR ( " M32: %s: new %s at slot: %u " ) , D_CMND_MI32 , kMI32DeviceType [ _type - 1 ] , MIBLEsensors . size ( ) - 1 ) ;
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MI32 . mode . shallShowStatusInfo = 1 ;
return MIBLEsensors . size ( ) - 1 ;
} ;
/**
* @ brief trigger real - time message for PIR or RC
*
*/
void MI32triggerTele ( void ) {
MI32 . mode . triggeredTele = 1 ;
MI32ShowTriggeredSensors ( ) ;
MI32 . mode . triggeredTele = 0 ;
}
/**
* @ brief Is called after every finding of new BLE sensor
*
*/
void MI32StatusInfo ( ) {
MI32 . mode . shallShowStatusInfo = 0 ;
Response_P ( PSTR ( " { \" %s \" :{ \" found \" :%u}} " ) , D_CMND_MI32 , MIBLEsensors . size ( ) ) ;
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XdrvRulesProcess ( 0 ) ;
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}
/*********************************************************************************************\
* BLE callbacks section
* These are called from main thread only .
\ * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
int MI32scanCompleteCallback ( NimBLEScanResults results ) {
// we actually don't need to do anything here....
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if ( BLE_ESP32 : : BLEDebugMode > 0 ) AddLog ( LOG_LEVEL_DEBUG , PSTR ( " M32: Scan complete " ) ) ;
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return 0 ;
}
/*********************************************************************************************\
* init BLE_32
\ * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
void MI32Init ( void ) {
MIBLEsensors . reserve ( 10 ) ;
MIBLEbindKeys . reserve ( 10 ) ;
MI32 . mode . init = false ;
//test section for options
MI32 . option . allwaysAggregate = 1 ;
MI32 . option . noSummary = 0 ;
MI32 . option . minimalSummary = 0 ;
MI32 . option . directBridgeMode = 0 ;
MI32 . option . showRSSI = 1 ;
MI32 . option . ignoreBogusBattery = 1 ; // from advertisements
MI32 . option . holdBackFirstAutodiscovery = 1 ;
BLE_ESP32 : : registerForAdvertismentCallbacks ( ( const char * ) " MI32 " , MI32advertismentCallback ) ;
BLE_ESP32 : : registerForScanCallbacks ( ( const char * ) " MI32 " , MI32scanCompleteCallback ) ;
// note: for operations, we will set individual callbacks in the operations we request
//void registerForOpCallbacks(const char *tag, BLE_ESP32::OPCOMPLETE_CALLBACK* pFn);
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AddLog ( LOG_LEVEL_INFO , PSTR ( " M32: init: request callbacks " ) ) ;
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MI32 . period = Settings - > tele_period ;
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MI32 . mode . init = 1 ;
return ;
}
/*********************************************************************************************\
* Task section
\ * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
int MIParseBatt ( int slot , uint8_t * data , int len ) {
int value = data [ 0 ] ;
char slotMAC [ 13 ] ;
BLE_ESP32 : : dump ( slotMAC , sizeof ( slotMAC ) , MIBLEsensors [ slot ] . MAC , 6 ) ;
if ( ( value ! = 0 ) & & ( value < 101 ) ) {
MIBLEsensors [ slot ] . bat = value ;
if ( MIBLEsensors [ slot ] . type = = MI_FLORA ) {
if ( len < 7 ) {
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AddLog ( LOG_LEVEL_ERROR , PSTR ( " M32: FLORA: not enough bytes read for firmware? " ) ) ;
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} else {
memcpy ( MIBLEsensors [ slot ] . firmware , data + 2 , 5 ) ;
MIBLEsensors [ slot ] . firmware [ 5 ] = ' \0 ' ;
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AddLog ( LOG_LEVEL_DEBUG , PSTR ( " M32: %s: FLORA Firmware: %s " ) , D_CMND_MI32 , MIBLEsensors [ slot ] . firmware ) ;
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}
}
MIBLEsensors [ slot ] . eventType . bat = 1 ;
MIBLEsensors [ slot ] . shallSendMQTT = 1 ;
MI32 . mode . shallTriggerTele = 1 ;
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if ( BLE_ESP32 : : BLEDebugMode > 0 ) AddLog ( LOG_LEVEL_DEBUG , PSTR ( " M32: Batt read for %s complete %d " ) , slotMAC , value ) ;
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} else {
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AddLog ( LOG_LEVEL_ERROR , PSTR ( " M32: Batt read for %s complete but out of range 1-101 (%d) " ) , slotMAC , value ) ;
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}
return 0 ;
}
/*********************************************************************************************\
* parse the response from advertisements
\ * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
void MI32ParseATCPacket ( const uint8_t * _buf , uint32_t length , const uint8_t * addr , int RSSI ) {
ATCPacket_t * _packet = ( ATCPacket_t * ) _buf ;
PVVXPacket_t * ppv_packet = ( PVVXPacket_t * ) _buf ;
if ( length = = 15 ) { // 19-1-1-2
uint8_t addrrev [ 6 ] ;
memcpy ( addrrev , addr , 6 ) ;
MI32_ReverseMAC ( addrrev ) ;
if ( ! memcmp ( addrrev , ppv_packet - > MAC , 6 ) ) {
//int16_t temperature; // x 0.1 degree
//uint16_t humidity; // x 0.01 %
//uint16_t battery_mv; // mV
//uint8_t battery_level; // 0..100 %
//uint8_t counter; // measurement count
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//uint8_t flags;
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uint32_t _slot = MIBLEgetSensorSlot ( addr , 0x0a1c , ppv_packet - > counter ) ; // This must be a hard-coded fake ID
if ( _slot = = 0xff ) return ;
if ( ( _slot > = 0 ) & & ( _slot < MIBLEsensors . size ( ) ) ) {
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if ( BLE_ESP32 : : BLEDebugMode > 0 ) AddLog ( LOG_LEVEL_DEBUG , PSTR ( " M32: %s:pvvx at slot %u " ) , kMI32DeviceType [ MIBLEsensors [ _slot ] . type - 1 ] , _slot ) ;
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MIBLEsensors [ _slot ] . RSSI = RSSI ;
MIBLEsensors [ _slot ] . needkey = KEY_NOT_REQUIRED ;
MIBLEsensors [ _slot ] . temp = ( float ) ( ppv_packet - > temperature ) / 100.0f ;
MIBLEsensors [ _slot ] . hum = ( float ) ( ppv_packet - > humidity ) / 100.0f ;
MIBLEsensors [ _slot ] . eventType . tempHum = 1 ;
MIBLEsensors [ _slot ] . bat = ppv_packet - > battery_level ;
MIBLEsensors [ _slot ] . eventType . bat = 1 ;
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MIBLEsensors [ _slot ] . Btn = ( ppv_packet - > flags ) & 0x1 ; // First bit is reed switch status
MIBLEsensors [ _slot ] . eventType . Btn = 1 ;
MIBLEsensors [ _slot ] . feature . Btn = 1 ;
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if ( MI32 . option . directBridgeMode ) {
MIBLEsensors [ _slot ] . shallSendMQTT = 1 ;
MI32 . mode . shallTriggerTele = 1 ;
}
}
return ;
} else {
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AddLog ( LOG_LEVEL_ERROR , PSTR ( " M32: PVVX packet mac mismatch - ignored? " ) ) ;
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return ;
}
}
uint8_t addrrev [ 6 ] ;
memcpy ( addrrev , addr , 6 ) ;
//MI32_ReverseMAC(addrrev);
// if packet tell a different address to origin, use the different address
if ( memcmp ( addrrev , _packet - > MAC , 6 ) ) {
MI32_ReverseMAC ( _packet - > MAC ) ;
if ( ! memcmp ( addrrev , _packet - > MAC , 6 ) ) {
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AddLog ( LOG_LEVEL_ERROR , PSTR ( " M32: ATC packet with reversed MAC addr? " ) ) ;
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} else {
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AddLog ( LOG_LEVEL_ERROR , PSTR ( " M32: ATC packet with MAC addr mismatch - is this mesh? " ) ) ;
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memcpy ( addrrev , _packet - > MAC , 6 ) ;
}
addr = addrrev ;
}
uint32_t _slot = MIBLEgetSensorSlot ( addr , 0x0a1c , _packet - > frameCnt ) ; // This must be a hard-coded fake ID
if ( _slot = = 0xff ) return ;
if ( ( _slot > = 0 ) & & ( _slot < MIBLEsensors . size ( ) ) ) {
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if ( BLE_ESP32 : : BLEDebugMode > 0 ) AddLog ( LOG_LEVEL_DEBUG , PSTR ( " M32: %s at slot %u " ) , kMI32DeviceType [ MIBLEsensors [ _slot ] . type - 1 ] , _slot ) ;
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MIBLEsensors [ _slot ] . RSSI = RSSI ;
MIBLEsensors [ _slot ] . needkey = KEY_NOT_REQUIRED ;
MIBLEsensors [ _slot ] . temp = ( float ) ( int16_t ( __builtin_bswap16 ( _packet - > temp ) ) ) / 10.0f ;
MIBLEsensors [ _slot ] . hum = ( float ) _packet - > hum ;
MIBLEsensors [ _slot ] . eventType . tempHum = 1 ;
MIBLEsensors [ _slot ] . bat = _packet - > batPer ;
MIBLEsensors [ _slot ] . eventType . bat = 1 ;
if ( MI32 . option . directBridgeMode ) {
MIBLEsensors [ _slot ] . shallSendMQTT = 1 ;
MI32 . mode . shallTriggerTele = 1 ;
}
} else {
}
}
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void MI32ParseMiScalePacket ( const uint8_t * _buf , uint32_t length , const uint8_t * addr , int RSSI , int UUID ) {
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MiScaleV1Packet_t * _packetV1 = ( MiScaleV1Packet_t * ) _buf ;
MiScaleV2Packet_t * _packetV2 = ( MiScaleV2Packet_t * ) _buf ;
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uint8_t stabilized = 0 ;
uint8_t weight_removed = 0 ;
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// Mi Scale V1
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if ( length = = 10 & & UUID = = 0x181d ) { // 14-1-1-2
stabilized = ( _packetV1 - > status & ( 1 < < 5 ) ) ? 1 : 0 ;
weight_removed = ( _packetV1 - > status & ( 1 < < 7 ) ) ? 1 : 0 ;
if ( ! MI32 . option . directBridgeMode & & ( ! stabilized | | weight_removed ) )
return ;
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uint32_t _slot = MIBLEgetSensorSlot ( addr , UUID , 0 ) ;
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if ( _slot = = 0xff ) return ;
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if ( ( _slot > = 0 ) & & ( _slot < MIBLEsensors . size ( ) ) ) {
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if ( BLE_ESP32 : : BLEDebugMode > 0 ) AddLog ( LOG_LEVEL_DEBUG , PSTR ( " M32: %s: at slot %u " ) , kMI32DeviceType [ MIBLEsensors [ _slot ] . type - 1 ] , _slot ) ;
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MIBLEsensors [ _slot ] . RSSI = RSSI ;
MIBLEsensors [ _slot ] . needkey = KEY_NOT_REQUIRED ;
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MIBLEsensors [ _slot ] . eventType . scale = 1 ;
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MIBLEsensors [ _slot ] . stabilized = stabilized ;
MIBLEsensors [ _slot ] . weight_removed = weight_removed ;
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if ( _packetV1 - > status & ( 1 < < 0 ) ) {
strcpy ( MIBLEsensors [ _slot ] . weight_unit , PSTR ( " lbs " ) ) ;
MIBLEsensors [ _slot ] . weight = ( float ) _packetV1 - > weight / 100.0f ;
} else if ( _packetV1 - > status & ( 1 < < 4 ) ) {
strcpy ( MIBLEsensors [ _slot ] . weight_unit , PSTR ( " jin " ) ) ;
MIBLEsensors [ _slot ] . weight = ( float ) _packetV1 - > weight / 100.0f ;
} else {
strcpy ( MIBLEsensors [ _slot ] . weight_unit , PSTR ( " kg " ) ) ;
MIBLEsensors [ _slot ] . weight = ( float ) _packetV1 - > weight / 200.0f ;
}
if ( MIBLEsensors [ _slot ] . weight_removed ) {
MIBLEsensors [ _slot ] . weight = 0.0f ;
}
if ( MI32 . option . directBridgeMode ) {
MIBLEsensors [ _slot ] . shallSendMQTT = 1 ;
MI32 . mode . shallTriggerTele = 1 ;
}
}
}
// Mi Scale V2
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else if ( length = = 13 & & UUID = = 0x181b ) { // 17-1-1-2
stabilized = ( _packetV2 - > status & ( 1 < < 5 ) ) ? 1 : 0 ;
weight_removed = ( _packetV2 - > status & ( 1 < < 7 ) ) ? 1 : 0 ;
if ( ! MI32 . option . directBridgeMode & & ( ! stabilized | | weight_removed ) )
return ;
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uint32_t _slot = MIBLEgetSensorSlot ( addr , UUID , 0 ) ;
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if ( _slot = = 0xff ) return ;
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if ( ( _slot > = 0 ) & & ( _slot < MIBLEsensors . size ( ) ) ) {
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if ( BLE_ESP32 : : BLEDebugMode > 0 ) AddLog ( LOG_LEVEL_DEBUG , PSTR ( " M32: %s: at slot %u " ) , kMI32DeviceType [ MIBLEsensors [ _slot ] . type - 1 ] , _slot ) ;
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MIBLEsensors [ _slot ] . RSSI = RSSI ;
MIBLEsensors [ _slot ] . needkey = KEY_NOT_REQUIRED ;
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MIBLEsensors [ _slot ] . eventType . scale = 1 ;
MIBLEsensors [ _slot ] . has_impedance = ( _packetV2 - > status & ( 1 < < 1 ) ) ? 1 : 0 ;
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MIBLEsensors [ _slot ] . stabilized = stabilized ;
MIBLEsensors [ _slot ] . weight_removed = weight_removed ;
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if ( _packetV2 - > weight_unit & ( 1 < < 4 ) ) {
strcpy ( MIBLEsensors [ _slot ] . weight_unit , PSTR ( " jin " ) ) ;
MIBLEsensors [ _slot ] . weight = ( float ) _packetV2 - > weight / 100.0f ;
} else if ( _packetV2 - > weight_unit = = 3 ) {
strcpy ( MIBLEsensors [ _slot ] . weight_unit , PSTR ( " lbs " ) ) ;
MIBLEsensors [ _slot ] . weight = ( float ) _packetV2 - > weight / 100.0f ;
} else if ( _packetV2 - > weight_unit = = 2 ) {
strcpy ( MIBLEsensors [ _slot ] . weight_unit , PSTR ( " kg " ) ) ;
MIBLEsensors [ _slot ] . weight = ( float ) _packetV2 - > weight / 200.0f ;
} else {
strcpy ( MIBLEsensors [ _slot ] . weight_unit , PSTR ( " " ) ) ;
MIBLEsensors [ _slot ] . weight = ( float ) _packetV2 - > weight / 100.0f ;
}
if ( MIBLEsensors [ _slot ] . weight_removed ) {
MIBLEsensors [ _slot ] . weight = 0.0f ;
}
if ( MI32 . option . directBridgeMode ) {
MIBLEsensors [ _slot ] . shallSendMQTT = 1 ;
MI32 . mode . shallTriggerTele = 1 ;
}
}
}
}
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////////////////////////////////////////////////////////////
// this SHOULD parse any MI payload.
int MI32parseMiPayload ( int _slot , struct mi_beacon_data_t * parsed ) {
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struct mi_beacon_data_payload_data_t * pld =
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( struct mi_beacon_data_payload_data_t * ) & parsed - > payload . data ;
int res = 1 ;
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if ( ! parsed - > payloadpresent ) {
return 0 ;
}
char tmp [ 20 ] ;
BLE_ESP32 : : dump ( tmp , 20 , ( uint8_t * ) & ( parsed - > payload ) , parsed - > payload . size + 3 ) ;
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if ( BLE_ESP32 : : BLEDebugMode > 0 ) AddLog ( LOG_LEVEL_DEBUG_MORE , PSTR ( " M32: MI%d payload %s " ) , _slot , tmp ) ;
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// clear this for every payload
MIBLEsensors [ _slot ] . pairing = 0 ;
MIBLEsensors [ _slot ] . eventType . PairBtn = 0 ;
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//https://iot.mi.com/new/doc/embedded-development/ble/object-definition
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switch ( parsed - > payload . type ) {
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case 0x0002 : // related to pair button? 'easypairing'
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MIBLEsensors [ _slot ] . pairing = 1 ;
MIBLEsensors [ _slot ] . eventType . PairBtn = 1 ;
MIBLEsensors [ _slot ] . feature . pairing = 1 ;
MI32 . mode . shallTriggerTele = 1 ;
MIBLEsensors [ _slot ] . shallSendMQTT = 1 ;
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break ;
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case 0x0003 : { // motion? 1 byte 'near'
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uint8_t motion = parsed - > payload . data [ 0 ] ;
res = 0 ;
} break ;
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case 0x000f : // 'Someone is moving (with light)'
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MIBLEsensors [ _slot ] . eventType . motion = 1 ;
MIBLEsensors [ _slot ] . lastTime = millis ( ) ;
MIBLEsensors [ _slot ] . events + + ;
MIBLEsensors [ _slot ] . lux = pld - > lux ;
MIBLEsensors [ _slot ] . eventType . lux = 1 ;
MIBLEsensors [ _slot ] . NMT = 0 ;
MI32 . mode . shallTriggerTele = 1 ;
MIBLEsensors [ _slot ] . shallSendMQTT = 1 ;
MIBLEsensors [ _slot ] . feature . lux = 1 ;
MIBLEsensors [ _slot ] . feature . NMT = 1 ;
MIBLEsensors [ _slot ] . feature . events = 1 ;
// AddLog(LOG_LEVEL_DEBUG,PSTR("M32: PIR: primary"),MIBLEsensors[_slot].lux );
break ;
case 0x1001 : // button press
MIBLEsensors [ _slot ] . Btn = pld - > Btn . num + ( pld - > Btn . longPress / 2 ) * 6 ;
MIBLEsensors [ _slot ] . feature . Btn = 1 ;
MIBLEsensors [ _slot ] . eventType . Btn = 1 ;
MI32 . mode . shallTriggerTele = 1 ;
MIBLEsensors [ _slot ] . shallSendMQTT = 1 ;
break ;
//case 0x1002: // 'sleep'
//case 0x1003: // 'RSSI'
case 0x1004 : { // 'temperature'
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float _tempFloat = ( float ) ( pld - > temp ) / 10.0f ;
if ( _tempFloat < 60 ) {
MIBLEsensors [ _slot ] . temp = _tempFloat ;
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MIBLEsensors [ _slot ] . feature . temp = 1 ;
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MIBLEsensors [ _slot ] . eventType . temp = 1 ;
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if ( BLE_ESP32 : : BLEDebugMode > 0 ) AddLog ( LOG_LEVEL_DEBUG_MORE , PSTR ( " M32: Mode 4: temp updated " ) ) ;
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} else {
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if ( BLE_ESP32 : : BLEDebugMode > 0 ) AddLog ( LOG_LEVEL_DEBUG_MORE , PSTR ( " M32: Mode 4: temp ignored > 60 (%f) " ) , _tempFloat ) ;
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}
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// AddLog(LOG_LEVEL_DEBUG,PSTR("M32: Mode 4: U16: %u Temp"), _beacon.temp );
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} break ;
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// 0x1005 - not documented
case 0x1006 : { // 'humidity'
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float _tempFloat = ( float ) ( pld - > hum ) / 10.0f ;
if ( _tempFloat < 101 ) {
MIBLEsensors [ _slot ] . hum = _tempFloat ;
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MIBLEsensors [ _slot ] . feature . hum = 1 ;
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MIBLEsensors [ _slot ] . eventType . hum = 1 ;
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if ( BLE_ESP32 : : BLEDebugMode > 0 ) AddLog ( LOG_LEVEL_DEBUG_MORE , PSTR ( " M32: Mode 6: hum updated " ) ) ;
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} else {
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if ( BLE_ESP32 : : BLEDebugMode > 0 ) AddLog ( LOG_LEVEL_DEBUG_MORE , PSTR ( " M32: Mode 6: hum ignored > 101 (%f) " ) , _tempFloat ) ;
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}
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// AddLog(LOG_LEVEL_DEBUG,PSTR("M32: Mode 6: U16: %u Hum"), _beacon.hum);
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} break ;
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case 0x1007 : // 'Light illuminance'
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MIBLEsensors [ _slot ] . lux = pld - > lux & 0x00ffffff ;
if ( MIBLEsensors [ _slot ] . type = = MI_MJYD2S ) {
MIBLEsensors [ _slot ] . eventType . noMotion = 1 ;
}
MIBLEsensors [ _slot ] . eventType . lux = 1 ;
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MIBLEsensors [ _slot ] . feature . lux = 1 ;
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// AddLog(LOG_LEVEL_DEBUG,PSTR("M32: Mode 7: U24: %u Lux"), _beacon.lux & 0x00ffffff);
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break ;
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case 0x1008 : //'Soil moisture'
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MIBLEsensors [ _slot ] . moisture = pld - > moist ;
MIBLEsensors [ _slot ] . eventType . moist = 1 ;
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MIBLEsensors [ _slot ] . feature . moist = 1 ;
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if ( BLE_ESP32 : : BLEDebugMode > 0 ) AddLog ( LOG_LEVEL_DEBUG_MORE , PSTR ( " M32: Mode 8: moisture updated " ) ) ;
// AddLog(LOG_LEVEL_DEBUG,PSTR("M32: Mode 8: U8: %u Moisture"), _beacon.moist);
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break ;
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case 0x1009 : // 'conductivity' / 'Soil EC value'
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MIBLEsensors [ _slot ] . fertility = pld - > fert ;
MIBLEsensors [ _slot ] . eventType . fert = 1 ;
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MIBLEsensors [ _slot ] . feature . fert = 1 ;
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if ( BLE_ESP32 : : BLEDebugMode > 0 ) AddLog ( LOG_LEVEL_DEBUG_MORE , PSTR ( " M32: Mode 9: fertility updated " ) ) ;
// AddLog(LOG_LEVEL_DEBUG,PSTR("M32: Mode 9: U16: %u Fertility"), _beacon.fert);
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break ;
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case 0x100a : // 'Electricity'
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if ( MI32 . option . ignoreBogusBattery ) {
if ( MIBLEsensors [ _slot ] . type = = MI_LYWSD03MMC | | MIBLEsensors [ _slot ] . type = = MI_MHOC401 ) {
res = 0 ;
break ;
}
}
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MIBLEsensors [ _slot ] . feature . bat = 1 ;
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if ( pld - > bat < 101 ) {
MIBLEsensors [ _slot ] . bat = pld - > bat ;
MIBLEsensors [ _slot ] . eventType . bat = 1 ;
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if ( BLE_ESP32 : : BLEDebugMode > 0 ) AddLog ( LOG_LEVEL_DEBUG_MORE , PSTR ( " M32: Mode a: bat updated " ) ) ;
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} else {
MIBLEsensors [ _slot ] . bat = 100 ;
MIBLEsensors [ _slot ] . eventType . bat = 1 ;
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if ( BLE_ESP32 : : BLEDebugMode > 0 ) AddLog ( LOG_LEVEL_DEBUG_MORE , PSTR ( " M32: Mode a: bat > 100 (%d) " ) , pld - > bat ) ;
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}
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// AddLog(LOG_LEVEL_DEBUG,PSTR("M32: Mode a: U8: %u %%"), _beacon.bat);
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break ;
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// 100b-100d -> undefioend in docs.
case 0x100d : { // is this right????
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MIBLEsensors [ _slot ] . feature . tempHum = 1 ;
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float _tempFloat = ( float ) ( pld - > HT . temp ) / 10.0f ;
if ( _tempFloat < 60 ) {
MIBLEsensors [ _slot ] . temp = _tempFloat ;
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if ( BLE_ESP32 : : BLEDebugMode > 0 ) AddLog ( LOG_LEVEL_DEBUG_MORE , PSTR ( " M32: Mode d: temp updated " ) ) ;
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} else {
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if ( BLE_ESP32 : : BLEDebugMode > 0 ) AddLog ( LOG_LEVEL_DEBUG_MORE , PSTR ( " M32: Mode d: temp ignored > 60 (%f) " ) , _tempFloat ) ;
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}
_tempFloat = ( float ) ( pld - > HT . hum ) / 10.0f ;
if ( _tempFloat < 100 ) {
MIBLEsensors [ _slot ] . hum = _tempFloat ;
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if ( BLE_ESP32 : : BLEDebugMode > 0 ) AddLog ( LOG_LEVEL_DEBUG_MORE , PSTR ( " M32: Mode d: hum updated " ) ) ;
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} else {
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if ( BLE_ESP32 : : BLEDebugMode > 0 ) AddLog ( LOG_LEVEL_DEBUG_MORE , PSTR ( " M32: Mode d: hum ignored > 100 (%f) " ) , _tempFloat ) ;
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}
MIBLEsensors [ _slot ] . eventType . tempHum = 1 ;
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// AddLog(LOG_LEVEL_DEBUG,PSTR("M32: Mode d: U16: %x Temp U16: %x Hum"), _beacon.HT.temp, _beacon.HT.hum);
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} break ;
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// 100e = 'lock'
// 100f = 'door'
case 0x1010 : { // 'formaldehide'
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const uint16_t f = uint16_t ( parsed - > payload . data [ 0 ] ) | ( uint16_t ( parsed - > payload . data [ 1 ] ) < < 8 ) ;
float formaldehyde = ( float ) f / 100.0f ;
res = 0 ;
} break ;
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// 1011 = 'bind'
case 0x1012 : { // 'switch'
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int active = parsed - > payload . data [ 0 ] ;
res = 0 ;
} break ;
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case 0x1013 : { // 'Remaining amount of consumables' - mosquito tablet
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int tablet = parsed - > payload . data [ 0 ] ;
res = 0 ;
} break ;
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//Flooding 0x1014 1 1
//smoke 0x1015 1 1
//Gas 0x1016
case 0x1017 : { // 'No one moves'
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const uint32_t idle_time =
uint32_t ( parsed - > payload . data [ 0 ] ) | ( uint32_t ( parsed - > payload . data [ 1 ] ) < < 8 ) | ( uint32_t ( parsed - > payload . data [ 2 ] ) < < 16 ) | ( uint32_t ( parsed - > payload . data [ 2 ] ) < < 24 ) ;
float idlemins = ( float ) idle_time / 60.0f ;
int has_motion = ( idle_time ) ? 0 : 0 ;
MIBLEsensors [ _slot ] . NMT = pld - > NMT ;
MIBLEsensors [ _slot ] . eventType . NMT = 1 ;
MI32 . mode . shallTriggerTele = 1 ;
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MIBLEsensors [ _slot ] . shallSendMQTT = 1 ;
MIBLEsensors [ _slot ] . feature . NMT = 1 ;
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// AddLog(LOG_LEVEL_DEBUG,PSTR("M32: Mode 17: NMT: %u seconds"), _beacon.NMT);
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} break ;
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//Light intensity 0x1018
case 0x1018 : { //'Light intensity' - 0=dark, 1=light? - MCCGQ02HL
MIBLEsensors [ _slot ] . light = parsed - > payload . data [ 0 ] ;
MIBLEsensors [ _slot ] . eventType . light = 1 ;
MI32 . mode . shallTriggerTele = 1 ;
MIBLEsensors [ _slot ] . shallSendMQTT = 1 ;
MIBLEsensors [ _slot ] . feature . light = 1 ;
} break ;
case 0x1019 : { //'Door sensor' - 0=open, 1=closed, 2=timeout? - MCCGQ02HL
MIBLEsensors [ _slot ] . Btn = ( uint8_t ) parsed - > payload . data [ 0 ] ; // just an 8 bit value in a union.
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MIBLEsensors [ _slot ] . eventType . Btn = 1 ;
MI32 . mode . shallTriggerTele = 1 ;
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MIBLEsensors [ _slot ] . shallSendMQTT = 1 ;
MIBLEsensors [ _slot ] . feature . Btn = 1 ;
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} break ;
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//Weight attributes 0x101A 600 0
//No one moves over time 0x101B 1 1
//Smart pillow 0x101C 60 1
//Formaldehyde (new) 0x101D
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default : {
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AddLog ( LOG_LEVEL_DEBUG , PSTR ( " M32: Unknown MI pld type %x %s " ) , parsed - > payload . type , tmp ) ;
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res = 0 ;
} break ;
}
if ( res & & MI32 . option . directBridgeMode ) {
MIBLEsensors [ _slot ] . shallSendMQTT = 1 ;
MI32 . mode . shallTriggerTele = 1 ;
}
return res ;
}
////////////////////////////////////////////////////////////
// this SHOULD parse any MI packet, including encrypted.
void MI32ParseResponse ( const uint8_t * buf , uint16_t bufsize , const uint8_t * addr , int RSSI ) {
struct mi_beacon_data_t parsed ;
memset ( & parsed , 0 , sizeof ( parsed ) ) ;
int res = MIParsePacket ( addr , & parsed , buf , bufsize ) ;
uint8_t addrrev [ 6 ] ;
memcpy ( addrrev , addr , 6 ) ;
MI32_ReverseMAC ( addrrev ) ;
if ( memcmp ( addrrev , parsed . macdata . mac , 6 ) ) {
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AddLog ( LOG_LEVEL_ERROR , PSTR ( " M32: MI packet with MAC addr mismatch - is this mesh? " ) ) ;
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memcpy ( addrrev , parsed . macdata . mac , 6 ) ;
MI32_ReverseMAC ( addrrev ) ;
addr = addrrev ;
}
uint16_t _slot = MIBLEgetSensorSlot ( addr , parsed . devicetype , parsed . framecnt ) ;
if ( _slot = = 0xff ) return ;
if ( ( _slot > = 0 ) & & ( _slot < MIBLEsensors . size ( ) ) ) {
if ( parsed . needkey ! = KEY_REQUIREMENT_UNKNOWN ) {
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MIBLEsensors [ _slot ] . needkey = parsed . needkey ;
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}
MIBLEsensors [ _slot ] . RSSI = RSSI ;
if ( ! res ) { // - if the payload is not valid
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if ( BLE_ESP32 : : BLEDebugMode > 0 ) AddLog ( LOG_LEVEL_DEBUG , PSTR ( " M32: MIParsePacket returned %d " ) , res ) ;
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return ;
} else {
}
MI32parseMiPayload ( _slot , & parsed ) ;
}
}
bool MI32isInBlockList ( const uint8_t * MAC ) {
bool isBlocked = false ;
for ( auto & _blockedMAC : MIBLEBlockList ) {
if ( memcmp ( _blockedMAC . buf , MAC , 6 ) = = 0 ) isBlocked = true ;
}
return isBlocked ;
}
void MI32removeMIBLEsensor ( uint8_t * MAC ) {
// this will take and keep the mutex until the function is over
TasAutoMutex localmutex ( & slotmutex , " Mi32Rem " ) ;
MIBLEsensors . erase ( std : : remove_if ( MIBLEsensors . begin ( ) , MIBLEsensors . end ( ) , [ MAC ] ( mi_sensor_t _sensor ) - > bool
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{ return ( memcmp ( _sensor . MAC , MAC , 6 ) = = 0 ) ; }
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) , end ( MIBLEsensors ) ) ;
}
/***********************************************************************\
* Read data from connections
\ * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
void MI32notifyHT_LY ( int slot , char * _buf , int len ) {
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if ( BLE_ESP32 : : BLEDebugMode > 0 ) AddLog ( LOG_LEVEL_DEBUG_MORE , PSTR ( " M32: %s: raw data: %x%x%x%x%x%x%x " ) , D_CMND_MI32 , _buf [ 0 ] , _buf [ 1 ] , _buf [ 2 ] , _buf [ 3 ] , _buf [ 4 ] , _buf [ 5 ] , _buf [ 6 ] ) ;
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// the value 0b00 is 28.16 C?
if ( _buf [ 0 ] ! = 0 | | _buf [ 1 ] ! = 0 ) {
memcpy ( & LYWSD0x_HT , ( void * ) _buf , sizeof ( LYWSD0x_HT ) ) ;
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if ( BLE_ESP32 : : BLEDebugMode > 0 ) AddLog ( LOG_LEVEL_DEBUG , PSTR ( " M32: %s: T * 100: %u, H: %u, V: %u " ) , D_CMND_MI32 , LYWSD0x_HT . temp , LYWSD0x_HT . hum , LYWSD0x_HT . volt ) ;
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uint32_t _slot = slot ;
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if ( BLE_ESP32 : : BLEDebugMode > 0 ) AddLog ( LOG_LEVEL_DEBUG_MORE , PSTR ( " M32: MIBLE: Sensor slot: %u " ) , _slot ) ;
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static float _tempFloat ;
_tempFloat = ( float ) ( LYWSD0x_HT . temp ) / 100.0f ;
if ( _tempFloat < 60 ) {
MIBLEsensors [ _slot ] . temp = _tempFloat ;
// MIBLEsensors[_slot].showedUp=255; // this sensor is real
}
_tempFloat = ( float ) LYWSD0x_HT . hum ;
if ( _tempFloat < 100 ) {
MIBLEsensors [ _slot ] . hum = _tempFloat ;
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if ( BLE_ESP32 : : BLEDebugMode > 0 ) AddLog ( LOG_LEVEL_DEBUG_MORE , PSTR ( " M32: LYWSD0x: hum updated " ) ) ;
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}
MIBLEsensors [ _slot ] . eventType . tempHum = 1 ;
if ( MIBLEsensors [ _slot ] . type = = MI_LYWSD03MMC | | MIBLEsensors [ _slot ] . type = = MI_MHOC401 ) {
// ok, so CR2032 is 3.0v, but drops immediately to ~2.9.
// so we'll go with the 2.1 min, 2.95 max.
float minVolts = 2100.0 ;
//float maxVolts = 2950.0;
//float range = maxVolts - minVolts;
//float divisor = range/100; // = 8.5
float percent = ( ( ( float ) LYWSD0x_HT . volt ) - minVolts ) / 8.5 ; //divisor;
if ( percent > 100 ) percent = 100 ;
MIBLEsensors [ _slot ] . bat = ( int ) percent ;
MIBLEsensors [ _slot ] . eventType . bat = 1 ;
}
if ( MI32 . option . directBridgeMode ) {
MIBLEsensors [ _slot ] . shallSendMQTT = 1 ;
MI32 . mode . shallTriggerTele = 1 ;
}
}
}
/**
* @ brief Launch functions from Core 1 to make race conditions less likely
*
*/
void MI32Every50mSecond ( ) {
if ( MI32 . mode . shallTriggerTele ) {
MI32 . mode . shallTriggerTele = 0 ;
MI32triggerTele ( ) ;
}
}
/**
* @ brief Main loop of the driver , " high level " - loop
*
*/
void MI32EverySecond ( bool restart ) {
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// AddLog(LOG_LEVEL_DEBUG_MORE, PSTR("M32: onesec"));
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MI32TimeoutSensors ( ) ;
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if ( MI32 . option . MQTTType = = 0 ) {
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// show tas style sensor MQTT
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MI32ShowSomeSensors ( ) ;
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}
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if ( MI32 . option . MQTTType = = 1
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# ifdef USE_HOME_ASSISTANT
| |
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Settings - > flag . hass_discovery
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# endif
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) {
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// these two share a counter
// discovery only sent if hass_discovery
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MI32DiscoveryOneMISensor ( ) ;
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// show independent style sensor MQTT
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// note - if !MQTTType, then this is IN ADDITION to 'normal'
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MI32ShowOneMISensor ( ) ;
}
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// read a battery if
2021-01-17 17:08:54 +00:00
// MI32.batteryreader.slot < filled and !MI32.batteryreader.active
readOneBat ( ) ;
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// read a sensor if
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// MI32.sensorreader.slot < filled and !MI32.sensorreader.active
// for sensors which need to get data through notify...
readOneSensor ( ) ;
if ( MI32 . secondsCounter > = MI32 . period ) {
// only if we finished the last read
if ( MI32 . sensorreader . slot > = MIBLEsensors . size ( ) ) {
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AddLog ( LOG_LEVEL_DEBUG , PSTR ( " M32: Kick off readOneSensor " ) ) ;
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// kick off notification sensor reading every period.
MI32 . sensorreader . slot = 0 ;
MI32 . secondsCounter = 0 ;
}
}
MI32 . secondsCounter + + ;
if ( MI32 . secondsCounter2 > = MI32 . period ) {
if ( MI32 . mqttCurrentSlot > = MIBLEsensors . size ( ) ) {
2021-01-23 16:10:06 +00:00
AddLog ( LOG_LEVEL_DEBUG , PSTR ( " M32: Kick off tele sending " ) ) ;
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MI32 . mqttCurrentSlot = 0 ;
MI32 . secondsCounter2 = 0 ;
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MI32 . mqttCurrentSingleSlot = 0 ;
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} else {
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AddLog ( LOG_LEVEL_DEBUG , PSTR ( " M32: Hit tele time, restarted but not finished last - lost from slot %d " ) + MI32 . mqttCurrentSlot ) ;
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MI32 . mqttCurrentSlot = 0 ;
MI32 . secondsCounter2 = 0 ;
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MI32 . mqttCurrentSingleSlot = 0 ;
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}
}
MI32 . secondsCounter2 + + ;
static uint32_t _counter = MI32 . period - 15 ;
static uint32_t _nextSensorSlot = 0 ;
uint32_t _idx = 0 ;
int numsensors = MIBLEsensors . size ( ) ;
for ( uint32_t i = 0 ; i < numsensors ; i + + ) {
if ( MIBLEsensors [ i ] . type = = MI_NLIGHT | | MIBLEsensors [ i ] . type = = MI_MJYD2S ) {
MIBLEsensors [ i ] . NMT + + ;
}
}
if ( MI32 . mode . shallShowStatusInfo = = 1 ) {
MI32StatusInfo ( ) ;
}
}
/*********************************************************************************************\
* Commands
\ * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
void CmndMi32Period ( void ) {
if ( XdrvMailbox . data_len > 0 ) {
if ( 1 = = XdrvMailbox . payload ) {
MI32EverySecond ( true ) ;
} else {
MI32 . period = XdrvMailbox . payload ;
}
}
ResponseCmndNumber ( MI32 . period ) ;
}
int findSlot ( char * addrOrAlias ) {
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uint8_t mac [ 7 ] ;
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int res = BLE_ESP32 : : getAddr ( mac , addrOrAlias ) ;
if ( ! res ) return - 1 ;
for ( int i = MIBLEsensors . size ( ) - 1 ; i > = 0 ; i - - ) {
if ( ! memcmp ( MIBLEsensors [ i ] . MAC , mac , 6 ) ) {
return i ;
}
}
return - 1 ;
}
void CmndMi32Time ( void ) {
if ( XdrvMailbox . data_len > 0 ) {
int slot = findSlot ( XdrvMailbox . data ) ;
if ( slot < 0 ) {
slot = XdrvMailbox . payload ;
}
if ( MIBLEsensors . size ( ) > slot ) {
int res = genericTimeWriteFn ( slot ) ;
if ( res > 0 ) {
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if ( BLE_ESP32 : : BLEDebugMode > 0 ) AddLog ( LOG_LEVEL_DEBUG , PSTR ( " M32: will set Time " ) ) ;
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ResponseCmndNumber ( slot ) ;
return ;
}
if ( res < 0 ) {
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AddLog ( LOG_LEVEL_ERROR , PSTR ( " M32: cannot set Time on sensor type " ) ) ;
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}
if ( res = = 0 ) {
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AddLog ( LOG_LEVEL_ERROR , PSTR ( " M32: cannot set Time right now " ) ) ;
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}
}
}
ResponseCmndChar_P ( " fail " ) ;
}
void CmndMi32Page ( void ) {
if ( XdrvMailbox . payload > 0 ) {
MI32 . perPage = XdrvMailbox . payload ;
}
ResponseCmndNumber ( MI32 . perPage ) ;
}
// read ALL battery values where we can?
void CmndMi32Battery ( void ) {
// trigger a read cycle
MI32 . batteryreader . slot = 0 ;
ResponseCmndDone ( ) ;
}
void CmndMi32Unit ( void ) {
if ( XdrvMailbox . data_len > 0 ) {
int slot = findSlot ( XdrvMailbox . data ) ;
if ( slot < 0 ) {
slot = XdrvMailbox . payload ;
}
if ( MIBLEsensors . size ( ) > slot ) {
// TOGGLE unit?
int res = genericUnitWriteFn ( slot , - 1 ) ;
if ( res > 0 ) {
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if ( BLE_ESP32 : : BLEDebugMode > 0 ) AddLog ( LOG_LEVEL_DEBUG , PSTR ( " M32: will toggle Unit " ) ) ;
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ResponseCmndNumber ( slot ) ;
return ;
}
if ( res < 0 ) {
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AddLog ( LOG_LEVEL_ERROR , PSTR ( " M32: cannot toggle Unit on sensor type " ) ) ;
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}
if ( res = = 0 ) {
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AddLog ( LOG_LEVEL_ERROR , PSTR ( " M32: cannot toggle Unit right now " ) ) ;
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}
}
}
ResponseCmndIdxChar ( PSTR ( " Invalid " ) ) ;
}
# ifdef USE_MI_DECRYPTION
void CmndMi32Key ( void ) {
if ( 44 = = XdrvMailbox . data_len ) { // a KEY-MAC-string
MI32AddKey ( XdrvMailbox . data , nullptr ) ;
MI32KeyListResp ( ) ;
} else {
ResponseCmndIdxChar ( PSTR ( " Invalid " ) ) ;
}
}
# endif // USE_MI_DECRYPTION
void MI32BlockListResp ( ) {
Response_P ( PSTR ( " { \" MI32Block \" :{ " ) ) ;
for ( int i = 0 ; i < MIBLEBlockList . size ( ) ; i + + ) {
if ( i ) {
ResponseAppend_P ( PSTR ( " , " ) ) ;
}
char tmp [ 20 ] ;
ToHex_P ( MIBLEBlockList [ i ] . buf , 6 , tmp , 20 , 0 ) ;
ResponseAppend_P ( PSTR ( " \" %s \" :1 " ) , tmp ) ;
}
ResponseAppend_P ( PSTR ( " }} " ) ) ;
}
void CmndMi32Block ( void ) {
if ( XdrvMailbox . data_len = = 0 ) {
switch ( XdrvMailbox . index ) {
case 0 : {
//TasAutoMutex localmutex(&slotmutex, "Mi32Block1");
MIBLEBlockList . clear ( ) ;
} break ;
default :
case 1 :
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break ;
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}
MI32BlockListResp ( ) ;
return ;
}
MAC_t _MACasBytes ;
int res = BLE_ESP32 : : getAddr ( _MACasBytes . buf , XdrvMailbox . data ) ;
if ( ! res ) {
ResponseCmndIdxChar ( PSTR ( " Addr invalid " ) ) ;
return ;
}
//MI32HexStringToBytes(XdrvMailbox.data,_MACasBytes.buf);
switch ( XdrvMailbox . index ) {
case 0 : {
//TasAutoMutex localmutex(&slotmutex, "Mi32Block2");
MIBLEBlockList . erase ( std : : remove_if ( begin ( MIBLEBlockList ) , end ( MIBLEBlockList ) , [ _MACasBytes ] ( MAC_t & _entry ) - > bool
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{ return ( memcmp ( _entry . buf , _MACasBytes . buf , 6 ) = = 0 ) ; }
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) , end ( MIBLEBlockList ) ) ;
} break ;
case 1 : {
//TasAutoMutex localmutex(&slotmutex, "Mi32Block3");
bool _notYetInList = true ;
for ( auto & _entry : MIBLEBlockList ) {
if ( memcmp ( _entry . buf , _MACasBytes . buf , 6 ) = = 0 ) {
_notYetInList = false ;
}
}
if ( _notYetInList ) {
MIBLEBlockList . push_back ( _MACasBytes ) ;
MI32removeMIBLEsensor ( _MACasBytes . buf ) ;
}
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// AddLog(LOG_LEVEL_INFO,PSTR("M32: size of ilist: %u"), MIBLEBlockList.size());
2021-01-19 15:23:16 +00:00
} break ;
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}
MI32BlockListResp ( ) ;
}
void CmndMi32Option ( void ) {
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bool set = false ;
if ( strlen ( XdrvMailbox . data ) ) {
set = true ;
}
int onOff = atoi ( XdrvMailbox . data ) ;
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switch ( XdrvMailbox . index ) {
case 0 :
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if ( set ) {
MI32 . option . allwaysAggregate = onOff ;
} else {
onOff = MI32 . option . allwaysAggregate ;
}
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break ;
case 1 :
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if ( set ) {
MI32 . option . noSummary = onOff ;
} else {
onOff = MI32 . option . noSummary ;
}
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break ;
case 2 :
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if ( set ) {
MI32 . option . directBridgeMode = onOff ;
} else {
onOff = MI32 . option . directBridgeMode ;
}
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break ;
case 4 : {
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if ( set ) {
MI32 . option . ignoreBogusBattery = onOff ;
} else {
onOff = MI32 . option . ignoreBogusBattery ;
}
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} break ;
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case 5 : {
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if ( set ) {
MI32 . option . onlyAliased = onOff ;
if ( MI32 . option . onlyAliased ) {
// discard all sensors for a restart
MIBLEsensors . clear ( ) ;
}
} else {
onOff = MI32 . option . onlyAliased ;
2021-01-26 08:41:45 +00:00
}
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} break ;
case 6 : {
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if ( set ) {
MI32 . option . MQTTType = onOff ;
} else {
onOff = MI32 . option . MQTTType ;
}
} break ;
default : {
ResponseCmndIdxError ( ) ;
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return ;
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} break ;
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}
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ResponseCmndIdxNumber ( onOff ) ;
return ;
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}
void MI32KeyListResp ( ) {
Response_P ( PSTR ( " { \" MIKeys \" :{ " ) ) ;
for ( int i = 0 ; i < MIBLEbindKeys . size ( ) ; i + + ) {
if ( i ) {
ResponseAppend_P ( PSTR ( " , " ) ) ;
}
char tmp [ 20 ] ;
ToHex_P ( MIBLEbindKeys [ i ] . MAC , 6 , tmp , 20 , 0 ) ;
char key [ 16 * 2 + 1 ] ;
ToHex_P ( MIBLEbindKeys [ i ] . key , 16 , key , 33 , 0 ) ;
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ResponseAppend_P ( PSTR ( " \" %s \" : \" %s \" " ) , tmp , key ) ;
}
ResponseAppend_P ( PSTR ( " }} " ) ) ;
}
void CmndMi32Keys ( void ) {
# ifdef BLE_ESP32_ALIASES
int op = XdrvMailbox . index ;
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if ( BLE_ESP32 : : BLEDebugMode > 0 ) AddLog ( LOG_LEVEL_DEBUG , PSTR ( " M32: Key %d %s " ) , op , XdrvMailbox . data ) ;
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int res = - 1 ;
switch ( op ) {
case 0 :
case 1 : {
char * p = strtok ( XdrvMailbox . data , " ,= " ) ;
bool trigger = false ;
int added = 0 ;
do {
if ( ! p | | ! ( * p ) ) {
break ;
}
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uint8_t addr [ 7 ] ;
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char * mac = p ;
int addrres = BLE_ESP32 : : getAddr ( addr , p ) ;
if ( ! addrres ) {
ResponseCmndChar ( " invalidmac " ) ;
return ;
}
p = strtok ( nullptr , " ,= " ) ;
char * key = p ;
if ( ! p | | ! ( * p ) ) {
int i = 0 ;
for ( i = 0 ; i < MIBLEbindKeys . size ( ) ; i + + ) {
mi_bindKey_t * key = & MIBLEbindKeys [ i ] ;
if ( ! memcmp ( key - > MAC , addr , 6 ) ) {
MIBLEbindKeys . erase ( MIBLEbindKeys . begin ( ) + i ) ;
MI32KeyListResp ( ) ;
return ;
}
}
ResponseCmndChar ( " invalidmac " ) ;
return ;
}
2021-01-23 16:10:06 +00:00
AddLog ( LOG_LEVEL_ERROR , PSTR ( " M32: Add key mac %s = key %s " ) , mac , key ) ;
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char tmp [ 20 ] ;
// convert mac back to string
ToHex_P ( addr , 6 , tmp , 20 , 0 ) ;
if ( MI32AddKey ( tmp , key ) ) {
added + + ;
}
p = strtok ( nullptr , " ,= " ) ;
} while ( p ) ;
if ( added ) {
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if ( BLE_ESP32 : : BLEDebugMode > 0 ) AddLog ( LOG_LEVEL_DEBUG , PSTR ( " M32: Added %d Keys " ) , added ) ;
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MI32KeyListResp ( ) ;
} else {
MI32KeyListResp ( ) ;
}
return ;
} break ;
case 2 : { // clear
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if ( BLE_ESP32 : : BLEDebugMode > 0 ) AddLog ( LOG_LEVEL_DEBUG , PSTR ( " M32: Keys clearing %d " ) , MIBLEbindKeys . size ( ) ) ;
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for ( int i = MIBLEbindKeys . size ( ) - 1 ; i > = 0 ; i - - ) {
MIBLEbindKeys . pop_back ( ) ;
}
MI32KeyListResp ( ) ;
return ;
} break ;
}
ResponseCmndChar ( " invalididx " ) ;
# endif
}
/*********************************************************************************************\
* Presentation
\ * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
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const char HTTP_MI32 [ ] PROGMEM = " {s}MI ESP32 v0921{m}%u%s / %u{e} " ;
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const char HTTP_MI32_ALIAS [ ] PROGMEM = " {s}%s Alias {m}%s{e} " ;
const char HTTP_MI32_MAC [ ] PROGMEM = " {s}%s %s{m}%s{e} " ;
const char HTTP_RSSI [ ] PROGMEM = " {s}%s " D_RSSI " {m}%d dBm{e} " ;
const char HTTP_BATTERY [ ] PROGMEM = " {s}%s " " Battery " " {m}%u %%{e} " ;
const char HTTP_LASTBUTTON [ ] PROGMEM = " {s}%s Last Button{m}%u {e} " ;
const char HTTP_EVENTS [ ] PROGMEM = " {s}%s Events{m}%u {e} " ;
const char HTTP_NMT [ ] PROGMEM = " {s}%s No motion{m}> %u seconds{e} " ;
const char HTTP_MI32_FLORA_DATA [ ] PROGMEM = " {s}%s " " Fertility " " {m}%u us/cm{e} " ;
const char HTTP_MI32_HL [ ] PROGMEM = " {s}<hr>{m}<hr>{e} " ;
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const char HTTP_MI32_LIGHT [ ] PROGMEM = " {s}%s " " Light " " {m}%d{e} " ;
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const char HTTP_MISCALE_WEIGHT [ ] PROGMEM = " {s}%s " " Weight " " {m}%*_f %s{e} " ;
const char HTTP_MISCALE_IMPEDANCE [ ] PROGMEM = " {s}%s " " Impedance " " {m}%u{e} " ;
const char HTTP_MISCALE_WEIGHT_REMOVED [ ] PROGMEM = " {s}%s " " Weight removed " " {m}%s{e} " ;
const char HTTP_MISCALE_STABILIZED [ ] PROGMEM = " {s}%s " " Stabilized " " {m}%s{e} " ;
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//const char HTTP_NEEDKEY[] PROGMEM = "{s}%s <a target=\"_blank\" href=\""
// "https://atc1441.github.io/TelinkFlasher.html?mac=%s&cb=http%%3A%%2F%%2F%s%%2Fmikey"
// "\">%s</a>{m} {e}";
//const char HTTP_NEEDKEY[] PROGMEM = "{s}%s <a target=\"_blank\" href=\""
// "http://127.0.0.1:8887/keys/TelinkFlasher.html?mac=%s&cb=http%%3A%%2F%%2F%s%%2Fmikey"
// "\">%s</a>{m} {e}";
const char HTTP_NEEDKEY [ ] PROGMEM = " {s}%s <a target= \" _blank \" href= \" "
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" https://tasmota.github.io/ble_key_extractor?mac=%s&cb=http%%3A%%2F%%2F%s%%2Fmikey "
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" \" >%s</a>{m} {e} " ;
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const char HTTP_PAIRING [ ] PROGMEM = " {s}%s Pair Button Pressed{m} {e} " ;
const char HTTP_KEY_ERROR [ ] PROGMEM = " Key error %s " ;
const char HTTP_MAC_ERROR [ ] PROGMEM = " MAC error %s " ;
const char HTTP_KEY_ADDED [ ] PROGMEM = " Cmnd: MI32Keys %s=%s " ;
const char HTTP_MI_KEY_STYLE [ ] PROGMEM = " " ;
# define D_MI32_KEY "MI32 Set Key"
void HandleMI32Key ( ) {
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AddLog ( LOG_LEVEL_DEBUG , PSTR ( " M32: HandleMI32Key hit " ) ) ;
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if ( ! HttpCheckPriviledgedAccess ( ) ) {
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AddLog ( LOG_LEVEL_DEBUG , PSTR ( " M32: !HttpCheckPriviledgedAccess() " ) ) ;
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return ;
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}
WSContentStart_P ( PSTR ( D_MI32_KEY ) ) ;
WSContentSendStyle_P ( HTTP_MI_KEY_STYLE ) ;
char key [ 64 ] = { 0 } ;
WebGetArg ( " key " , key , sizeof ( key ) ) ;
if ( strlen ( key ) ! = 16 * 2 ) {
WSContentSend_P ( HTTP_KEY_ERROR , key ) ;
WSContentStop ( ) ;
return ;
}
char mac [ 13 ] = { 0 } ;
WebGetArg ( " mac " , mac , sizeof ( mac ) ) ;
if ( strlen ( mac ) ! = 12 ) {
WSContentSend_P ( HTTP_MAC_ERROR , mac ) ;
WSContentStop ( ) ;
return ;
}
WSContentSend_P ( HTTP_KEY_ADDED , mac , key ) ;
strncat ( key , mac , sizeof ( key ) ) ;
MI32AddKey ( key , nullptr ) ;
// WSContentSpaceButton(BUTTON_CONFIGURATION);
WSContentStop ( ) ;
}
void MI32TimeoutSensors ( ) {
// whatever, this function access all the arrays....
// so block for as long as it takes.
// PROBLEM: when we take this, it hangs the BLE loop.
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// BUT, devicePresent uses the
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// remove devices for which the adverts have timed out
for ( int i = MIBLEsensors . size ( ) - 1 ; i > = 0 ; i - - ) {
//if (MIBLEsensors[i].MAC[2] || MIBLEsensors[i].MAC[3] || MIBLEsensors[i].MAC[4] || MIBLEsensors[i].MAC[5]){
if ( ! BLE_ESP32 : : devicePresent ( MIBLEsensors [ i ] . MAC ) ) {
uint8_t * mac = MIBLEsensors [ i ] . MAC ;
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AddLog ( LOG_LEVEL_DEBUG , PSTR ( " M32: Dev no longer present MAC: %02x%02x%02x%02x%02x%02x " ) , mac [ 0 ] , mac [ 1 ] , mac [ 2 ] , mac [ 3 ] , mac [ 4 ] , mac [ 5 ] ) ;
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TasAutoMutex localmutex ( & slotmutex , " Mi32Timeout " ) ;
MIBLEsensors . erase ( MIBLEsensors . begin ( ) + i ) ;
}
//}
}
}
// this assumes that we're adding to a ResponseTime_P
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void MI32GetOneSensorJson ( int slot , int hidename ) {
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mi_sensor_t * p ;
p = & MIBLEsensors [ slot ] ;
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// remove hyphen - make it difficult to configure HASS
if ( ! hidename ) {
ResponseAppend_P ( PSTR ( " \" %s%02x%02x%02x \" :{ " ) ,
kMI32DeviceType [ p - > type - 1 ] ,
p - > MAC [ 3 ] , p - > MAC [ 4 ] , p - > MAC [ 5 ] ) ;
}
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const char * alias = BLE_ESP32 : : getAlias ( p - > MAC ) ;
if ( alias & & alias [ 0 ] ) {
ResponseAppend_P ( PSTR ( " \" alias \" : \" %s \" , " ) ,
alias ) ;
}
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ResponseAppend_P ( PSTR ( " \" mac \" : \" %02x%02x%02x%02x%02x%02x \" " ) ,
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p - > MAC [ 0 ] , p - > MAC [ 1 ] , p - > MAC [ 2 ] ,
p - > MAC [ 3 ] , p - > MAC [ 4 ] , p - > MAC [ 5 ] ) ;
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if ( ( ! MI32 . mode . triggeredTele & & ! MI32 . option . minimalSummary ) | | MI32 . mode . triggeredTele ) {
bool tempHumSended = false ;
if ( p - > feature . tempHum ) {
if ( p - > eventType . tempHum | | ! MI32 . mode . triggeredTele | | MI32 . option . allwaysAggregate ) {
if ( ! isnan ( p - > hum ) & & ! isnan ( p - > temp )
# ifdef USE_HOME_ASSISTANT
| | ( hass_mode ! = - 1 )
# endif //USE_HOME_ASSISTANT
) {
ResponseAppend_P ( PSTR ( " , " ) ) ;
ResponseAppendTHD ( p - > temp , p - > hum ) ;
tempHumSended = true ;
}
}
}
if ( p - > feature . temp & & ! tempHumSended ) {
if ( p - > eventType . temp | | ! MI32 . mode . triggeredTele | | MI32 . option . allwaysAggregate ) {
if ( ! isnan ( p - > temp )
# ifdef USE_HOME_ASSISTANT
| | ( hass_mode ! = - 1 )
# endif //USE_HOME_ASSISTANT
) {
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ResponseAppend_P ( PSTR ( " , \" " D_JSON_TEMPERATURE " \" :%*_f " ) ,
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Settings - > flag2 . temperature_resolution , & p - > temp ) ;
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}
}
}
if ( p - > feature . hum & & ! tempHumSended ) {
if ( p - > eventType . hum | | ! MI32 . mode . triggeredTele | | MI32 . option . allwaysAggregate ) {
if ( ! isnan ( p - > hum )
# ifdef USE_HOME_ASSISTANT
| | ( hass_mode ! = - 1 )
# endif //USE_HOME_ASSISTANT
) {
char hum [ FLOATSZ ] ;
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dtostrfd ( p - > hum , Settings - > flag2 . humidity_resolution , hum ) ;
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ResponseAppend_P ( PSTR ( " , \" " D_JSON_HUMIDITY " \" :%s " ) , hum ) ;
}
}
}
if ( p - > feature . lux ) {
if ( p - > eventType . lux | | ! MI32 . mode . triggeredTele | | MI32 . option . allwaysAggregate ) {
# ifdef USE_HOME_ASSISTANT
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if ( ( hass_mode ! = - 1 ) & & ( p - > lux = = 0x0ffffff ) ) {
ResponseAppend_P ( PSTR ( " , \" " D_JSON_ILLUMINANCE " \" :null " ) ) ;
} else
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# endif //USE_HOME_ASSISTANT
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if ( ( p - > lux ! = 0x0ffffff )
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# ifdef USE_HOME_ASSISTANT
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| | ( hass_mode ! = - 1 )
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# endif //USE_HOME_ASSISTANT
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) { // this is the error code -> no lux
ResponseAppend_P ( PSTR ( " , \" " D_JSON_ILLUMINANCE " \" :%u " ) , p - > lux ) ;
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}
}
}
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if ( p - > feature . light ) {
if ( p - > eventType . light | | ! MI32 . mode . triggeredTele | | MI32 . option . allwaysAggregate
# ifdef USE_HOME_ASSISTANT
| | ( hass_mode = = 2 )
# endif //USE_HOME_ASSISTANT
) {
ResponseAppend_P ( PSTR ( " , \" Light \" :%d " ) , p - > light ) ;
}
}
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if ( p - > feature . moist ) {
if ( p - > eventType . moist | | ! MI32 . mode . triggeredTele | | MI32 . option . allwaysAggregate ) {
# ifdef USE_HOME_ASSISTANT
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if ( ( hass_mode ! = - 1 ) & & ( p - > moisture = = 0xff ) ) {
ResponseAppend_P ( PSTR ( " , \" " D_JSON_MOISTURE " \" :null " ) ) ;
} else
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# endif //USE_HOME_ASSISTANT
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if ( ( p - > moisture ! = 0xff )
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# ifdef USE_HOME_ASSISTANT
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| | ( hass_mode ! = - 1 )
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# endif //USE_HOME_ASSISTANT
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) {
ResponseAppend_P ( PSTR ( " , \" " D_JSON_MOISTURE " \" :%u " ) , p - > moisture ) ;
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}
}
}
if ( p - > feature . fert ) {
if ( p - > eventType . fert | | ! MI32 . mode . triggeredTele | | MI32 . option . allwaysAggregate ) {
# ifdef USE_HOME_ASSISTANT
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if ( ( hass_mode ! = - 1 ) & & ( p - > fertility = = 0xffff ) ) {
ResponseAppend_P ( PSTR ( " , \" Fertility \" :null " ) ) ;
} else
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# endif //USE_HOME_ASSISTANT
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if ( ( p - > fertility ! = 0xffff )
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# ifdef USE_HOME_ASSISTANT
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| | ( hass_mode ! = - 1 )
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# endif //USE_HOME_ASSISTANT
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) {
ResponseAppend_P ( PSTR ( " , \" Fertility \" :%u " ) , p - > fertility ) ;
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}
}
}
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if ( p - > feature . scale ) {
if ( p - > eventType . scale | | ! MI32 . mode . triggeredTele | | MI32 . option . allwaysAggregate
# ifdef USE_HOME_ASSISTANT
| | ( hass_mode = = 2 )
# endif //USE_HOME_ASSISTANT
) {
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if ( MI32 . option . directBridgeMode ) {
ResponseAppend_P ( PSTR ( " , \" weight_removed \" :%u " ) , p - > weight_removed ) ;
ResponseAppend_P ( PSTR ( " , \" stabilized \" :%u " ) , p - > stabilized ) ;
}
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ResponseAppend_P ( PSTR ( " , \" weight_unit \" : \" %s \" " ) , p - > weight_unit ) ;
ResponseAppend_P ( PSTR ( " , \" weight \" :%*_f " ) ,
Settings - > flag2 . weight_resolution , & p - > weight ) ;
if ( p - > has_impedance ) {
ResponseAppend_P ( PSTR ( " , \" impedance \" :%u " ) , p - > impedance ) ;
}
}
}
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if ( p - > feature . Btn ) {
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if ( p - > eventType . Btn | | ! MI32 . mode . triggeredTele | | MI32 . option . allwaysAggregate
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# ifdef USE_HOME_ASSISTANT
| | ( hass_mode = = 2 )
# endif //USE_HOME_ASSISTANT
) {
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ResponseAppend_P ( PSTR ( " , \" Btn \" :%d " ) , p - > Btn ) ;
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}
}
if ( p - > eventType . PairBtn & & p - > pairing ) {
ResponseAppend_P ( PSTR ( " , \" Pair \" :%u " ) , p - > pairing ) ;
}
} // minimal summary
if ( p - > feature . PIR ) {
if ( p - > eventType . motion | | ! MI32 . mode . triggeredTele ) {
if ( MI32 . mode . triggeredTele ) ResponseAppend_P ( PSTR ( " , \" PIR \" :1 " ) ) ; // only real-time
ResponseAppend_P ( PSTR ( " , \" Events \" :%u " ) , p - > events ) ;
}
else if ( p - > eventType . noMotion & & MI32 . mode . triggeredTele ) {
ResponseAppend_P ( PSTR ( " , \" PIR \" :0 " ) ) ;
}
}
if ( p - > type = = MI_FLORA & & ! MI32 . mode . triggeredTele ) {
if ( p - > firmware [ 0 ] ! = ' \0 ' ) { // this is the error code -> no firmware
ResponseAppend_P ( PSTR ( " , \" Firmware \" : \" %s \" " ) , p - > firmware ) ;
}
}
if ( p - > feature . NMT | | ! MI32 . mode . triggeredTele ) {
if ( p - > eventType . NMT ) {
ResponseAppend_P ( PSTR ( " , \" NMT \" :%u " ) , p - > NMT ) ;
}
}
if ( p - > feature . bat ) {
if ( p - > eventType . bat | | ! MI32 . mode . triggeredTele | | MI32 . option . allwaysAggregate ) {
# ifdef USE_HOME_ASSISTANT
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if ( ( hass_mode ! = - 1 ) & & ( p - > bat = = 0x00 ) ) {
ResponseAppend_P ( PSTR ( " , \" Battery \" :null " ) ) ;
} else
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# endif //USE_HOME_ASSISTANT
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if ( ( p - > bat ! = 0x00 )
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# ifdef USE_HOME_ASSISTANT
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| | ( hass_mode ! = - 1 )
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# endif //USE_HOME_ASSISTANT
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) {
ResponseAppend_P ( PSTR ( " , \" Battery \" :%u " ) , p - > bat ) ;
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}
}
}
if ( MI32 . option . showRSSI ) ResponseAppend_P ( PSTR ( " , \" RSSI \" :%d " ) , p - > RSSI ) ;
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if ( ! hidename ) {
ResponseAppend_P ( PSTR ( " } " ) ) ;
}
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p - > eventType . raw = 0 ;
p - > shallSendMQTT = 0 ;
}
///////////////////////////////////////////////
// starts a completely fresh MQTT message.
// sends up to 4 sensors
// triggered by setting MI32.mqttCurrentSlot = 0
void MI32ShowSomeSensors ( ) {
// don't detect half-added ones here
int numsensors = MIBLEsensors . size ( ) ;
if ( MI32 . mqttCurrentSlot > = numsensors ) {
// if we got to the end of the sensors, then don't send more
return ;
}
# ifdef USE_HOME_ASSISTANT
bool _noSummarySave = MI32 . option . noSummary ;
bool _minimalSummarySave = MI32 . option . minimalSummary ;
if ( hass_mode = = 2 ) {
if ( MI32 . option . holdBackFirstAutodiscovery ) {
if ( ! MI32 . mode . firstAutodiscoveryDone ) {
MI32 . mode . firstAutodiscoveryDone = 1 ;
return ;
}
}
MI32 . option . noSummary = false ;
MI32 . option . minimalSummary = false ;
}
# endif //USE_HOME_ASSISTANT
ResponseTime_P ( PSTR ( " " ) ) ;
int cnt = 0 ;
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int maxcnt = 4 ;
mi_sensor_t * p ;
for ( ; ( MI32 . mqttCurrentSlot < numsensors ) & & ( cnt < maxcnt ) ; MI32 . mqttCurrentSlot + + , cnt + + ) {
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ResponseAppend_P ( PSTR ( " , " ) ) ;
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p = & MIBLEsensors [ MI32 . mqttCurrentSlot ] ;
MI32GetOneSensorJson ( MI32 . mqttCurrentSlot , ( maxcnt = = 1 ) ) ;
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int mlen = ResponseLength ( ) ;
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// if we ran out of room, leave here.
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if ( ResponseSize ( ) - mlen < 100 ) {
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MI32 . mqttCurrentSlot + + ;
break ;
}
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cnt + + ;
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}
ResponseAppend_P ( PSTR ( " } " ) ) ;
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MqttPublishPrefixTopicRulesProcess_P ( TELE , PSTR ( D_RSLT_SENSOR ) , Settings - > flag . mqtt_sensor_retain ) ;
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//AddLog(LOG_LEVEL_DEBUG,PSTR("M32: %s: show some %d %s"),D_CMND_MI32, MI32.mqttCurrentSlot, ResponseData());
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# ifdef USE_HOME_ASSISTANT
if ( hass_mode = = 2 ) {
MI32 . option . noSummary = _noSummarySave ;
MI32 . option . minimalSummary = _minimalSummarySave ;
}
# endif //USE_HOME_ASSISTANT
}
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///////////////////////////////////////////////
// starts a completely fresh MQTT message.
// sends ONE sensor on a dedicated topic NOT related to this TAS
// triggered by setting MI32.mqttCurrentSingleSlot = 0
void MI32ShowOneMISensor ( ) {
// don't detect half-added ones here
int numsensors = MIBLEsensors . size ( ) ;
if ( MI32 . mqttCurrentSingleSlot > = numsensors ) {
// if we got to the end of the sensors, then don't send more
return ;
}
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if (
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# ifdef USE_HOME_ASSISTANT
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Settings - > flag . hass_discovery
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| |
# endif //USE_HOME_ASSISTANT
MI32 . option . MQTTType = = 1
) {
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ResponseTime_P ( PSTR ( " , " ) ) ;
MI32GetOneSensorJson ( MI32 . mqttCurrentSingleSlot , 1 ) ;
mi_sensor_t * p ;
p = & MIBLEsensors [ MI32 . mqttCurrentSingleSlot ] ;
ResponseAppend_P ( PSTR ( " } " ) ) ;
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char idstr [ 32 ] ;
const char * alias = BLE_ESP32 : : getAlias ( p - > MAC ) ;
const char * id = idstr ;
if ( alias & & * alias ) {
id = alias ;
} else {
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sprintf ( idstr , PSTR ( " %s%02x%02x%02x " ) ,
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kMI32DeviceType [ p - > type - 1 ] ,
p - > MAC [ 3 ] , p - > MAC [ 4 ] , p - > MAC [ 5 ] ) ;
}
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char SensorTopic [ TOPSZ ] ;
GetTopic_P ( SensorTopic , TELE , ( char * ) " tasmota_ble " , id ) ;
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MqttPublish ( SensorTopic , Settings - > flag . mqtt_sensor_retain ) ;
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//AddLog(LOG_LEVEL_DEBUG,PSTR("M32: %s: show some %d %s"),D_CMND_MI32, MI32.mqttCurrentSlot, ResponseData());
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}
MI32 . mqttCurrentSingleSlot + + ;
}
///////////////////////////////////////////////
// starts a completely fresh MQTT message.
// sends ONE sensor's worth of HA discovery msg
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const char MI_HA_DISCOVERY_TEMPLATE [ ] PROGMEM =
" { \" availability \" :[], \" device \" : "
" { \" identifiers \" :[ \" BLE%s \" ], "
" \" name \" : \" %s \" , "
" \" manufacturer \" : \" tas \" , "
" \" model \" : \" %s \" , "
" \" via_device \" : \" %s \" "
" }, "
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" %s%s%s "
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" \" expire_after \" :600, "
" \" json_attr_t \" : \" %s \" , "
" \" name \" : \" %s_%s \" , "
" \" state_topic \" : \" %s \" , "
" \" uniq_id \" : \" %s_%s \" , "
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" %s%s%s "
" \" val_tpl \" : \" {{ %s%s%s }} \" } " ;
// careful - a missing comma causes a crash!!!!
// because of the way we loop?
const char * classes [ ] = {
// 0
" temperature " ,
" Temperature " ,
" °C " ,
// 1
" humidity " ,
" Humidity " ,
" % " ,
// 2
" temperature " ,
" DewPoint " ,
" °C " ,
// 3
" battery " ,
" Battery " ,
" % " ,
// 4
" signal_strength " ,
" RSSI " ,
" dB " ,
// 5
" " , //- empty device class
" Btn " ,
" " ,
// 6
" " , //- empty device class
" Light " ,
" " ,
// 7
" " , //- empty device class
" Moisture " ,
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" % " ,
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// 8
" " , //- empty device class
" Illuminance " ,
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" lx " ,
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// 9
" " , //- empty device class
" Fertility " ,
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" µS/cm " ,
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// 10
" " , //- empty device class
" Firmware " ,
" " ,
} ;
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void MI32DiscoveryOneMISensor ( ) {
// don't detect half-added ones here
int numsensors = MIBLEsensors . size ( ) ;
if ( MI32 . mqttCurrentSingleSlot > = numsensors ) {
// if we got to the end of the sensors, then don't send more
return ;
}
# ifdef USE_HOME_ASSISTANT
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if ( Settings - > flag . hass_discovery ) {
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mi_sensor_t * p ;
p = & MIBLEsensors [ MI32 . mqttCurrentSingleSlot ] ;
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int datacount = ( sizeof ( classes ) / sizeof ( * classes ) ) / 3 ;
if ( p - > nextDiscoveryData > = datacount ) {
p - > nextDiscoveryData = 0 ;
}
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char DiscoveryTopic [ 80 ] ;
const char * host = NetworkHostname ( ) ;
const char * devtype = kMI32DeviceType [ p - > type - 1 ] ;
char idstr [ 32 ] ;
const char * alias = BLE_ESP32 : : getAlias ( p - > MAC ) ;
const char * id = idstr ;
if ( alias & & * alias ) {
id = alias ;
} else {
sprintf ( idstr , PSTR ( " %s%02x%02x%02x " ) ,
devtype ,
p - > MAC [ 3 ] , p - > MAC [ 4 ] , p - > MAC [ 5 ] ) ;
}
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char SensorTopic [ TOPSZ ] ;
GetTopic_P ( SensorTopic , TELE , ( char * ) " tasmota_ble " , id ) ;
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//int i = p->nextDiscoveryData*3;
for ( int i = 0 ; i < datacount * 3 ; i + = 3 ) {
if ( ! classes [ i ] | | ! classes [ i + 1 ] | | ! classes [ i + 2 ] ) {
return ;
}
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uint8_t isBinary = 0 ;
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ResponseClear ( ) ;
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switch ( i / 3 ) {
case 0 : // temp
if ( ! p - > feature . temp & & ! p - > feature . tempHum ) {
continue ;
}
break ;
case 1 : // hum
if ( ! p - > feature . hum & & ! p - > feature . tempHum ) {
continue ;
}
break ;
case 2 : //dew
if ( ! p - > feature . tempHum & & ! ( p - > feature . temp & & p - > feature . hum ) ) {
continue ;
}
break ;
case 3 : //bat
if ( ! p - > feature . bat ) {
continue ;
}
break ;
case 4 : //rssi - all
break ;
case 5 : // button
if ( ! p - > feature . Btn ) {
continue ;
}
//isBinary = 2; // invert payload
break ;
case 6 : // binary light sense
if ( ! p - > feature . light ) {
continue ;
}
//isBinary = 1;
break ;
case 7 : // moisture
if ( ! p - > feature . moist ) {
continue ;
}
//isBinary = 1;
break ;
case 8 : // lux
if ( ! p - > feature . lux ) {
continue ;
}
break ;
case 9 : // fertility
if ( ! p - > feature . fert ) {
continue ;
}
break ;
case 10 : // firmware
if ( ! p - > feature . fert ) { // Flora only
continue ;
}
break ;
}
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/*
{ " availability " : [ ] , " device " : { " identifiers " : [ " TasmotaBLEa4c1387fc1e1 " ] , " manufacturer " : " simon " , " model " : " someBLEsensor " , " name " : " TASBLEa4c1387fc1e1 " , " sw_version " : " 0.0.0 " } , " dev_cla " : " temperature " , " json_attr_t " : " tele/tasmota_esp32/SENSOR " , " name " : " TASLYWSD037fc1e1Temp " , " state_topic " : " tele/tasmota_esp32/SENSOR " , " uniq_id " : " Tasmotaa4c1387fc1e1temp " , " unit_of_meas " : " °C " , " val_tpl " : " {{ value_json.LYWSD037fc1e1.Temperature }} " }
{ " availability " : [ ] , " device " : { " identifiers " : [ " TasmotaBLEa4c1387fc1e1 " ] ,
" name " : " TASBLEa4c1387fc1e1 " } , " dev_cla " : " temperature " ,
" json_attr_t " : " tele/tasmota_esp32/SENSOR " ,
" name " : " TASLYWSD037fc1e1Temp " , " state_topic " : " tele/tasmota_esp32/SENSOR " ,
" uniq_id " : " Tasmotaa4c1387fc1e1temp " , " unit_of_meas " : " °C " ,
" val_tpl " : " {{ value_json.LYWSD037fc1e1.Temperature }} " }
*/
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ResponseAppend_P ( MI_HA_DISCOVERY_TEMPLATE ,
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//"{\"identifiers\":[\"BLE%s\"],"
id ,
//"\"name\":\"%s\"},"
id ,
//\"model\":\"%s\",
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devtype ,
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//\"via_device\":\"%s\"
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host ,
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//"\"dev_cla\":\"%s\","
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( classes [ i ] [ 0 ] ? " \" dev_cla \" : \" " : " " ) ,
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classes [ i ] ,
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( classes [ i ] [ 0 ] ? " \" , " : " " ) ,
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//"\"json_attr_t\":\"%s\"," - the topic the sensor publishes on
SensorTopic ,
//"\"name\":\"%s_%s\"," - the name of this DATA
id , classes [ i + 1 ] ,
//"\"state_topic\":\"%s\"," - the topic the sensor publishes on?
SensorTopic ,
//"\"uniq_id\":\"%s_%s\"," - unique for this data,
id , classes [ i + 1 ] ,
//"\"unit_of_meas\":\"%s\"," - the measure of this type of data
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( classes [ i + 2 ] [ 0 ] ? " \" unit_of_meas \" : \" " : " " ) ,
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classes [ i + 2 ] ,
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( classes [ i + 2 ] [ 0 ] ? " \" , " : " " ) ,
//"\"val_tpl\":\"{{ %s%s }}") // e.g. Temperature
// inverted binary - {{ 'off' if value_json.posn else 'on' }}
// binary - {{ 'on' if value_json.posn else 'off' }}
( ( isBinary < 1 ) ? " value_json. " :
( ( isBinary < 2 ) ? " value_json. " : " 'off' if value_json. " )
) ,
classes [ i + 1 ] ,
( ( isBinary < 1 ) ? " " :
( ( isBinary < 2 ) ? " " : " else 'on' " )
)
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//
) ;
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sprintf ( DiscoveryTopic , " homeassistant/%ssensor/%s/%s/config " ,
( isBinary ? " binary_ " : " " ) , id , classes [ i + 1 ] ) ;
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MqttPublish ( DiscoveryTopic ) ;
p - > nextDiscoveryData + + ;
//vTaskDelay(100/ portTICK_PERIOD_MS);
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}
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} // end if hass discovery
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//AddLog(LOG_LEVEL_DEBUG,PSTR("M32: %s: show some %d %s"),D_CMND_MI32, MI32.mqttCurrentSlot, ResponseData());
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# endif //USE_HOME_ASSISTANT
}
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///////////////////////////////////////////////
// starts a completely fresh MQTT message.
// sends up to 4 sensors pe5r msg
// sends only those which are raw and triggered.
// triggered by setting MI32.mode.triggeredTele = 1
void MI32ShowTriggeredSensors ( ) {
if ( ! MI32 . mode . triggeredTele ) return ; // none to show
MI32 . mode . triggeredTele = 0 ;
// don't detect half-added ones here
int numsensors = MIBLEsensors . size ( ) ;
int sensor = 0 ;
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int maxcnt = 4 ;
if (
# ifdef USE_HOME_ASSISTANT
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Settings - > flag . hass_discovery
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| |
# endif //USE_HOME_ASSISTANT
MI32 . option . MQTTType = = 1
) {
maxcnt = 1 ;
}
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do {
ResponseTime_P ( PSTR ( " " ) ) ;
int cnt = 0 ;
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mi_sensor_t * p ;
for ( ; ( sensor < numsensors ) & & ( cnt < maxcnt ) ; sensor + + ) {
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p = & MIBLEsensors [ sensor ] ;
if ( p - > eventType . raw = = 0 ) continue ;
if ( p - > shallSendMQTT = = 0 ) continue ;
cnt + + ;
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ResponseAppend_P ( PSTR ( " , " ) ) ;
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// hide sensor name if HASS or option6
MI32GetOneSensorJson ( sensor , ( maxcnt = = 1 ) ) ;
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int mlen = ResponseLength ( ) ;
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// if we ran out of room, leave here.
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if ( ResponseSize ( ) - mlen < 100 ) {
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sensor + + ;
break ;
}
}
if ( cnt ) { // if we got one, then publish
ResponseAppend_P ( PSTR ( " } " ) ) ;
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if (
# ifdef USE_HOME_ASSISTANT
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Settings - > flag . hass_discovery
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| |
# endif //USE_HOME_ASSISTANT
MI32 . option . MQTTType = = 1
) {
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char SensorTopic [ TOPSZ ] ;
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char idstr [ 32 ] ;
const char * alias = BLE_ESP32 : : getAlias ( p - > MAC ) ;
const char * id = idstr ;
if ( alias & & * alias ) {
id = alias ;
} else {
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snprintf_P ( idstr , sizeof ( idstr ) , PSTR ( " %s%02x%02x%02x " ) ,
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kMI32DeviceType [ p - > type - 1 ] ,
p - > MAC [ 3 ] , p - > MAC [ 4 ] , p - > MAC [ 5 ] ) ;
}
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GetTopic_P ( SensorTopic , TELE , ( char * ) " tasmota_ble " , id ) ;
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MqttPublish ( SensorTopic , Settings - > flag . mqtt_sensor_retain ) ;
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AddLog ( LOG_LEVEL_DEBUG , PSTR ( " M32: triggered %d %s " ) , sensor , ResponseData ( ) ) ;
XdrvRulesProcess ( 0 ) ;
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} else {
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MqttPublishPrefixTopicRulesProcess_P ( STAT , PSTR ( D_RSLT_SENSOR ) , Settings - > flag . mqtt_sensor_retain ) ;
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}
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} else { // else don't and clear
ResponseClear ( ) ;
}
} while ( sensor < numsensors ) ;
}
void MI32Show ( bool json )
{
// don't detect half-added ones here
int numsensors = MIBLEsensors . size ( ) ;
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if ( json ) {
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// TELE JSON messages now do nothing here, apart from set MI32.mqttCurrentSlot
// which will trigger send next second of up to 4 sensors, then the next four in the next second, etc.
//MI32.mqttCurrentSlot = 0;
# ifdef USE_WEBSERVER
} else {
static uint16_t _page = 0 ;
static uint16_t _counter = 0 ;
int32_t i = _page * MI32 . perPage ;
uint32_t j = i + MI32 . perPage ;
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if ( j + 1 > numsensors ) {
j = numsensors ;
}
char stemp [ 5 ] = { 0 } ;
if ( numsensors - ( _page * MI32 . perPage ) > 1 & & MI32 . perPage ! = 1 ) {
sprintf_P ( stemp , " -%u " , j ) ;
}
if ( numsensors = = 0 ) i = - 1 ; // only for the GUI
WSContentSend_PD ( HTTP_MI32 , i + 1 , stemp , numsensors ) ;
for ( i ; i < j ; i + + ) {
WSContentSend_PD ( HTTP_MI32_HL ) ;
mi_sensor_t * p ;
p = & MIBLEsensors [ i ] ;
const char * typeName = kMI32DeviceType [ p - > type - 1 ] ;
const char * alias = BLE_ESP32 : : getAlias ( p - > MAC ) ;
if ( alias & & * alias ) {
WSContentSend_PD ( HTTP_MI32_ALIAS , typeName , alias ) ;
}
char _MAC [ 18 ] ;
ToHex_P ( p - > MAC , 6 , _MAC , 18 ) ; //,':');
WSContentSend_PD ( HTTP_MI32_MAC , typeName , D_MAC_ADDRESS , _MAC ) ;
WSContentSend_PD ( HTTP_RSSI , typeName , p - > RSSI ) ;
// for some reason, display flora differently
switch ( p - > type ) {
case MI_FLORA : {
if ( ! isnan ( p - > temp ) ) {
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WSContentSend_Temp ( typeName , p - > temp ) ;
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}
if ( p - > moisture ! = 0xff ) {
WSContentSend_PD ( HTTP_SNS_MOISTURE , typeName , p - > moisture ) ;
}
if ( p - > fertility ! = 0xffff ) {
WSContentSend_PD ( HTTP_MI32_FLORA_DATA , typeName , p - > fertility ) ;
}
} break ;
default : {
if ( ! isnan ( p - > hum ) & & ! isnan ( p - > temp ) ) {
WSContentSend_THD ( typeName , p - > temp , p - > hum ) ;
}
}
}
# ifdef USE_MI_DECRYPTION
bool showkey = false ;
char tmp [ 40 ] ;
strcpy ( tmp , PSTR ( " KeyRqd " ) ) ;
switch ( p - > needkey ) {
default : {
snprintf ( tmp , 39 , PSTR ( " ?%d? " ) , p - > needkey ) ;
showkey = true ;
} break ;
case KEY_REQUIREMENT_UNKNOWN : {
strcpy ( tmp , PSTR ( " WAIT " ) ) ;
showkey = true ;
} break ;
case KEY_NOT_REQUIRED : {
strcpy ( tmp , PSTR ( " NOTKEY " ) ) ;
//showkey = true;
} break ;
case KEY_REQUIRED_BUT_NOT_FOUND : {
strcpy ( tmp , PSTR ( " NoKey " ) ) ;
showkey = true ;
} break ;
case KEY_REQUIRED_AND_FOUND : {
strcpy ( tmp , PSTR ( " KeyOk " ) ) ;
showkey = true ;
} break ;
case KEY_REQUIRED_AND_INVALID : {
strcpy ( tmp , PSTR ( " KeyInv " ) ) ;
showkey = true ;
} break ;
}
// adds the link to get the key.
// provides mac and callback address to receive the key, if we had a website which did this
// (future work)
if ( showkey ) {
BLE_ESP32 : : dump ( _MAC , 13 , p - > MAC , 6 ) ;
WSContentSend_PD ( HTTP_NEEDKEY , typeName , _MAC , Webserver - > client ( ) . localIP ( ) . toString ( ) . c_str ( ) , tmp ) ;
}
# endif //USE_MI_DECRYPTION
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if ( p - > feature . events ) {
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WSContentSend_PD ( HTTP_EVENTS , typeName , p - > events ) ;
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}
if ( p - > feature . NMT ) {
// no motion time
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if ( p - > NMT > 0 ) WSContentSend_PD ( HTTP_NMT , typeName , p - > NMT ) ;
}
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if ( p - > feature . lux ) {
if ( p - > lux ! = 0x00ffffff ) { // this is the error code -> no valid value
WSContentSend_PD ( HTTP_SNS_ILLUMINANCE , typeName , p - > lux ) ;
}
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}
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if ( p - > feature . light ) {
WSContentSend_PD ( HTTP_MI32_LIGHT , typeName , p - > light ) ;
}
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if ( p - > feature . scale ) {
WSContentSend_PD ( HTTP_MISCALE_WEIGHT , typeName , Settings - > flag2 . weight_resolution , & p - > weight , p - > weight_unit ) ;
if ( p - > has_impedance ) {
WSContentSend_PD ( HTTP_MISCALE_IMPEDANCE , typeName , p - > impedance ) ;
}
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if ( MI32 . option . directBridgeMode ) {
WSContentSend_PD ( HTTP_MISCALE_WEIGHT_REMOVED , typeName , p - > weight_removed ? PSTR ( " yes " ) : PSTR ( " no " ) ) ;
WSContentSend_PD ( HTTP_MISCALE_STABILIZED , typeName , p - > stabilized ? PSTR ( " yes " ) : PSTR ( " no " ) ) ;
}
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}
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if ( p - > bat ! = 0x00 ) {
WSContentSend_PD ( HTTP_BATTERY , typeName , p - > bat ) ;
}
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if ( p - > feature . Btn ) {
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WSContentSend_PD ( HTTP_LASTBUTTON , typeName , p - > Btn ) ;
}
if ( p - > pairing ) {
WSContentSend_PD ( HTTP_PAIRING , typeName ) ;
}
}
_counter + + ;
if ( _counter > 3 ) {
_page + + ;
_counter = 0 ;
}
if ( MIBLEsensors . size ( ) % MI32 . perPage = = 0 & & _page = = MIBLEsensors . size ( ) / MI32 . perPage ) { _page = 0 ; }
if ( _page > MIBLEsensors . size ( ) / MI32 . perPage ) { _page = 0 ; }
# endif // USE_WEBSERVER
}
}
/*********************************************************************************************\
* Interface
\ * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
# define WEB_HANDLE_MI32 "mikey"
bool Xsns62 ( uint8_t function )
{
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// if (!Settings->flag5.mi32_enable) { return false; } // SetOption115 - Enable ESP32 MI32 BLE
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// return false;
bool result = false ;
switch ( function ) {
case FUNC_INIT :
MI32Init ( ) ;
break ;
case FUNC_EVERY_50_MSECOND :
MI32Every50mSecond ( ) ;
break ;
case FUNC_EVERY_SECOND :
MI32EverySecond ( false ) ;
break ;
case FUNC_COMMAND :
result = DecodeCommand ( kMI32_Commands , MI32_Commands ) ;
break ;
case FUNC_JSON_APPEND :
// we are not in control of when this is called...
//MI32Show(1);
break ;
# ifdef USE_WEBSERVER
case FUNC_WEB_ADD_HANDLER :
WebServer_on ( PSTR ( " / " WEB_HANDLE_MI32 ) , HandleMI32Key ) ;
break ;
case FUNC_WEB_SENSOR :
MI32Show ( 0 ) ;
break ;
# endif // USE_WEBSERVER
}
return result ;
}
# endif // USE_MI_ESP32
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# endif // CONFIG_IDF_TARGET_ESP32 or CONFIG_IDF_TARGET_ESP32C3
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# endif // ESP32
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# endif