Tasmota/tasmota/xdrv_79_esp32_ble.ino

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/*
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xdrv_79_esp32_ble.ino - BLE via ESP32 support for Tasmota
Copyright (C) 2020 Christian Baars and Theo Arends and Simon Hailes
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
- 20210402 additions expand MAC storage to 7, enables type of mac.
Add bledetails4
--------------------------------------------------------------------------------------------
*/
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// TEMPORARILY define ESP32 and USE_BLE_ESP32 so VSCODE shows highlighting....
//#define VSCODE_DEV
#ifdef VSCODE_DEV
#define ESP32
#define USE_BLE_ESP32
#endif
#ifdef ESP32 // ESP32 only. Use define USE_HM10 for ESP8266 support
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#if CONFIG_IDF_TARGET_ESP32
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#ifdef USE_BLE_ESP32
/*
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xdrv_79:
This driver uses the ESP32 BLE functionality to hopefully provide enough
BLE functionality to implement specific drivers on top of it.
As a generic driver, it can:
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Be asked to
connect/write to a MAC/Service/Characteristic
connect/read from a MAC/Service/Characteristic
connect/write/awaitnotify from a MAC/Service/Characteristic/NotifyCharacteristic
connect/read/awaitnotify from a MAC/Service/Characteristic/NotifyCharacteristic
Notes on MAC addresses:
BLE MAC addresses come in different 'flavours'
Anywhere where you enter a MNAC addr, you can now use these forms:
AABBCCDDEEFF
AABBCCDDEEFF/n (n = 0..3) where n indicates the TYPE of address
most notably, if you wish to connect to a random address (n = 1), then you must specify,
else it will not connect.
e.g. to alias a random address to fred:
BLEAlias fred=1234567890/1
to connect and read fred's name:
BLEName fred
BLEName 1234567890/1 - would succeed (if freds name can be read)
BLEName 1234567890 - would fail
technical changes: all MAC storage has been increased to 7 bytes, with the last byte being the type...
Cmnds:
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BLEPeriod
set the period for BLE tele
BLEAdv - unused
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BLEOp
advanced - perform a BLE active operation
mainly for debug or unsupported devices.
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BLEMode
control scanning mode
0 - stop BLE
1 - run BLE but manual scan
*2 - run BLE with auto scan
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BLEDetails
display details of adverts
BLEdetails0 - no display
BLEdetails2 <mac|alias> - display for one device
BLEdetails3 - display for ALL devices
BLEdetails4 - display for all aliased devices
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BLEScan
performs a manual scan or set passive/active
*BLEScan0 0 - set passive scan
BLEScan0 1 - set active scan (you may get names)
BLEScan1 nn - start a manula scan for nn seconds
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BLEAlias
<mac>=<name> <mac>=<name> - set one or more aliases for addresses
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BLEName
read/write the name from a device using active read of a std characteristic
BLEName <mac|alias> - read the name
BLEName <mac|alias> <name> - write the name - few devices support this
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BLEDebug
enable more debug
BLEDebug0 - turn off
BLEDebug|BLEDebug1 - turn on
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BLEDevices
display or clear the devices list
BLEDevices0 - clear list
BLEDevices1 - publish on tele
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BLEMaxAge
display or set the max age of a BLE address before being forgotten
BLEMaxAge - display the setting
BLEMaxAge nn - set to nn seconds
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BLEAddrFilter
*0/1/2/3 - the maximum 'type' of BLE address recevied
BLEEnableUnsaved
*0/1 - if BLE is disabled, this can be used to enable BLE without
it being saved - useful as the last command in autoexec.bat
Other drivers can add callbacks to receive advertisements
Other drivers can add 'operations' to be performed and receive callbacks from the operation's success or failure
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Example BLEOp:
Write and request next notify:
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BLEOp M:4C65A8DAF43A s:00001530-1212-efde-1523-785feabcd123 n:00001531-1212-efde-1523-785feabcd123 c:00001531-1212-efde-1523-785feabcd123 w:00 go
12:45:12 MQT: tele/tasmota_esp32/BLE = {"BLEOperation":{"opid":"11","stat":"7","state":"DONENOTIFIED","MAC":"4C65A8DAF43A","svc":"00001530-1212-efde-1523-785feabcd123","char":"00001531-1212-efde-1523-785feabcd123","notifychar":"00001531-1212-efde-1523-785feabcd123","write":"00","notify":"100003"}}
The driver can also be used by other drivers, using the functions:
void registerForAdvertismentCallbacks(char *loggingtag, ADVERTISMENT_CALLBACK* pFn);
void registerForOpCallbacks(char *loggingtag, OPCOMPLETE_CALLBACK* pFn);
bool extQueueOperation(generic_sensor_t** op);
These allow other code to
receive advertisements
receive operation callbacks.
create and start an operation, and get a callback when done/failed.
i.e. the Bluetooth of the ESP can be shared without conflict.
*/
#define BLE_ESP32_ALIASES
// uncomment for more diagnostic/information messages - + more flash use.
//#define BLE_ESP32_DEBUG
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#define XDRV_79 79
#include <vector>
#include <deque>
#include <string.h>
#include <cstdarg>
#include <NimBLEDevice.h>
#include <NimBLEAdvertisedDevice.h>
#include "NimBLEEddystoneURL.h"
#include "NimBLEEddystoneTLM.h"
#include "NimBLEBeacon.h"
// from ble_gap.c
extern "C" void ble_gap_conn_broken(uint16_t conn_handle, int reason);
#ifdef BLE_ESP32_EXAMPLES
void installExamples();
void sendExample();
#endif
namespace BLE_ESP32 {
// generic sensor type used as during
// connect/read/wrtie/notify operations
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// only one operation will happen at a time
#pragma pack( push, 0 ) // aligned structures for speed. but be sepcific
/////////////////////////////////////////////////////
// states for runTaskDoneOperation
#define GEN_STATE_IDLE 0
#define GEN_STATE_START 1
#define GEN_STATE_STARTED 2
#define GEN_STATE_READDONE 3
#define GEN_STATE_WRITEDONE 4
#define GEN_STATE_WAITNOTIFY 5
#define GEN_STATE_WAITINDICATE 6
#define GEN_STATE_NOTIFIED 7
// Errors are all base on 0x100
#define GEN_STATE_FAILED -1
#define GEN_STATE_FAILED_CANTNOTIFYORINDICATE -2
#define GEN_STATE_FAILED_CANTREAD -3
#define GEN_STATE_FAILED_CANTWRITE -4
#define GEN_STATE_FAILED_NOSERVICE -5
#define GEN_STATE_FAILED_NO_RW_CHAR -6
#define GEN_STATE_FAILED_NONOTIFYCHAR -7
#define GEN_STATE_FAILED_NOTIFYTIMEOUT -8
#define GEN_STATE_FAILED_READ -9
#define GEN_STATE_FAILED_WRITE -10
#define GEN_STATE_FAILED_CONNECT -11
#define GEN_STATE_FAILED_NOTIFY -12
#define GEN_STATE_FAILED_INDICATE -13
#define GEN_STATE_FAILED_NODEVICE -14
#define GEN_STATE_FAILED_NOREADWRITE -15
#define GEN_STATE_FAILED_CANCEL -16
//
/////////////////////////////////////////////////////
#define BLE_ESP32_MAXNAMELEN 32
#define BLE_ESP32_MAXALIASLEN 20
#define MAX_BLE_DATA_LEN 100
struct generic_sensor_t {
int16_t state;
uint32_t opid; // incrementing id so we can find them
uint64_t notifytimer;
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// uint8_t cancel;
// uint8_t requestType;
NimBLEAddress addr;
NimBLEUUID serviceUUID;
NimBLEUUID characteristicUUID;
NimBLEUUID notificationCharacteristicUUID;
uint8_t dataToWrite[MAX_BLE_DATA_LEN];
uint8_t writelen;
uint8_t dataRead[MAX_BLE_DATA_LEN];
uint8_t readlen;
uint8_t readtruncated;
uint8_t dataNotify[MAX_BLE_DATA_LEN];
uint8_t notifylen;
uint8_t notifytruncated;
// 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.
// i.e. modify dataToWrite and writelen according to what you see in readData and readlen.
// for a normal read, please use the OPCOMPLETE_CALLBACK 'completecallback'
// normally null
void *readmodifywritecallback; // READ_CALLBACK function, used by external drivers
void *completecallback; // OPCOMPLETE_CALLBACK function, used by external drivers
void *context; // opaque context, used by external drivers, or can be set to a long for MQTT
};
////////////////////////////////////////////////////////////////
// structure for callbacks from other drivers from advertisements.
struct ble_advertisment_t {
BLEAdvertisedDevice *advertisedDevice; // the full NimBLE advertisment, in case people need MORE info.
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uint32_t totalCount;
uint8_t addr[6];
uint8_t addrtype;
int8_t RSSI;
char name[BLE_ESP32_MAXNAMELEN+1];
};
struct ble_alias_t {
uint8_t addr[7];
char name[BLE_ESP32_MAXALIASLEN+1];
};
/*
This is probabyl what you are looking for:
ble_gap_addr_t gap_addr;
gap_addr.addr_type = BLE_GAP_ADDR_TYPE_PUBLIC; //Public address 0x00
gap_addr.addr_type = BLE_GAP_ADDR_TYPE_RANDOM_STATIC; //Random static address 0x01
gap_addr.addr_type = BLE_GAP_ADDR_TYPE_RANDOM_PRIVATE_RESOLVABLE; //Random private resolvable address 0x02
gap_addr.addr_type = BLE_GAP_ADDR_TYPE_RANDOM_PRIVATE_NON_RESOLVABLE; //Random private non-resolvable address 0x03
*/
#pragma pack( pop ) // byte-aligned structures to read the sensor data
////////////////////////////////////////////////////////////////
///////////////////////////////////////////////////////////////////////
// External interface to this driver for use by others.
//
// callback types to be used by external drivers
//
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// returns -
// 0 = let others see this,
// 1 = I processed this, no need to give it to the next callback
// 2 = I want this device erased from the scan
typedef int ADVERTISMENT_CALLBACK(BLE_ESP32::ble_advertisment_t *pStruct);
// returns - 0 = let others see this, 1 = I processed this, no need to give it to the next callback, or post on MQTT
typedef int OPCOMPLETE_CALLBACK(BLE_ESP32::generic_sensor_t *pStruct);
// 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.
typedef int READ_CALLBACK(BLE_ESP32::generic_sensor_t *pStruct);
typedef int SCANCOMPLETE_CALLBACK(NimBLEScanResults results);
// tag is just a name for logging
void registerForAdvertismentCallbacks(const char *tag, BLE_ESP32::ADVERTISMENT_CALLBACK* pFn);
void registerForOpCallbacks(const char *tag, BLE_ESP32::OPCOMPLETE_CALLBACK* pFn);
void registerForScanCallbacks(const char *tag, BLE_ESP32::SCANCOMPLETE_CALLBACK* pFn);
////////////////////////////////////////////////////
// BLE operations: these are currently 'new'ed and 'delete'ed.
// in the future, they may be allocated from some constant menory store to avoid fragmentation.
// so PLEASE don't create or destroy them yourselves.
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// create a new BLE operation.
int newOperation(BLE_ESP32::generic_sensor_t** op);
// free a BLE operation - this should be done if you did not call extQueueOperation for some reason
int freeOperation(BLE_ESP32::generic_sensor_t** op);
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// queue a BLE operation - it will happen some time in the future.
// Note: you do not need to free an operation once it have been queued. it will be freed by the driver.
int extQueueOperation(BLE_ESP32::generic_sensor_t** op);
const char * getStateString(int state);
///////////////////////////////////////////////////////////////////////
#define USE_NATIVE_LOGGING
// a temporay safe logging mechanism. This has a max of 40 chars, and a max of 15 slots per 50ms
//int SafeAddLog_P(uint32_t loglevel, PGM_P formatP, ...);
static void BLEDiag();
const char *getAlias(const uint8_t *addr);
//void BLEAliasMqttList();
void BLEAliasListResp();
////////////////////////////////////////////////////////////////////////
// utilities
// dump a binary to hex
char * dump(char *dest, int maxchars, const uint8_t *src, int len);
struct BLE_simple_device_t {
uint8_t mac[6];
uint8_t addrtype;
char name[BLE_ESP32_MAXNAMELEN+1];
int8_t RSSI;
uint64_t lastseen; // last seen us
uint16_t maxAge; // maximum observed age of this device
};
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// this protects our queues, which can be accessed by multiple tasks
SemaphoreHandle_t BLEOperationsRecursiveMutex;
SemaphoreHandle_t BLEDevicesMutex;
// only run from main thread, because it deletes things that were newed there...
static void mainThreadOpCallbacks();
static void mainThreadBLETimeouts();
int addOperation(std::deque<BLE_ESP32::generic_sensor_t*> *ops, BLE_ESP32::generic_sensor_t** op);
BLE_ESP32::generic_sensor_t* nextOperation(std::deque<BLE_ESP32::generic_sensor_t*> *ops);
std::string BLETriggerResponse(BLE_ESP32::generic_sensor_t *toSend);
static void BLEscanEndedCB(NimBLEScanResults results);
static void BLEGenNotifyCB(NimBLERemoteCharacteristic* pRemoteCharacteristic, uint8_t* pData, size_t length, bool isNotify);
// this is called from the advert callback, be careful
void BLEPostAdvert(ble_advertisment_t *Advertisment);
static void BLEPostMQTTSeenDevices(int type);
static void BLEShowStats();
static void BLEPostMQTT(bool json);
static void BLEStartOperationTask();
// these are only run from the run task
static void BLETaskRunCurrentOperation(BLE_ESP32::generic_sensor_t** pCurrentOperation, NimBLEClient **ppClient);
static void BLETaskRunTaskDoneOperation(BLE_ESP32::generic_sensor_t** op, NimBLEClient **ppClient);
int BLETaskStartScan(int time);
// these are run from main thread
static int StartBLE(void);
static int StopBLE(void);
// called from advert callback
void setDetails(ble_advertisment_t *ad);
#undef EXAMPLE_ADVERTISMENT_CALLBACK
#undef EXAMPLE_OPERATION_CALLBACK
#ifdef EXAMPLE_ADVERTISMENT_CALLBACK
int myAdvertCallback(BLE_ESP32::ble_advertisment_t *pStruct);
#endif
#ifdef EXAMPLE_OPERATION_CALLBACK
int myOpCallback(BLE_ESP32::generic_sensor_t *pStruct);
int myOpCallback2(BLE_ESP32::generic_sensor_t *pStruct);
#endif
// single storage for advert callbacks....
static ble_advertisment_t BLEAdvertisment;
//////////////////////////////////////////////////
// general variables for running the driver
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TaskHandle_t TasmotaMainTask;
static int BLEMasterEnable = 0;
static uint8_t BLEEnableUnsaved = 0;
static uint8_t BLEEnableMask = 1;
static int BLEInitState = 0;
static int BLERunningScan = 0;
static uint32_t BLEScanCount = 0;
static uint8_t BLEScanActiveMode = 0;
static uint32_t BLELoopCount = 0;
static uint32_t BLEOpCount = 0;
static int BLEPublishDevices = 0; // causes MQTT publish of device list (each scan end)
static BLEScan* ble32Scan = nullptr;
bool BLERunning = false;
// time we last started a scan in uS using esp_timer_get_time();
// used to setect a scan which did not call back?
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uint64_t BLEScanStartedAt = 0;
uint64_t BLEScanToEndBefore = 0;
uint8_t BLEStopScan = 0;
uint8_t BLEOtaStallBLE = 0;
uint8_t BLEDebugMode = 0;
int BLEMaxTaskLoopTime = 120; // we expect the task to NOT take > 120s per loop!!!
uint64_t BLELastLoopTime = 0;
int BLEScanTimeS = 20; // scan duraiton in S
int BLEMaxTimeBetweenAdverts = 120; // we expect an advert at least this frequently, else restart BLE (in S)
uint64_t BLEScanLastAdvertismentAt = 0;
uint32_t lastopid = 0; // incrementing uinique opid
uint32_t BLEResets = 0;
// controls request of details about one device
uint8_t BLEDetailsRequest = 0;
uint8_t BLEDetailsMac[6];
uint8_t BLEAliasListTrigger = 0;
// triggers send for ALL operations known about
uint8_t BLEPostMQTTTrigger = 0;
int BLEMaxAge = 60*10; // 10 minutes
int BLEAddressFilter = 0;
//////////////////////////////////////////////////
// operation being prepared through commands
BLE_ESP32::generic_sensor_t* prepOperation = nullptr;
// operations which have been queued
std::deque<BLE_ESP32::generic_sensor_t*> queuedOperations;
// operations in progress (at the moment, only one)
std::deque<BLE_ESP32::generic_sensor_t*> currentOperations;
// operations which have completed or failed
std::deque<BLE_ESP32::generic_sensor_t*> completedOperations;
// operations which are ready to send to MQTT
std::deque<BLE_ESP32::generic_sensor_t*> mqttOperations;
// seen devices
#define MAX_BLE_DEVICES_LOGGED 80
std::deque<BLE_ESP32::BLE_simple_device_t*> seenDevices;
std::deque<BLE_ESP32::BLE_simple_device_t*> freeDevices;
// list of registered callbacks for advertisements
// register using void registerForAdvertismentCallbacks(const char *somename ADVERTISMENT_CALLBACK* pFN);
std::deque<BLE_ESP32::ADVERTISMENT_CALLBACK*> advertismentCallbacks;
std::deque<BLE_ESP32::OPCOMPLETE_CALLBACK*> operationsCallbacks;
std::deque<BLE_ESP32::SCANCOMPLETE_CALLBACK*> scancompleteCallbacks;
#ifdef BLE_ESP32_ALIASES
std::deque<BLE_ESP32::ble_alias_t*> aliases;
#endif
/*********************************************************************************************\
* constants
\*********************************************************************************************/
#define D_CMND_BLE "BLE"
const char kBLE_Commands[] PROGMEM = D_CMND_BLE "|"
"Period|Adv|Op|Mode|Details|Scan|Alias|Name|Debug|Devices|MaxAge|AddrFilter|EnableUnsaved";
static void CmndBLEPeriod(void);
static void CmndBLEAdv(void);
static void CmndBLEOperation(void);
static void CmndBLEMode(void);
static void CmndBLEDetails(void);
static void CmndBLEScan(void);
static void CmndBLEAlias(void);
static void CmndBLEName(void);
static void CmndBLEDebug(void);
static void CmndBLEDevices(void);
static void CmndBLEMaxAge(void);
static void CmndBLEAddrFilter(void);
static void CmndBLEEnableUnsaved(void);
void (*const BLE_Commands[])(void) PROGMEM = {
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&BLE_ESP32::CmndBLEPeriod,
&BLE_ESP32::CmndBLEAdv,
&BLE_ESP32::CmndBLEOperation,
&BLE_ESP32::CmndBLEMode,
&BLE_ESP32::CmndBLEDetails,
&BLE_ESP32::CmndBLEScan,
&BLE_ESP32::CmndBLEAlias,
&BLE_ESP32::CmndBLEName,
&BLE_ESP32::CmndBLEDebug,
&BLE_ESP32::CmndBLEDevices,
&BLE_ESP32::CmndBLEMaxAge,
&BLE_ESP32::CmndBLEAddrFilter,
&BLE_ESP32::CmndBLEEnableUnsaved
};
const char *successStates[] PROGMEM = {
PSTR("IDLE"), // 0
PSTR("START"),
PSTR("STARTED"),
PSTR("DONEREAD"),
PSTR("DONEWRITE"),
PSTR("WAITNOTIFY"),
PSTR("WAITINDICATE"),
PSTR("DONENOTIFIED") // 7
};
const char *failStates[] PROGMEM = {
PSTR("IDLE"), //0
PSTR("FAILED"), //-1
PSTR("FAILCANTNOTIFYORINDICATE"),
PSTR("FAILCANTREAD"),
PSTR("FAILCANTWRITE"),
PSTR("FAILNOSERVICE"),
PSTR("FAILNORWCHAR"), //-6
PSTR("FAILNONOTIFYCHAR"),
PSTR("FAILNOTIFYTIMEOUT"),
PSTR("FAILEREAD"),
PSTR("FAILWRITE"),
PSTR("FAILCONNECT"),
PSTR("FAILNOTIFY"),
PSTR("FAILINDICATE"),
PSTR("FAILNODEVICE"),
PSTR("FAILNOREADWRITE"),
PSTR("FAILCANCEL")// -16
};
const char * getStateString(int state){
if ((state >= 0) && (state < sizeof(successStates)/sizeof(*successStates))){
return successStates[state];
}
state = -state;
if ((state >= 0) && (state < sizeof(failStates)/sizeof(*failStates))){
return failStates[state];
}
return PSTR("STATEINVALID");
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}
/*********************************************************************************************\
* enumerations
\*********************************************************************************************/
enum BLE_Commands { // commands useable in console or rules
CMND_BLE_PERIOD, // set period like TELE-period in seconds between read-cycles
CMND_BLE_ADV, // change advertisment options at runtime
CMND_BLE_OP, // connect/read/write/notify operations
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CMND_BLE_MODE, // change mode of ble - BLE_MODES
CMND_BLE_DETAILS, // get details for one device's adverts
CMND_BLE_SCAN // Scan control
};
enum {
BLEModeDisabled = 0, // BLE is disabled
BLEModeScanByCommand = 1, // BLE is activeated by commands only
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BLEModeRegularScan = 2, // BLE is scanning all the time
} BLE_SCAN_MODES;
// values of BLEAdvertMode
enum {
BLE_NO_ADV_SEND = 0, // driver is silent on MQTT regarding adverts
BLE_ADV_TELE = 1, // driver sends a summary at tele period
//BLE_ADV_ALL = 2, // driver sends every advert with full data to MQTT
} BLEADVERTMODE;
uint8_t BLEMode = BLEModeRegularScan;
//uint8_t BLEMode = BLEModeScanByCommand;
uint8_t BLETriggerScan = 0;
uint8_t BLEAdvertMode = BLE_ADV_TELE;
uint8_t BLEdeviceLimitReached = 0;
uint8_t BLEStop = 0;
uint64_t BLEStopAt = 0;
uint8_t BLERestartTasmota = 0;
uint8_t BLERestartNimBLE = 0;
const char *BLE_RESTART_TEAMOTA_REASON_UNKNOWN = PSTR("unknown");
const char *BLE_RESTART_TEAMOTA_REASON_RESTARTING_BLE_TIMEOUT = PSTR("restarting BLE took > 5s");
const char *BLE_RESTART_TEAMOTA_REASON_BLE_LOOP_STALLED = PSTR("BLE loop stalled > 120s");
const char *BLE_RESTART_TEAMOTA_REASON_BLE_DISCONNECT_FAIL = PSTR("BLE disconnect taking > 60s");
const char *BLERestartTasmotaReason = BLE_RESTART_TEAMOTA_REASON_UNKNOWN;
const char *BLE_RESTART_BLE_REASON_UNKNOWN = PSTR("unknown");
const char *BLE_RESTART_BLE_REASON_ADVERT_BLE_TIMEOUT = PSTR("no adverts in 120s");
const char *BLE_RESTART_BLE_REASON_CONN_LIMIT = PSTR("connect failed with connection limit reached");
const char *BLE_RESTART_BLE_REASON_CONN_EXISTS = PSTR("connect failed with connection exists");
const char *BLERestartBLEReason = nullptr;
/*********************************************************************************************\
* log of all devices present
\*********************************************************************************************/
void initSeenDevices(){
/* added dynamically below, but never removed.
for (int i = 0; i < MAX_BLE_DEVICES_LOGGED; i++){
BLE_ESP32::BLE_simple_device_t* dev = new BLE_ESP32::BLE_simple_device_t;
freeDevices.push_back(dev);
}
*/
return;
}
int addSeenDevice(const uint8_t *mac, uint8_t addrtype, const char *name, int8_t RSSI){
int res = 0;
uint64_t now = esp_timer_get_time();
TasAutoMutex localmutex(&BLEDevicesMutex, "BLEAdd");
int devicefound = 0;
// do we already know this device?
for (int i = 0; i < seenDevices.size(); i++){
if (!memcmp(seenDevices[i]->mac, mac, 6)){
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seenDevices[i]->lastseen = now;
seenDevices[i]->addrtype = addrtype;
seenDevices[i]->RSSI = RSSI;
if ((!seenDevices[i]->name[0]) && name[0]){
strncpy(seenDevices[i]->name, name, sizeof(seenDevices[i]->name));
seenDevices[i]->name[sizeof(seenDevices[i]->name)-1] = 0;
}
devicefound = 1;
break;
}
}
if (!devicefound){
// if no free slots, add one if we have not reached our limit
if (!freeDevices.size()){
int total = seenDevices.size();
if (total < MAX_BLE_DEVICES_LOGGED){
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#ifdef BLE_ESP32_DEBUG
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if (BLEDebugMode > 0) AddLog(LOG_LEVEL_INFO,PSTR("BLE: New seendev slot %d"), total);
#endif
BLE_ESP32::BLE_simple_device_t* dev = new BLE_ESP32::BLE_simple_device_t;
freeDevices.push_back(dev);
} else {
// flag we hit the limit
BLEdeviceLimitReached ++;
if (BLEdeviceLimitReached >= 254){
BLEdeviceLimitReached = 254;
}
}
}
// get a new device from the free list
if (freeDevices.size()){
BLE_ESP32::BLE_simple_device_t* dev = freeDevices[0];
freeDevices.erase(freeDevices.begin());
memcpy(dev->mac, mac, 6);
strncpy(dev->name, name, sizeof(dev->name));
dev->name[sizeof(dev->name)-1] = 0;
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dev->lastseen = now;
dev->addrtype = addrtype;
dev->RSSI = RSSI;
dev->maxAge = 1;
seenDevices.push_back(dev);
res = 2; // added
}
} else {
res = 1; // already there
}
return res;
}
// remove devices from the seen list by age, and add them to the free list
// set ageS to 0 to delete all...
int deleteSeenDevices(int ageS = 0){
int res = 0;
uint64_t now = esp_timer_get_time();
now = now/1000L;
now = now/1000L;
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uint32_t nowS = (uint32_t)now;
uint32_t mintime = nowS - ageS;
{
TasAutoMutex localmutex(&BLEDevicesMutex, "BLEDel");
for (int i = seenDevices.size()-1; i >= 0; i--){
BLE_ESP32::BLE_simple_device_t* dev = seenDevices[i];
uint64_t lastseen = dev->lastseen/1000L;
lastseen = lastseen/1000L;
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uint32_t lastseenS = (uint32_t) lastseen;
uint32_t del_at = lastseenS + ageS;
uint32_t devAge = nowS - lastseenS;
if (dev->maxAge < devAge){
dev->maxAge = devAge;
}
uint8_t filter = 0;
if (dev->addrtype > BLEAddressFilter){
filter = 1;
}
if ((del_at < nowS) || (ageS == 0) || filter){
#ifdef BLE_ESP32_DEBUG
char addr[20];
dump(addr, 20, dev->mac, 6);
const char *alias = getAlias(dev->mac);
if (!filter){
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AddLog(LOG_LEVEL_INFO,PSTR("BLE: Delete device %s(%s) by age lastseen %u + maxage %u < now %u."),
addr, alias, lastseenS, ageS, nowS);
} else {
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AddLog(LOG_LEVEL_INFO,PSTR("BLE: Delete device %s(%s) by addrtype filter %d > %d."),
addr, alias, dev->addrtype, BLEAddressFilter);
}
#endif
seenDevices.erase(seenDevices.begin()+i);
freeDevices.push_back(dev);
res++;
}
}
}
if (res){
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#ifdef BLE_ESP32_DEBUG
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AddLog(LOG_LEVEL_INFO,PSTR("BLE: Deleted %d devices"), res);
#endif
}
return res;
}
int deleteSeenDevice(uint8_t *mac){
int res = 0;
TasAutoMutex localmutex(&BLEDevicesMutex, "BLEDel2");
for (int i = 0; i < seenDevices.size(); i++){
if (!memcmp(seenDevices[i]->mac, mac, 6)){
BLE_ESP32::BLE_simple_device_t* dev = seenDevices[i];
seenDevices.erase(seenDevices.begin()+i);
freeDevices.push_back(dev);
res = 1;
break;
}
}
return res;
}
void checkDeviceTimouts(){
if (BLEMaxAge){
deleteSeenDevices(BLEMaxAge);
}
}
///////////////////////////////////////////////////////
// returns age of device or 0. if age IS0, returns 1s
uint32_t devicePresent(uint8_t *mac){
int res = 0;
uint64_t now = esp_timer_get_time();
now = now/1000L;
now = now/1000L;
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uint32_t nowS = (uint32_t)now;
TasAutoMutex localmutex(&BLEDevicesMutex, "BLEPRes");
for (int i = 0; i < seenDevices.size(); i++){
if (!memcmp(seenDevices[i]->mac, mac, 6)){
uint64_t lastseen = seenDevices[i]->lastseen/1000L;
lastseen = lastseen/1000L;
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uint32_t lastseenS = (uint32_t) lastseen;
uint32_t ageS = nowS-lastseenS;
if (!ageS) ageS++;
res = ageS;
break;
}
}
return res;
}
// the MAX we could expect.
#define MAX_DEV_JSON_NAME_LEN BLE_ESP32_MAXNAMELEN
#define MAX_DEV_JSON_RSSI_LEN 3
#define MAX_DEV_JSON_INDEX_LEN 3
#define MAX_DEV_JSON_ALIAS_LEN BLE_ESP32_MAXALIASLEN
// "001122334455":{"i":123,"n":"01234567890123456789","r":-77}\0
#define MIN_REQUIRED_DEVJSON_LEN \
(1+12+1 + 1 + 1 + \
+4 + MAX_DEV_JSON_INDEX_LEN \
+1 + 4 + MAX_DEV_JSON_NAME_LEN + 2 \
+1 + 4 + MAX_DEV_JSON_RSSI_LEN + 2 \
+1 + 4 + MAX_DEV_JSON_ALIAS_LEN + 2 \
+1 +1 \
)
int getSeenDeviceToJson(int index, BLE_ESP32::BLE_simple_device_t* dev, char **dest, int *maxlen){
char *p = *dest;
// add 20 to be sure
if (*maxlen < MIN_REQUIRED_DEVJSON_LEN+20){
return 0;
}
// add mac as key
*((*dest)++) = '"';
dump((*dest), 20, dev->mac, 6);
(*dest) += 12;
*((*dest)++) = '"';
*((*dest)++) = ':';
// add a structure, so we COULD add more than name later
*((*dest)++) = '{';
*((*dest)++) = '"';
*((*dest)++) = 'i'; // index
*((*dest)++) = '"';
*((*dest)++) = ':';
sprintf((*dest), "%d", index);
(*dest) += strlen((*dest));
if (dev->name[0]){
*((*dest)++) = ',';
*((*dest)++) = '"';
*((*dest)++) = 'n';
*((*dest)++) = '"';
*((*dest)++) = ':';
*((*dest)++) = '"';
*(*dest) = 0; // must term, else it adds to the *end* of old data!
strncat((*dest), dev->name, MAX_DEV_JSON_NAME_LEN);
(*dest) += strlen((*dest));
*((*dest)++) = '"';
}
*((*dest)++) = ',';
*((*dest)++) = '"';
*((*dest)++) = 'r';
*((*dest)++) = '"';
*((*dest)++) = ':';
sprintf((*dest), "%d", dev->RSSI);
(*dest) += strlen((*dest));
const char *alias = getAlias(dev->mac);
if (alias && alias[0]){
*((*dest)++) = ',';
*((*dest)++) = '"';
*((*dest)++) = 'a';
*((*dest)++) = '"';
*((*dest)++) = ':';
*((*dest)++) = '"';
sprintf((*dest), "%s", alias);
(*dest) += strlen((*dest));
*((*dest)++) = '"';
}
*((*dest)++) = '}';
*maxlen -= (*dest - p);
return 1;
}
int nextSeenDev = 0;
int getSeenDevicesToJson(char *dest, int maxlen){
if ((nextSeenDev == 0) || (nextSeenDev >= seenDevices.size())){
nextSeenDev = 0;
}
// deliberate test of SafeAddLog_P from main thread...
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//AddLog(LOG_LEVEL_INFO,PSTR("BLE: getSeen %d"), seenDevices.size());
int len;
if (!maxlen) return 0;
strcpy((dest), ",\"BLEDevices\":{");
len = strlen(dest);
dest += len;
maxlen -= len;
int added = 0;
TasAutoMutex localmutex(&BLEDevicesMutex, "BLEGet");
snprintf((dest), maxlen-5, "\"total\":%d", seenDevices.size());
len = strlen(dest);
dest += len;
maxlen -= len;
added = 1; // trigger ','
for (; nextSeenDev < seenDevices.size(); nextSeenDev++){
if (maxlen > MIN_REQUIRED_DEVJSON_LEN + 3){
if (added){
*(dest++) = ',';
maxlen--;
}
int res = getSeenDeviceToJson(nextSeenDev, seenDevices[nextSeenDev], &dest, &maxlen);
if (res) {
added++;
} else {
if (added){
dest--; // reverse out comma it the string did not get added
maxlen++;
break;
}
}
} else {
break;
}
}
*(dest++) = '}';
*(dest++) = '}';
*(dest++) = 0;
int remains = (seenDevices.size() - nextSeenDev);
return remains;
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}
/*********************************************************************************************\
* Mutex protected logging - max 5 logs of 40 chars
\*********************************************************************************************/
/*
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#ifdef BLE_ESP32_DEBUG
#define MAX_SAFELOG_LEN 40
#define MAX_SAFELOG_COUNT 25
#else
#define MAX_SAFELOG_LEN 20
#define MAX_SAFELOG_COUNT 5
#endif
struct safelogdata {
int level;
char log_data[MAX_SAFELOG_LEN];
};
std::deque<BLE_ESP32::safelogdata*> freelogs;
std::deque<BLE_ESP32::safelogdata*> filledlogs;
uint8_t filledlogsOverflows = 0;
SemaphoreHandle_t SafeLogMutex;
void initSafeLog(){
TasmotaMainTask = xTaskGetCurrentTaskHandle();
SafeLogMutex = xSemaphoreCreateMutex();
for (int i = 0; i < MAX_SAFELOG_COUNT; i++){
BLE_ESP32::safelogdata* logdata = new BLE_ESP32::safelogdata;
freelogs.push_back(logdata);
}
}
int SafeAddLog_P(uint32_t loglevel, PGM_P formatP, ...) {
TaskHandle_t thistask = xTaskGetCurrentTaskHandle();
int added = 0;
// if the log would not be output do nothing here.
if ((loglevel > Settings.weblog_level) &&
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(loglevel > TasmotaGlobal.seriallog_level) &&
(loglevel > Settings.mqttlog_level) &&
(loglevel > TasmotaGlobal.syslog_level)){
return added;
}
char BLE_temp_log_data[MAX_SAFELOG_LEN];
// as these are'expensive', let's not bother unless they are lower than the serial log level
#ifndef USE_NATIVE_LOGGING
xSemaphoreTake(SafeLogMutex, portMAX_DELAY);
#endif
int maxlen = sizeof(BLE_temp_log_data)-3;
if (thistask == TasmotaMainTask){
maxlen -= 13; // room for "-!MAINTHREAD!"
}
// assume this is thread safe - it may not be
va_list arg;
va_start(arg, formatP);
vsnprintf_P(BLE_temp_log_data, maxlen, formatP, arg);
va_end(arg);
#ifdef USE_NATIVE_LOGGING
AddLog_P(loglevel, PSTR("%s"), BLE_temp_log_data);
return 1;
#else
if (thistask == TasmotaMainTask){
loglevel = LOG_LEVEL_ERROR;
snprintf(BLE_temp_log_data + strlen(BLE_temp_log_data), 13, "-!MAINTHREAD!");
xSemaphoreGive(SafeLogMutex); // release mutex
AddLog_P(loglevel, PSTR("%s"), BLE_temp_log_data);
return 0;
}
if (freelogs.size()){
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BLE_ESP32::safelogdata* logdata = (freelogs)[0];
freelogs.pop_front();
logdata->level = loglevel;
memcpy(logdata->log_data, BLE_temp_log_data, sizeof(logdata->log_data));
filledlogs.push_back(logdata);
added = 1;
} else {
// can't log it?
filledlogsOverflows++;
}
xSemaphoreGive(SafeLogMutex); // release mutex
return added;
#endif
}
BLE_ESP32::safelogdata* GetSafeLog() {
xSemaphoreTake(SafeLogMutex, portMAX_DELAY);
if (filledlogs.size()){
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BLE_ESP32::safelogdata* logdata = (filledlogs)[0];
filledlogs.pop_front();
xSemaphoreGive(SafeLogMutex); // release mutex
return logdata;
}
xSemaphoreGive(SafeLogMutex); // release mutex
return nullptr;
}
void ReleaseSafeLog(BLE_ESP32::safelogdata* logdata){
xSemaphoreTake(SafeLogMutex, portMAX_DELAY);
freelogs.push_back(logdata);
xSemaphoreGive(SafeLogMutex); // release mutex
}
*/
/*********************************************************************************************\
* Helper functions
\*********************************************************************************************/
/**
* @brief Simple pair of functions to dump to a hex string.
*
*/
static const char h[] PROGMEM = "0123456789ABCDEF";
void hex(char *dest, uint8_t v){
*(dest++) = h[(v>>4)&0xf];
*(dest++) = h[v&0xf];
*(dest) = 0;
}
// convert from binary to hex.
// add a '+' on the end if not enough room.
char * dump(char *dest, int maxchars, const uint8_t *src, int len){
int lenmax = (maxchars-1)/2;
int actuallen = 0;
for (actuallen = 0; actuallen < lenmax && actuallen < len; actuallen++){
if (actuallen < lenmax){
hex(dest+actuallen*2, src[actuallen]);
}
}
if (actuallen != len){
*(dest+(actuallen*2)) = '+';
*(dest+(actuallen*2)+1) = 0;
}
return dest;
}
// convert from a hex string to binary
int fromHex(uint8_t *dest, const char *src, int maxlen){
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int srclen = strlen(src)/2;
if (srclen > maxlen){
return 0;
}
memset(dest, 0, maxlen);
for (int i = 0; i < srclen; i++){
char t[3];
t[0] = src[i*2];
t[1] = src[i*2 + 1];
t[2] = 0;
if (t[0] == '/'){
t[0] = '0';
}
if (t[1] == '/'){
t[1] = '0';
}
if (!isalnum(t[0])){
return 0;
}
if (!isalnum(t[1])){
return 0;
}
t[0] |= 0x20;
t[1] |= 0x20;
if (isalpha(t[0])){
if (t[0] < 'a' || t[0] > 'f'){
return 0;
}
}
if (isalpha(t[1])){
if (t[1] < 'a' || t[1] > 'f'){
return 0;
}
}
int byte = strtol(t, NULL, 16);
*dest++ = byte;
}
return srclen;
}
int fromMAC(uint8_t *dest, const char *src, int maxlen){
int len = fromHex(dest, src, maxlen);
if ((len == 6) && (maxlen == 7)){
dest[6] = 0;
len = 7;
}
return len;
}
/**
* @brief Reverse an array of 6 bytes
*
* @param _mac a byte array of size 6 (typicalliy representing a MAC address)
*/
void 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));
}
/*********************************************************************************************\
* Advertisment details
\*********************************************************************************************/
//ble_advertisment_t BLEAdvertismentDetails;
#define MAX_ADVERT_DETAILS 200
char BLEAdvertismentDetailsJson[MAX_ADVERT_DETAILS];
uint8_t BLEAdvertismentDetailsJsonSet = 0;
uint8_t BLEAdvertismentDetailsJsonLost = 0;
void setDetails(ble_advertisment_t *ad){
TasAutoMutex localmutex(&BLEOperationsRecursiveMutex, "BLESetDet");
if (BLEAdvertismentDetailsJsonSet){
BLEAdvertismentDetailsJsonLost = 1;
return;
}
char *p = BLEAdvertismentDetailsJson;
int maxlen = sizeof(BLEAdvertismentDetailsJson);
// just in case someone tries to read whilst we are writing
BLEAdvertismentDetailsJson[sizeof(BLEAdvertismentDetailsJson)-1] = 0;
*(p++) = '{';
maxlen--;
strcpy(p, "\"details\":{");
int len = strlen(p);
p += len;
maxlen -= len;
strcpy(p, "\"mac\":\"");
len = strlen(p);
p += len;
maxlen -= len;
dump(p, 14, ad->addr, 6);
len = strlen(p);
p += len;
maxlen -= len;
if (ad->addrtype){
*(p++) = '/';
*(p++) = 0x30+ad->addrtype;
}
*(p++) = '\"'; maxlen--;
const char *alias = BLE_ESP32::getAlias(ad->addr);
if (alias && (*alias)){
strcpy(p, ",\"a\":\"");
len = strlen(p);
p += len;
maxlen -= len;
strcpy(p, alias);
len = strlen(p);
p += len;
maxlen -= len;
*(p++) = '\"'; maxlen--;
}
sprintf(p, ",\"RSSI\":%d", ad->RSSI);
len = strlen(p);
p += len;
if (BLEAdvertismentDetailsJsonLost){
BLEAdvertismentDetailsJsonLost = 0;
strcpy(p, ",\"lost\":true");
len = strlen(p);
p += len;
maxlen -= len;
}
BLEAdvertisedDevice *advertisedDevice = ad->advertisedDevice;
uint8_t* payload = advertisedDevice->getPayload();
size_t payloadlen = advertisedDevice->getPayloadLength();
if (payloadlen && (maxlen > 30)){ // will truncate if not enough space
strcpy(p, ",\"p\":\"");
p += 6;
maxlen -= 6;
dump(p, maxlen-10, payload, payloadlen);
int len = strlen(p);
p += len;
maxlen -= len;
*(p++) = '\"'; maxlen--;
}
int svcdataCount = advertisedDevice->getServiceDataCount();
if (svcdataCount){
for (int i = 0; i < svcdataCount; i++){
NimBLEUUID UUID = advertisedDevice->getServiceDataUUID(i);//.getNative()->u16.value;
std::string ServiceData = advertisedDevice->getServiceData(i);
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size_t ServiceDataLength = ServiceData.length();
const uint8_t *serviceData = (const uint8_t *)ServiceData.data();
//char svcuuidstr[20];
std::string strUUID = UUID;
int svclen = strUUID.length();
svclen++; // ,
svclen += 3; // "":
svclen += ServiceDataLength*2;
svclen += 3; // ""}
if (maxlen -10 > svclen){
*(p++) = ',';
*(p++) = '\"';
strcpy(p, strUUID.c_str());
p += strUUID.length();
*(p++) = '\"';
*(p++) = ':';
*(p++) = '\"';
dump(p, ServiceDataLength*2+2, (uint8_t*)serviceData, ServiceDataLength);
int len = strlen(p);
p += len;
*(p++) = '\"';
maxlen -= len;
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}
}
}
*(p++) = '}'; maxlen--;
*(p++) = '}'; maxlen--;
*(p++) = 0; maxlen--;
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BLEAdvertismentDetailsJsonSet = 1;
}
// call from main thread only!
// post advertisment detail if available, then clear.
void postAdvertismentDetails(){
// if (TasmotaGlobal.ota_state_flag) return;
TasAutoMutex localmutex(&BLEOperationsRecursiveMutex, "BLEPostAdd");
if (BLEAdvertismentDetailsJsonSet){
strncpy(TasmotaGlobal.mqtt_data, BLEAdvertismentDetailsJson, sizeof(TasmotaGlobal.mqtt_data));
TasmotaGlobal.mqtt_data[sizeof(TasmotaGlobal.mqtt_data)-1] = 0;
BLEAdvertismentDetailsJsonSet = 0;
// we got the data, give before MQTT call.
localmutex.give();
// no retain - this is present devices, not historic
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MqttPublishPrefixTopicRulesProcess_P(TELE, PSTR("BLE"), 0);
} else {
}
}
/*********************************************************************************************\
* Classes
\*********************************************************************************************/
// does not really take any action
class BLESensorCallback : public NimBLEClientCallbacks {
void onConnect(NimBLEClient* pClient) {
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#ifdef BLE_ESP32_DEBUG
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if (BLEDebugMode > 0) AddLog(LOG_LEVEL_DEBUG,PSTR("BLE: onConnect %s"), ((std::string)pClient->getPeerAddress()).c_str());
#endif
}
void onDisconnect(NimBLEClient* pClient) {
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#ifdef BLE_ESP32_DEBUG
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if (BLEDebugMode > 0) AddLog(LOG_LEVEL_DEBUG,PSTR("BLE: onDisconnect %s"), ((std::string)pClient->getPeerAddress()).c_str());
#endif
}
bool onConnParamsUpdateRequest(NimBLEClient* pClient, const ble_gap_upd_params* params) {
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#ifdef BLE_ESP32_DEBUG
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if (BLEDebugMode > 0) AddLog(LOG_LEVEL_DEBUG,PSTR("BLE: onConnParamsUpdateRequest %s"), ((std::string)pClient->getPeerAddress()).c_str());
#endif
// if(params->itvl_min < 24) { /** 1.25ms units */
// return false;
// } else if(params->itvl_max > 300) { /** 1.25ms units */
// return false;
// } else if(params->latency > 2) { /** Number of intervals allowed to skip */
// return false;
// } else if(params->supervision_timeout > 6000) { /** 10ms units */
// return false;
// }
/*
if(params->itvl_min < 24) { // 1.25ms units
return false;
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} else if(params->itvl_max > 40) { // 1.25ms units
return false;
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} else if(params->latency > 2) { // Number of intervals allowed to skip
return false;
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} else if(params->supervision_timeout > 200) { /// 10ms units
return false;
}
return true;
*/
// just always reject thiers, and use ours.
return false;
}
};
static BLESensorCallback clientCB;
class BLEAdvCallbacks: public NimBLEAdvertisedDeviceCallbacks {
void onResult(NimBLEAdvertisedDevice* advertisedDevice) {
TasAutoMutex localmutex(&BLEOperationsRecursiveMutex, "BLEAddCB");
uint64_t now = esp_timer_get_time();
BLEScanLastAdvertismentAt = now; // note the time of the last advertisment
uint32_t totalCount = BLEAdvertisment.totalCount;
memset(&BLEAdvertisment, 0, sizeof(BLEAdvertisment));
BLEAdvertisment.totalCount = totalCount+1;
BLEAdvertisment.advertisedDevice = advertisedDevice;
// keep sign - char seems unsigned
int8_t RSSI = (char)advertisedDevice->getRSSI();
NimBLEAddress address = advertisedDevice->getAddress();
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BLEAdvertisment.addrtype = address.getType();
memcpy(BLEAdvertisment.addr, address.getNative(), 6);
ReverseMAC(BLEAdvertisment.addr);
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BLEAdvertisment.RSSI = RSSI;
char addrstr[20];
dump(addrstr, 20, BLEAdvertisment.addr, 6);
// this mjust survive the scope of the callbacks
std::string name = "";
const char *namestr = name.c_str();
if (advertisedDevice->haveName()){
name = advertisedDevice->getName();
namestr = name.c_str();
strncpy(BLEAdvertisment.name, namestr, sizeof(BLEAdvertisment.name)-1);
BLEAdvertisment.name[sizeof(BLEAdvertisment.name)-1] = 0;
}
// log this device safely
if (BLEAdvertisment.addrtype <= BLEAddressFilter){
addSeenDevice(BLEAdvertisment.addr, BLEAdvertisment.addrtype, BLEAdvertisment.name, BLEAdvertisment.RSSI);
}
if (BLEDetailsRequest){
switch (BLEDetailsRequest){
case 1:{ // one advert for one device
BLEDetailsRequest = 0; // only one requested if 2, it's a request all
if (!memcmp(BLEDetailsMac, BLEAdvertisment.addr, 6)){
setDetails(&BLEAdvertisment);
}
} break;
case 2:{ // all adverts for one device - may not get them all
if (!memcmp(BLEDetailsMac, BLEAdvertisment.addr, 6)){
setDetails(&BLEAdvertisment);
}
} break;
case 3:{ // all adverts for ALL DEVICES - may not get them all
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// ignore from here on if filtered on addrtype
if (BLEAdvertisment.addrtype > BLEAddressFilter){
return;
}
setDetails(&BLEAdvertisment);
} break;
case 4:{ // all adverts for all aliased DEVICES - may not get them all
// ignore from here on if filtered on addrtype
const char *alias = BLE_ESP32::getAlias(BLEAdvertisment.addr);
if (!alias || !(*alias)){
return;
}
setDetails(&BLEAdvertisment);
} break;
}
}
// ignore from here on if filtered on addrtype
if (BLEAdvertisment.addrtype > BLEAddressFilter){
return;
}
// call anyone who asked about advertisements
for (int i = 0; i < advertismentCallbacks.size(); i++) {
try {
ADVERTISMENT_CALLBACK* pFN;
pFN = advertismentCallbacks[i];
int res = pFN(&BLEAdvertisment);
// if this callback wants to stop here, then do so.
if (1 == res) break;
// if this callback wants to kill this device
if (2 == res) {
//BLEScan->erase(address);
}
} catch(const std::exception& e){
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#ifdef BLE_ESP32_DEBUG
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AddLog(LOG_LEVEL_ERROR,PSTR("BLE: exception in advertismentCallbacks"));
#endif
}
}
}
};
static BLEAdvCallbacks BLEScanCallbacks;
static BLESensorCallback BLESensorCB;
/*********************************************************************************************\
* BLE callback functions
\*********************************************************************************************/
static void BLEscanEndedCB(NimBLEScanResults results){
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#ifdef BLE_ESP32_DEBUG
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if (BLEDebugMode > 0) AddLog(LOG_LEVEL_DEBUG,PSTR("BLE: Scan ended"));
#endif
for (int i = 0; i < scancompleteCallbacks.size(); i++){
try {
SCANCOMPLETE_CALLBACK *pFn = scancompleteCallbacks[i];
int callbackres = pFn(results);
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#ifdef BLE_ESP32_DEBUG
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if (BLEDebugMode > 0) AddLog(LOG_LEVEL_DEBUG,PSTR("BLE: scancompleteCallbacks %d %d"), i, callbackres);
#endif
} catch(const std::exception& e){
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#ifdef BLE_ESP32_DEBUG
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AddLog(LOG_LEVEL_ERROR,PSTR("BLE: exception in operationsCallbacks"));
#endif
}
}
BLERunningScan = 2;
BLEScanToEndBefore = 0L;
BLEScanCount++;
}
///////////////////////////////////////////////////////////////////////
// !!!!!!!!!!@@@@@@@@@@@@@@@@
// NOTE: this can callback BEFORE the write is completed.
// so we should not do any actions against the device if we can help it
// this COULD be the reason for the BLE stack hanging up....
///////////////////////////////////////////////////////////////////////
static void BLEGenNotifyCB(NimBLERemoteCharacteristic* pRemoteCharacteristic, uint8_t* pData, size_t length, bool isNotify){
NimBLEClient *pRClient;
if (!pRemoteCharacteristic){
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#ifdef BLE_ESP32_DEBUG
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AddLog(LOG_LEVEL_DEBUG,PSTR("BLE: Notify: no remote char!!??"));
#endif
return;
}
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#ifdef BLE_ESP32_DEBUG
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if (BLEDebugMode > 0) AddLog(LOG_LEVEL_DEBUG,PSTR("BLE: Notified length: %u"),length);
#endif
// find the operation this is associated with
NimBLERemoteService *pSvc = pRemoteCharacteristic->getRemoteService();
if (!pSvc){
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#ifdef BLE_ESP32_DEBUG
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AddLog(LOG_LEVEL_ERROR,PSTR("BLE: Notify: no remote service found"));
#endif
return;
}
pRClient = pSvc->getClient();
if (!pRClient){
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#ifdef BLE_ESP32_DEBUG
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AddLog(LOG_LEVEL_ERROR,PSTR("BLE: Notify: no remote client!!??"));
#endif
return;
}
NimBLEAddress devaddr = pRClient->getPeerAddress();
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generic_sensor_t *thisop = nullptr;
{
// make sure we are not disturbed
TasAutoMutex localmutex(&BLEOperationsRecursiveMutex, "BLENotif");
for (int i = 0; i < currentOperations.size(); i++){
generic_sensor_t *op = currentOperations[i];
if (!op){
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#ifdef BLE_ESP32_DEBUG
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AddLog(LOG_LEVEL_ERROR,PSTR("BLE: Notify: null op in currentOperations!!??"));
#endif
} else {
if (devaddr == op->addr){
if (op->notifytimer){
thisop = op;
break;
} else {
AddLog(LOG_LEVEL_ERROR,PSTR("BLE: notify: op addr match but op found which is not waiting."));
}
}
}
}
}
// we'll try without
//pRemoteCharacteristic->unsubscribe();
if (!thisop){
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#ifdef BLE_ESP32_DEBUG
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AddLog(LOG_LEVEL_DEBUG,PSTR("BLE: no op for notify"));
#endif
return;
}
for (int i = 0; i < length && i < sizeof(thisop->dataNotify); i++){
thisop->dataNotify[i] = pData[i];
}
thisop->notifylen = length;
if (length > sizeof(thisop->dataNotify)){
thisop->notifytruncated = 1;
} else {
thisop->notifytruncated = 0;
}
// we will NOT change the state here...
// rely on thisop->notifylen as a flag notify is complete
//thisop->state = GEN_STATE_NOTIFIED;
// this triggers our notify complete, either at the end of read/write, or next 1s cycle.
thisop->notifytimer = 0;
}
/*********************************************************************************************\
* functions for registering callbacks against the driver
\*********************************************************************************************/
void registerForAdvertismentCallbacks(const char *tag, BLE_ESP32::ADVERTISMENT_CALLBACK* pFn){
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#ifdef BLE_ESP32_DEBUG
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AddLog(LOG_LEVEL_INFO,PSTR("BLE: registerForAdvertismentCallbacks %s:%x"), tag, (uint32_t) pFn);
#endif
advertismentCallbacks.push_back(pFn);
}
void registerForOpCallbacks(const char *tag, BLE_ESP32::OPCOMPLETE_CALLBACK* pFn){
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#ifdef BLE_ESP32_DEBUG
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AddLog(LOG_LEVEL_INFO,PSTR("BLE: registerForOpCallbacks %s:%x"), tag, (uint32_t) pFn);
#endif
operationsCallbacks.push_back(pFn);
}
void registerForScanCallbacks(const char *tag, BLE_ESP32::SCANCOMPLETE_CALLBACK* pFn){
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#ifdef BLE_ESP32_DEBUG
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AddLog(LOG_LEVEL_INFO,PSTR("BLE: registerForScnCallbacks %s:%x"), tag, (uint32_t) pFn);
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#endif
scancompleteCallbacks.push_back(pFn);
}
/*********************************************************************************************\
* init NimBLE
\*********************************************************************************************/
static void BLEPreInit(void) {
BLEInitState = 0;
prepOperation = nullptr;
}
static void BLEInit(void) {
if (BLEMode == BLEModeDisabled) return;
if (BLEInitState) { return; }
if (TasmotaGlobal.global_state.wifi_down && TasmotaGlobal.global_state.eth_down) { return; }
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if (!TasmotaGlobal.global_state.wifi_down) {
TasmotaGlobal.wifi_stay_asleep = true;
if (WiFi.getSleep() == false) {
AddLog(LOG_LEVEL_DEBUG,PSTR("%s: Put WiFi modem in sleep mode"), "BLE");
WiFi.setSleep(true); // Sleep
}
}
#ifdef BLE_ESP32_EXAMPLES
// this is only for testing, does nothin if examples are undefed
installExamples();
//initSafeLog();
initSeenDevices();
#endif
uint64_t now = esp_timer_get_time();
BLEScanLastAdvertismentAt = now; // initialise the time of the last advertisment
BLELastLoopTime = now;
BLEInitState = 1;
return;
}
/*********************************************************************************************\
* Task section
\*********************************************************************************************/
static void BLEOperationTask(void *pvParameters);
static void BLEStartOperationTask(){
if (BLERunning == false){
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#ifdef BLE_ESP32_DEBUG
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AddLog(LOG_LEVEL_DEBUG,PSTR("BLE: %s: Start operations"),D_CMND_BLE);
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#endif
BLERunning = true;
xTaskCreatePinnedToCore(
BLE_ESP32::BLEOperationTask, /* Function to implement the task */
"BLEOperationTask", /* Name of the task */
4096, /* Stack size in bytes */
NULL, /* Task input parameter */
0, /* Priority of the task */
NULL, /* Task handle. */
#ifdef CONFIG_FREERTOS_UNICORE
0); /* Core where the task should run */
#else
1); /* Core where the task should run */
#endif
}
}
static void BLETaskStopStartNimBLE(NimBLEClient **ppClient, bool start = true){
if (*ppClient){
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AddLog(LOG_LEVEL_ERROR,PSTR("BLE: Task:Stopping NimBLE"));
(*ppClient)->setClientCallbacks(nullptr, false);
try {
if ((*ppClient)->isConnected()){
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#ifdef BLE_ESP32_DEBUG
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AddLog(LOG_LEVEL_INFO,PSTR("BLE: disconnecting connected client"));
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#endif
(*ppClient)->disconnect();
}
NimBLEDevice::deleteClient((*ppClient));
(*ppClient) = nullptr;
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#ifdef BLE_ESP32_DEBUG
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AddLog(LOG_LEVEL_INFO,PSTR("BLE: deleted client"));
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#endif
} catch(const std::exception& e){
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#ifdef BLE_ESP32_DEBUG
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AddLog(LOG_LEVEL_ERROR,PSTR("BLE: Stopping NimBLE:exception in delete client"));
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#endif
}
if (ble32Scan){
ble32Scan->setAdvertisedDeviceCallbacks(nullptr,true);
ble32Scan->stop();
ble32Scan = nullptr;
}
// wait second
vTaskDelay(100/ portTICK_PERIOD_MS);
NimBLEDevice::deinit(true);
}
BLERunningScan = 0;
if (start){
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AddLog(LOG_LEVEL_INFO,PSTR("BLE: BLETask:Starting NimBLE"));
NimBLEDevice::init("BLE_ESP32");
*ppClient = NimBLEDevice::createClient();
(*ppClient)->setClientCallbacks(&clientCB, false);
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/** Set initial connection parameters: These settings are 15ms interval, 0 latency, 120ms timout.
* These settings are safe for 3 clients to connect reliably, can go faster if you have less
* connections. Timeout should be a multiple of the interval, minimum is 100ms.
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* Min interval: 12 * 1.25ms = 15, Max interval: 12 * 1.25ms = 15, 0 latency, 51 * 10ms = 510ms timeout
*/
(*ppClient)->setConnectionParams(12,12,0,51);
/** Set how long we are willing to wait for the connection to complete (seconds), default is 30. */
(*ppClient)->setConnectTimeout(15);
}
uint64_t now = esp_timer_get_time();
// don't restart because of these for a while
BLELastLoopTime = now; // initialise the time of the last advertisment
BLEScanLastAdvertismentAt = now; // initialise the time of the last advertisment
}
int BLETaskStartScan(int time){
if (!ble32Scan) return -1;
if (BLEMode == BLEModeDisabled) return -4;
// don't scan whilst OTA in progress
if (BLEOtaStallBLE) return -5;
//if (currentOperations.size()) return -3;
if (BLERunningScan) {
// if we hit 2, wait one more time before starting
if (BLERunningScan == 2){
// wait 10ms
vTaskDelay(10/ portTICK_PERIOD_MS);
BLERunningScan = 0;
} else {
return -2;
}
}
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#ifdef BLE_ESP32_DEBUG
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if (BLEDebugMode > 0) AddLog(LOG_LEVEL_DEBUG,PSTR("BLE: BLETask: Startscan"));
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#endif
//vTaskDelay(500/ portTICK_PERIOD_MS);
ble32Scan->setActiveScan(BLEScanActiveMode ? 1: 0);
// seems we could get the callback within the start call....
// so set these before starting
BLERunningScan = 1;
BLEScanStartedAt = esp_timer_get_time();
if (BLETriggerScan){
time = BLETriggerScan;
BLETriggerScan = 0;
}
ble32Scan->start(time, BLEscanEndedCB, (BLEScanActiveMode == 2)); // 20s scans, restarted when then finish
//vTaskDelay(500/ portTICK_PERIOD_MS);
return 0;
}
// this runs one operation
// if the passed pointer is empty, it tries to get a next one.
static void BLETaskRunCurrentOperation(BLE_ESP32::generic_sensor_t** pCurrentOperation, NimBLEClient **ppClient){
if (!pCurrentOperation) return;
NimBLEClient *pClient = *ppClient;
if (!*pCurrentOperation) {
*pCurrentOperation = nextOperation(&queuedOperations);
if (*pCurrentOperation){
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#ifdef BLE_ESP32_DEBUG
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if (BLEDebugMode > 0) AddLog(LOG_LEVEL_DEBUG,PSTR("BLE: BLETask: new currentOperation"));
#endif
BLEOpCount++;
generic_sensor_t* temp = *pCurrentOperation;
//this will null it out, so save and restore.
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addOperation(&currentOperations, pCurrentOperation);
*pCurrentOperation = temp;
}
}
if (!*pCurrentOperation) return;
// if awaiting notification
if ((*pCurrentOperation)->notifytimer){
// if it took too long, then disconnect
uint64_t now = esp_timer_get_time();
uint64_t diff = now - (*pCurrentOperation)->notifytimer;
diff = diff/1000;
if (diff > 20000){ // 20s
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#ifdef BLE_ESP32_DEBUG
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AddLog(LOG_LEVEL_DEBUG,PSTR("BLE: BLETask: notify timeout"));
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#endif
(*pCurrentOperation)->state = GEN_STATE_FAILED_NOTIFYTIMEOUT;
(*pCurrentOperation)->notifytimer = 0;
}
// we can't process any further, because op will be at state readdone or writedone
return;
}
switch((*pCurrentOperation)->state){
case GEN_STATE_WAITINDICATE:
case GEN_STATE_WAITNOTIFY:
//(*pCurrentOperation)->notifytimer == 0 at this point, so must be done
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(*pCurrentOperation)->state = GEN_STATE_NOTIFIED;
// just stay here until this is removed by the main thread
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#ifdef BLE_ESP32_DEBUG
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if (BLEDebugMode > 0) AddLog(LOG_LEVEL_DEBUG,PSTR("BLE: BLETask: notify operation complete"));
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#endif
BLE_ESP32::BLETaskRunTaskDoneOperation(pCurrentOperation, ppClient);
pClient = *ppClient;
return;
break;
case GEN_STATE_READDONE:
case GEN_STATE_WRITEDONE:
case GEN_STATE_NOTIFIED: // - may have completed DURING our read/write to get here
// just stay here until this is removed by the main thread
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#ifdef BLE_ESP32_DEBUG
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if (BLEDebugMode > 0) AddLog(LOG_LEVEL_DEBUG,PSTR("BLE: BLETask: operation complete"));
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#endif
BLE_ESP32::BLETaskRunTaskDoneOperation(pCurrentOperation, ppClient);
pClient = *ppClient;
return;
break;
case GEN_STATE_START:
// continue to start the process here.
break;
default:
break;
}
if (!*pCurrentOperation) return;
if ((*pCurrentOperation)->state <= GEN_STATE_FAILED){
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#ifdef BLE_ESP32_DEBUG
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AddLog(LOG_LEVEL_ERROR,PSTR("BLE: BLETask: op failed %d"), (*pCurrentOperation)->state);
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#endif
BLE_ESP32::BLETaskRunTaskDoneOperation(pCurrentOperation, ppClient);
pClient = *ppClient;
return;
}
if ((*pCurrentOperation)->state != GEN_STATE_START){
return;
}
if (pClient->isConnected()){
// don't do anything if we are still connected
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#ifdef BLE_ESP32_DEBUG
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AddLog(LOG_LEVEL_DEBUG,PSTR("BLE: BLETask: still connected"));
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#endif
return;
}
// if we managed to run operations back to back with long connection timeouts,
// then we may NOT see advertisements.
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// so to prevent triggering of the advert timeout restart mechanism,
// set the last advert time each time we start an operation
uint64_t now = esp_timer_get_time();
BLEScanLastAdvertismentAt = now; // initialise the time of the last advertisment
generic_sensor_t* op = *pCurrentOperation;
int newstate = GEN_STATE_STARTED;
op->state = GEN_STATE_STARTED;
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#ifdef BLE_ESP32_DEBUG
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if (BLEDebugMode > 0) AddLog(LOG_LEVEL_DEBUG,PSTR("BLE: BLETask: attempt connect %s"), ((std::string)op->addr).c_str());
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#endif
if (!op->serviceUUID.bitSize()){
op->state = GEN_STATE_FAILED_NOSERVICE;
return;
}
if (pClient->connect(op->addr, true)) {
// as soon as connected, start another scan if possible
BLE_ESP32::BLETaskStartScan(20);
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#ifdef BLE_ESP32_DEBUG
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if (BLEDebugMode > 0) AddLog(LOG_LEVEL_DEBUG,PSTR("BLE: connected %s -> getservice"), ((std::string)op->addr).c_str());
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#endif
NimBLERemoteService *pService = pClient->getService(op->serviceUUID);
int waitNotify = false;
int notifystate = 0;
op->notifytimer = 0L;
if (pService != nullptr) {
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#ifdef BLE_ESP32_DEBUG
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if (BLEDebugMode > 0) AddLog(LOG_LEVEL_DEBUG,PSTR("BLE: got service"));
#endif
// pre-set to fail if no operations requested
//newstate = GEN_STATE_FAILED_NOREADWRITE;
///////////////////////////////////////////////////////////////////////
// !!!!!!!!!!@@@@@@@@@@@@@@@@
// NOTE: Notify callback can happen BEFORE the read/write is completed.
// this COULD be the reason for the BLE stack hanging up....
///////////////////////////////////////////////////////////////////////
// if we have been asked to get a notification
if (op->notificationCharacteristicUUID.bitSize()) {
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NimBLERemoteCharacteristic *pNCharacteristic =
pService->getCharacteristic(op->notificationCharacteristicUUID);
if (pNCharacteristic != nullptr) {
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#ifdef BLE_ESP32_DEBUG
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if (BLEDebugMode > 0) AddLog(LOG_LEVEL_DEBUG,PSTR("BLE: got notify characteristic"));
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#endif
op->notifylen = 0;
if(pNCharacteristic->canNotify()) {
uint64_t now = esp_timer_get_time();
op->notifytimer = now;
if(pNCharacteristic->subscribe(true, BLE_ESP32::BLEGenNotifyCB)) {
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#ifdef BLE_ESP32_DEBUG
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if (BLEDebugMode > 0) AddLog(LOG_LEVEL_DEBUG,PSTR("BLE: subscribe for notify"));
#endif
// this will get changed to read or write,
// but here in case it's notify only (can that happen?)
notifystate = GEN_STATE_WAITNOTIFY;
waitNotify = true;
} else {
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#ifdef BLE_ESP32_DEBUG
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AddLog(LOG_LEVEL_ERROR,PSTR("BLE: failed subscribe for notify"));
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#endif
newstate = GEN_STATE_FAILED_NOTIFY;
op->notifytimer = 0L;
}
} else {
if(pNCharacteristic->canIndicate()) {
uint64_t now = esp_timer_get_time();
op->notifytimer = now;
if(pNCharacteristic->subscribe(false, BLE_ESP32::BLEGenNotifyCB)) {
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#ifdef BLE_ESP32_DEBUG
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AddLog(LOG_LEVEL_DEBUG,PSTR("BLE: subscribe for indicate"));
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#endif
notifystate = GEN_STATE_WAITINDICATE;
waitNotify = true;
} else {
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#ifdef BLE_ESP32_DEBUG
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AddLog(LOG_LEVEL_ERROR,PSTR("BLE: failed subscribe for indicate"));
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#endif
newstate = GEN_STATE_FAILED_INDICATE;
op->notifytimer = 0L;
}
} else {
newstate = GEN_STATE_FAILED_CANTNOTIFYORINDICATE;
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#ifdef BLE_ESP32_DEBUG
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AddLog(LOG_LEVEL_ERROR,PSTR("BLE: characteristic can't notify"));
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#endif
}
}
} else {
newstate = GEN_STATE_FAILED_NONOTIFYCHAR;
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#ifdef BLE_ESP32_DEBUG
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AddLog(LOG_LEVEL_ERROR,PSTR("BLE: notify characteristic not found"));
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#endif
}
// force the 'error' of the notify coming in before the read/write for testing
//vTaskDelay(1000/ portTICK_PERIOD_MS);
} // no supplied notify char is ok
// this will only happen if you ask for a notify char which is not there?
if (!(newstate <= GEN_STATE_FAILED)){
if (op->characteristicUUID.bitSize()) {
// read or write characteristic - we always need this?
NimBLERemoteCharacteristic *pCharacteristic = nullptr;
pCharacteristic = pService->getCharacteristic(op->characteristicUUID);
if (pCharacteristic != nullptr) {
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#ifdef BLE_ESP32_DEBUG
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if (BLEDebugMode > 0) AddLog(LOG_LEVEL_DEBUG,PSTR("BLE: got read/write characteristic"));
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#endif
newstate = GEN_STATE_FAILED_NOREADWRITE; // overwritten on failure
if (op->readlen){
if(pCharacteristic->canRead()) {
std::string value = pCharacteristic->readValue();
op->readlen = value.length();
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memcpy(op->dataRead, value.data(),
(op->readlen > sizeof(op->dataRead))?
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sizeof(op->dataRead):
op->readlen);
if (op->readlen > sizeof(op->dataRead)){
op->readtruncated = 1;
} else {
op->readtruncated = 0;
}
if (op->readmodifywritecallback){
READ_CALLBACK *pFn = (READ_CALLBACK *)op->readmodifywritecallback;
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#ifdef BLE_ESP32_DEBUG
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if (BLEDebugMode > 0) AddLog(LOG_LEVEL_DEBUG,PSTR("BLE: read characteristic with readmodifywritecallback"));
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#endif
pFn(op);
} else {
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#ifdef BLE_ESP32_DEBUG
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if (BLEDebugMode > 0) AddLog(LOG_LEVEL_DEBUG,PSTR("BLE: read characteristic"));
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#endif
}
// only change it to a 'finished' state if we really are
if (!waitNotify && !op->writelen) newstate = GEN_STATE_READDONE;
} else {
newstate = GEN_STATE_FAILED_CANTREAD;
}
}
if (op->writelen){
if(pCharacteristic->canWrite() || pCharacteristic->canWriteNoResponse() ) {
if (!pCharacteristic->writeValue(op->dataToWrite, op->writelen, true)){
newstate = GEN_STATE_FAILED_WRITE;
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#ifdef BLE_ESP32_DEBUG
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AddLog(LOG_LEVEL_DEBUG,PSTR("BLE: characteristic write fail"));
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#endif
} else {
if (!waitNotify) newstate = GEN_STATE_WRITEDONE;
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#ifdef BLE_ESP32_DEBUG
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if (BLEDebugMode > 0) AddLog(LOG_LEVEL_DEBUG,PSTR("BLE: write characteristic"));
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#endif
}
} else {
newstate = GEN_STATE_FAILED_CANTWRITE;
}
}
// print or do whatever you need with the value
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} else {
newstate = GEN_STATE_FAILED_NO_RW_CHAR;
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#ifdef BLE_ESP32_DEBUG
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AddLog(LOG_LEVEL_DEBUG,PSTR("BLE: r/w characteristic not found"));
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#endif
}
}
}
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// disconnect if not waiting for notify,
if (!op->notifytimer){
if (waitNotify){
vTaskDelay(50/ portTICK_PERIOD_MS);
// must have completed during our read/write operation
newstate = GEN_STATE_NOTIFIED;
}
} else {
newstate = notifystate;
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}
} else {
newstate = GEN_STATE_FAILED_NOSERVICE;
// failed to get a service
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#ifdef BLE_ESP32_DEBUG
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AddLog(LOG_LEVEL_DEBUG,PSTR("BLE: failed - svc not on device?"));
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#endif
}
} else { // connect itself failed
newstate = GEN_STATE_FAILED_CONNECT;
//#define NIMBLE_CLIENT_HAS_RESULT 1
#ifdef NIMBLE_CLIENT_HAS_RESULT
int rc = pClient->m_result;
switch (rc){
case (0x0200+BLE_ERR_CONN_LIMIT ):
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AddLog(LOG_LEVEL_ERROR,PSTR("BLE: Hit connection limit? - restarting NimBLE"));
BLERestartNimBLE = 1;
BLERestartBLEReason = BLE_RESTART_BLE_REASON_CONN_LIMIT;
break;
case (0x0200+BLE_ERR_ACL_CONN_EXISTS):
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AddLog(LOG_LEVEL_ERROR,PSTR("BLE: Connection exists? - restarting NimBLE"));
BLERestartNimBLE = 1;
BLERestartBLEReason = BLE_RESTART_BLE_REASON_CONN_EXISTS;
break;
}
if (rc){
AddLog(LOG_LEVEL_ERROR,PSTR("BLE: failed to connect to device low level rc 0x%x"), rc);
}
#else
// failed to connect
AddLog(LOG_LEVEL_ERROR,PSTR("BLE: failed to connect to device"));
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#endif
}
op->state = newstate;
}
// this disconnects from a device if necessary, and then
// moves the operation from 'currentOperations' to 'completedOperations'.
// for safety's sake, only call from the run task
static void BLETaskRunTaskDoneOperation(BLE_ESP32::generic_sensor_t** op, NimBLEClient **ppClient){
try {
if ((*ppClient)->isConnected()){
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#ifdef BLE_ESP32_DEBUG
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if (BLEDebugMode > 0) AddLog(LOG_LEVEL_DEBUG,PSTR("BLE: runTaskDoneOperation: disconnecting connected client"));
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#endif
(*ppClient)->disconnect();
// wait for 1/2 second after disconnect
int waits = 0;
do {
vTaskDelay(500/ portTICK_PERIOD_MS);
if (waits) {
//(*ppClient)->disconnect();
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// we will stall here forever!!! - as testing
#ifdef BLE_ESP32_DEBUG
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AddLog(LOG_LEVEL_ERROR,PSTR("BLE: wait discon%d"), waits);
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#endif
vTaskDelay(500/ portTICK_PERIOD_MS);
}
waits++;
if (waits == 5){
int conn_id = (*ppClient)->getConnId();
ble_gap_conn_broken(conn_id, -1);
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#ifdef BLE_ESP32_DEBUG
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AddLog(LOG_LEVEL_ERROR,PSTR("BLE: wait discon%d - kill connection"), waits);
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#endif
}
if (waits == 60){
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AddLog(LOG_LEVEL_ERROR,PSTR("BLE: >60s waiting -> BLE Failed, restart Tasmota %d"), waits);
BLEStop = 1;
BLEStopAt = esp_timer_get_time();
BLERestartTasmota = 10;
BLERestartTasmotaReason = BLE_RESTART_TEAMOTA_REASON_BLE_DISCONNECT_FAIL;
break;
}
} while ((*ppClient)->isConnected());
}
} catch(const std::exception& e){
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#ifdef BLE_ESP32_DEBUG
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AddLog(LOG_LEVEL_ERROR,PSTR("BLE: runTaskDoneOperation: exception in disconnect"));
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#endif
}
{
TasAutoMutex localmutex(&BLEOperationsRecursiveMutex, "BLEDoneOp");
// find this operation in currentOperations, and remove it.
for (int i = 0; i < currentOperations.size(); i++){
if (currentOperations[i]->opid == (*op)->opid){
currentOperations.erase(currentOperations.begin() + i);
break;
}
}
}
// by adding it to this list, this will cause it to be sent to MQTT
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#ifdef BLE_ESP32_DEBUG
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if (BLEDebugMode > 0) AddLog(LOG_LEVEL_DEBUG,PSTR("BLE: runTaskDoneOperation: add to completedOperations"));
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#endif
addOperation(&completedOperations, op);
return;
}
// this IS as task.
// we MAY be able to run a few of these simultaneously, but this is not yet tested.
// and probably not required. But everything is there to do so....
static void BLEOperationTask(void *pvParameters){
BLELoopCount = 0;
BLEOpCount = 0;;
uint32_t timer = 0;
// operation which is currently in progress in THIS TASK
generic_sensor_t* currentOperation = nullptr;
NimBLEClient *pClient = nullptr;
BLE_ESP32::BLETaskStopStartNimBLE(&pClient);
for(;;){
BLELastLoopTime = esp_timer_get_time();
BLELoopCount++;
BLE_ESP32::BLETaskRunCurrentOperation(&currentOperation, &pClient);
// start a scan if possible
if ((BLEMode == BLEModeRegularScan) || (BLETriggerScan)){
BLEScan* lastScan = ble32Scan;
ble32Scan = NimBLEDevice::getScan();
if (lastScan != ble32Scan){
//ble32Scan->setInterval(70);
//ble32Scan->setWindow(50);
ble32Scan->setInterval(0x40);
ble32Scan->setWindow(0x20);
ble32Scan->setAdvertisedDeviceCallbacks(&BLEScanCallbacks,true);
}
BLE_ESP32::BLETaskStartScan(20);
}
if (BLEStopScan){
ble32Scan->stop();
BLEStopScan = 0;
}
// come around every 1/10s
vTaskDelay(100/ portTICK_PERIOD_MS);
if (BLEStop == 1){
break;
}
if (BLERestartNimBLE){
BLERestartNimBLE = 0;
BLERestartTasmota = 10;
BLERestartTasmotaReason = BLE_RESTART_TEAMOTA_REASON_RESTARTING_BLE_TIMEOUT;
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AddLog(LOG_LEVEL_ERROR,PSTR("BLE: BLETask: Restart NimBLE - restart Tasmota in 10 if not complt"));
BLE_ESP32::BLETaskStopStartNimBLE(&pClient);
BLERestartTasmotaReason = BLE_RESTART_TEAMOTA_REASON_UNKNOWN;
BLERestartTasmota = 0;
BLEResets ++;
}
}
BLE_ESP32::BLETaskStopStartNimBLE(&pClient, false);
// wait 1/10 second
vTaskDelay(100/ portTICK_PERIOD_MS);
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#ifdef BLE_ESP32_DEBUG
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AddLog(LOG_LEVEL_DEBUG,PSTR("BLE: BLEOperationTask: Left task"));
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#endif
deleteSeenDevices();
BLEStop = 2;
BLERunning = false;
vTaskDelete( NULL );
}
/***********************************************************************\
* Regular Tasmota called functions
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*
\***********************************************************************/
void BLEEvery50mSecond(){
/* if (BLEAliasListTrigger){
BLEAliasListTrigger = 0;
BLEAliasMqttList();
}*/
postAdvertismentDetails();
}
static void stopStartBLE(){
// dont start of disabled
uint8_t enable = (Settings.flag5.mi32_enable || BLEEnableUnsaved) && BLEEnableMask;
if (enable != BLEMasterEnable){
if (enable){
if (StartBLE()){
BLEMasterEnable = enable;
}
} else {
if (StopBLE()){
BLEMasterEnable = enable;
}
}
AddLog(LOG_LEVEL_INFO,PSTR("BLE: MasterEnable->%d"), BLEMasterEnable);
}
}
/**
* @brief Main loop of the driver, "high level"-loop
*
*/
static void BLEEverySecond(bool restart){
BLEDiag();
checkDeviceTimouts();
stopStartBLE();
// check for application callbacks here.
// this may remove complete items.
BLE_ESP32::mainThreadOpCallbacks();
// post any MQTT data if we completed anything in the last second
if (mqttOperations.size()){
BLE_ESP32::BLEPostMQTT(true); // send only completed
}
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// request send of ALL oeprations prepped, queued, in progress -
// in separate MQTT messages.
if (BLEPostMQTTTrigger){
BLEPostMQTTTrigger = 0;
BLE_ESP32::BLEPostMQTT(false); // show all operations, not just completed
}
if (BLEPublishDevices){
BLEPostMQTTSeenDevices(BLEPublishDevices);
BLEShowStats();
BLEPublishDevices = 0;
}
// we have been asked to restart in this many seconds....
if (BLERestartTasmota){
BLERestartTasmota--;
// 2 seconds to go, post to BLE topic on MQTT our reason
if (BLERestartTasmota == 2){
if (!BLERestartTasmotaReason) BLERestartTasmotaReason = BLE_RESTART_TEAMOTA_REASON_UNKNOWN;
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Response_P(PSTR("{\"reboot\":\"%s\"}"), BLERestartTasmotaReason);
MqttPublishPrefixTopicRulesProcess_P(TELE, PSTR("BLE"), Settings.flag.mqtt_sensor_retain);
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AddLog(LOG_LEVEL_ERROR,PSTR("BLE: Failure! Restarting Tasmota in %d seconds because %s"), BLERestartTasmota, BLERestartTasmotaReason);
}
if (!BLERestartTasmota){
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AddLog(LOG_LEVEL_ERROR,PSTR("BLE: Failure! Restarting Tasmota because %s"), BLERestartTasmotaReason);
// just a normal restart
TasmotaGlobal.restart_flag = 1;
}
}
if (BLERestartBLEReason){ // just use the ptr as the trigger to send MQTT
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Response_P(PSTR("{\"blerestart\":\"%s\"}"), BLERestartBLEReason);
MqttPublishPrefixTopicRulesProcess_P(TELE, PSTR("BLE"), Settings.flag.mqtt_sensor_retain);
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AddLog(LOG_LEVEL_ERROR,PSTR("BLE: Failure! Restarting BLE Stack because %s"), BLERestartBLEReason);
BLERestartBLEReason = nullptr;
}
BLE_ESP32::mainThreadBLETimeouts();
if (!BLEMasterEnable){
return;
}
}
/*********************************************************************************************\
* Operations queue functions - all to do with read/write and notify for a device
\*********************************************************************************************/
// this retrievs the next operation from the passed list, and removes it from the list.
// or returns null if none.
generic_sensor_t* nextOperation(std::deque<generic_sensor_t*> *ops){
generic_sensor_t* op = nullptr;
if (ops->size()){
TasAutoMutex localmutex(&BLEOperationsRecursiveMutex, "BLENExtOp");
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op = (*ops)[0];
ops->pop_front();
}
return op;
}
// this adds an operation to the end of passed list.
// it also sets the op pointer passed to null.
int addOperation(std::deque<generic_sensor_t*> *ops, generic_sensor_t** op){
int res = 0;
{
TasAutoMutex localmutex(&BLEOperationsRecursiveMutex, "BLEAddOp");
if (ops->size() < 10){
ops->push_back(*op);
*op = nullptr;
res = 1;
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}
}
if (res){
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//AddLog(LOG_LEVEL_DEBUG,PSTR("BLE: added operation"));
} else {
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AddLog(LOG_LEVEL_ERROR,PSTR("BLE: op - no room"));
}
return res;
}
int newOperation(BLE_ESP32::generic_sensor_t** op){
if (!op) {
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AddLog(LOG_LEVEL_ERROR,PSTR("BLE: op inv in newOperation"));
return 0;
}
BLE_ESP32::generic_sensor_t *o = new BLE_ESP32::generic_sensor_t;
// clear to zeros, but not the NimBLE classes
o->state = 0;
o->opid = 0; // incrementing id so we can find them
o->notifytimer = 0L;
//uint8_t writeRead[MAX_BLE_DATA_LEN];
o->writelen = 0;
//uint8_t dataRead[MAX_BLE_DATA_LEN];
o->readlen = 0;
o->readtruncated = 0;
//uint8_t dataNotify[MAX_BLE_DATA_LEN];
o->notifylen = 0;
o->notifytruncated = 0;
o->readmodifywritecallback = nullptr; // READ_CALLBACK function, used by external drivers
o->completecallback = nullptr; // OPCOMPLETE_CALLBACK function, used by external drivers
o->context = nullptr; // opaque context, used by external drivers, or can be set to a long for MQTT
(*op) = o;
return 1;
}
int freeOperation(BLE_ESP32::generic_sensor_t** op){
if (!op) {
return 0;
}
delete (*op);
(*op) = nullptr;
return 1;
}
int extQueueOperation(BLE_ESP32::generic_sensor_t** op){
if (!op || !(*op)) {
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AddLog(LOG_LEVEL_ERROR,PSTR("BLE: op invalid"));
return 0;
}
if (!BLEMasterEnable){
AddLog(LOG_LEVEL_ERROR,PSTR("BLE: extQueueOperation: BLE is deiabled"));
return 0;
}
(*op)->state = GEN_STATE_START; // trigger request later
(*op)->opid = lastopid++;
int res = addOperation(&queuedOperations, op);
if (!res){
AddLog(LOG_LEVEL_ERROR,PSTR("BLE: extQueueOperation: op adding id %d failed"), (lastopid-1));
}
return res;
}
/*********************************************************************************************\
* BLE Name alisaes
\*********************************************************************************************/
#ifdef BLE_ESP32_ALIASES
int addAlias( uint8_t *addr, char *name){
if (!addr || !name){
return 0;
}
int count = aliases.size();
// replace name for existing address
for (int i = 0; i < count; i++){
if (!memcmp(aliases[i]->addr, addr, 6)){
strncpy(aliases[i]->name, name, sizeof(aliases[i]->name));
aliases[i]->name[sizeof(aliases[i]->name)-1] = 0;
return 2;
}
}
// replace addr for existing name
for (int i = 0; i < count; i++){
if (!strcmp(aliases[i]->name, name)){
memcpy(aliases[i]->addr, addr, 7);
return 2;
}
}
BLE_ESP32::ble_alias_t *alias = new BLE_ESP32::ble_alias_t;
memcpy(alias->addr, addr, 7);
strncpy(alias->name, name, sizeof(alias->name));
alias->name[sizeof(alias->name)-1] = 0;
aliases.push_back(alias);
return 1;
}
#endif
/**
* @brief Remove all colons from null terminated char array
*
* @param _string Typically representing a MAC-address like AA:BB:CC:DD:EE:FF
*/
void stripColon(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;
}
//////////////////////////////////////////////////
// use this for address interpretaton from string
// it looks for aliases, and converts AABBCCDDEEFF and AA:BB:CC:DD:EE:FF
// it also accepts AABBCCDDEEFF/1 to indicate random
int getAddr(uint8_t *dest, char *src){
if (!dest || !src){
return 0;
}
#ifdef BLE_ESP32_ALIASES
for (int i = 0; i < aliases.size(); i++){
if (!strcmp(aliases[i]->name, src)){
memcpy(dest, aliases[i]->addr, 7);
return 2; //was an alias
}
}
#endif
char tmp[12+5+1+2];
int srclen = strlen(src);
if ((srclen == 12+5) || (srclen == 12+5+2)){
strcpy(tmp, src);
stripColon(tmp);
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src = tmp;
}
int len = fromMAC(dest, src, 7);
if (len == 7){
return 1;
}
// not found
return 0;
}
static const char *noAlias = PSTR("");
////////////////////////////////////////////
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// use to display the alias name if required
const char *getAlias(const uint8_t *addr){
if (!addr){
return noAlias;
}
#ifdef BLE_ESP32_ALIASES
for (int i = 0; i < aliases.size(); i++){
if (!memcmp(aliases[i]->addr, addr, 6)){
return aliases[i]->name; //was an alias
}
}
#endif
return noAlias;
}
/*********************************************************************************************\
* Highest level BLE task control functions
\*********************************************************************************************/
static int StartBLE(void) {
if (BLEStop != 1){
BLE_ESP32::BLEStartOperationTask();
return 1;
}
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AddLog(LOG_LEVEL_ERROR,PSTR("BLE: StartBLE - wait as BLEStop==1"));
return 0;
}
static int StopBLE(void){
if (BLERunning){
if (BLEStop != 1){
BLEStop = 1;
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AddLog(LOG_LEVEL_INFO,PSTR("BLE: StopBLE - BLEStop->1"));
BLEStopAt = esp_timer_get_time();
// give a little time for it to stop.
vTaskDelay(100/ portTICK_PERIOD_MS);
return 1;
}
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AddLog(LOG_LEVEL_ERROR,PSTR("BLE: StopBLE - wait as BLEStop==1"));
return 0;
} else {
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AddLog(LOG_LEVEL_ERROR,PSTR("BLE: StopBLE - was not running"));
return 1;
}
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}
/*********************************************************************************************\
* Commands
\*********************************************************************************************/
static void CmndBLEPeriod(void) {
//ResponseCmndNumber(BLE.period);
ResponseCmndDone();
}
//////////////////////////////////////////////////////////////
// Determine what to do with advertismaents
// BLEAdv0 -> suppress MQTT about devices found
// BLEAdv1 -> send MQTT about devices found after each scan
void CmndBLEAdv(void){
switch(XdrvMailbox.index){
case 0:
BLEAdvertMode = BLE_ESP32::BLE_NO_ADV_SEND;
break;
case 1:
BLEAdvertMode = BLE_ESP32::BLE_ADV_TELE;
break;
/*case 2:
BLEAdvertMode = BLE_ADV_ALL;
break;*/
case 3:
break;
}
ResponseCmndNumber(BLEAdvertMode);
}
//////////////////////////////////////////////////////////////
// Determine what to do with advertismaents
// BLEAdv0 -> suppress MQTT about devices found
// BLEAdv1 -> send MQTT about devices found after each scan
void CmndBLEDebug(void){
BLEDebugMode = XdrvMailbox.index;
ResponseCmndNumber(BLEDebugMode);
}
void CmndBLEDevices(void){
switch(XdrvMailbox.index){
case 0:{
// clear devices delete
deleteSeenDevices();
} break;
case 1:{
BLEPublishDevices = 2; // mqtt publish as 'STAT'
} break;
}
ResponseCmndDone();
}
void CmndBLEMaxAge(void){
switch(XdrvMailbox.index){
case 1:{
if (XdrvMailbox.data_len > 0) {
BLEMaxAge = XdrvMailbox.payload;
}
} break;
}
ResponseCmndIdxNumber(BLEMaxAge);
if (BLEMaxAge) deleteSeenDevices(BLEMaxAge);
}
void CmndBLEAddrFilter(void){
switch(XdrvMailbox.index){
case 1:{
if (XdrvMailbox.data_len > 0) {
BLEAddressFilter = XdrvMailbox.payload;
}
} break;
}
ResponseCmndIdxNumber(BLEAddressFilter);
}
//////////////////////////////////////////////////////////////
// Scan options
// BLEScan0 -> do a scan now if BLEMode == BLEModeScanByCommand
// BLEScan0 <timesec> -> do a scan now if BLEMode == BLEModeScanByCommand for timesec seconds
// BLEScan1 0 -> Scans are passive
// BLEScan1 1 -> Scans are active
// more options could be added...
void CmndBLEScan(void){
switch(XdrvMailbox.index){
case 0:{
if (XdrvMailbox.data_len > 0) {
BLEScanActiveMode = XdrvMailbox.payload;
ResponseCmndNumber(BLEScanActiveMode);
} else {
ResponseCmndChar("Invalid");
}
} break;
case 1: // do a manual scan now
switch (BLEMode){
case BLEModeScanByCommand: {
int time = 20;
if (XdrvMailbox.data_len > 0) {
time = XdrvMailbox.payload;
if (time < 2) time = 2;
if (time > 40) time = 40;
}
BLETriggerScan = time;
ResponseCmndNumber(time); // -ve for fail for a few reasons
} break;
case BLEModeDisabled:
ResponseCmndChar("BLEDisabled");
break;
case BLEModeRegularScan:
ResponseCmndChar("BLEActive");
break;
}
break;
default:
ResponseCmndChar("Invalid");
break;
}
}
//////////////////////////////////////////////////////////////
// Determine what to do with advertismaents
// BLEMode0 -> kill BLE completely
// BLEMode1 -> start BLE, scan by command
// BLEMode2 -> start BLE, regular scan
void CmndBLEMode(void){
int val = XdrvMailbox.index;
if (XdrvMailbox.data_len > 0) {
val = XdrvMailbox.payload;
}
switch(val){
case BLEModeDisabled:{
if (BLEMode != BLEModeDisabled){
BLEMode = BLEModeDisabled;
StopBLE();
ResponseCmndChar("StoppingBLE");
} else {
ResponseCmndChar("Disabled");
}
} break;
case BLEModeScanByCommand:{
uint64_t now = esp_timer_get_time();
switch(BLEMode){
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// when changing from regular to by command,
// stop the scan next loop
case BLEModeRegularScan: {
BLEMode = BLEModeScanByCommand;
BLEStopScan = 1;
ResponseCmndChar("BLEStopScan");
} break;
case BLEModeDisabled: {
BLEMode = BLEModeScanByCommand;
StartBLE();
ResponseCmndChar("StartingBLE");
} break;
case BLEModeScanByCommand:{
ResponseCmndChar("BLERunning");
} break;
}
BLEScanLastAdvertismentAt = now; // note the time of the last advertisment
} break;
case BLEModeRegularScan:{
uint64_t now = esp_timer_get_time();
switch(BLEMode){
case BLEModeDisabled: {
BLEMode = BLEModeRegularScan;
StartBLE();
ResponseCmndChar("StartingBLE");
} break;
case BLEModeScanByCommand:{
BLEMode = BLEModeRegularScan;
ResponseCmndChar("BLEEnableScan");
} break;
case BLEModeRegularScan:{
BLEMode = BLEModeRegularScan;
ResponseCmndChar("BLERunning");
} break;
}
BLEScanLastAdvertismentAt = now; // note the time of the last advertisment
} break;
default:
ResponseCmndChar("InvalidIndex");
break;
}
}
//////////////////////////////////////////////////////////////
// Enables BLE even if master enable is unset
// use to temporarily enable after boot - e.g. at the end of autoexec
void CmndBLEEnableUnsaved(void){
int val = -1;
if (XdrvMailbox.data_len > 0) {
val = XdrvMailbox.payload;
}
if (val >= 0){
BLEEnableUnsaved = val;
}
ResponseCmndNumber(BLEEnableUnsaved);
}
//////////////////////////////////////////
// get more drtails for a single MAC address
// BLEDetails0 -> don;t send me anything
// BLEDetails1 <MAC> -> send me details for <mac> once
// BLEDetails2 <MAC> -> send me details for <mac> every advert if possible
// example: BLEDetails1 001A22092C9A
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// details look like:
// MQT: tele/tasmota_esp32/BLE = {"details":{"mac":"001A22092C9A","p":"0C0943432D52542D4D2D424C450CFF0000000000000000000000"}}
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// and incliude mac, complete advert payload, plus optional ,"lost":true if an advert was not captured because MQTT we already
// had one waiting to be sent
void CmndBLEDetails(void){
switch(XdrvMailbox.index){
case 0:
BLEDetailsRequest = 0;
ResponseCmndNumber(BLEDetailsRequest);
break;
case 1:
case 2:{
BLEDetailsRequest = 0;
if (getAddr(BLEDetailsMac, XdrvMailbox.data)){
BLEDetailsRequest = XdrvMailbox.index;
ResponseCmndIdxChar(XdrvMailbox.data);
} else {
ResponseCmndChar("InvalidMac");
}
} break;
case 3:{
BLEDetailsRequest = XdrvMailbox.index;
ResponseCmndNumber(BLEDetailsRequest);
} break;
case 4:{
BLEDetailsRequest = XdrvMailbox.index;
ResponseCmndNumber(BLEDetailsRequest);
} break;
default:
ResponseCmndChar("InvalidIndex");
break;
}
}
void CmndBLEAlias(void){
#ifdef BLE_ESP32_ALIASES
int op = XdrvMailbox.index;
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if (BLEDebugMode > 0) AddLog(LOG_LEVEL_DEBUG,PSTR("BLE: Alias %d %s"), op, XdrvMailbox.data);
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;
}
uint8_t addr[7];
char *mac = p;
int len = fromMAC(addr, p, sizeof(addr));
if (len != 7){
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AddLog(LOG_LEVEL_ERROR,PSTR("BLE: Alias invalid mac %s"), p);
ResponseCmndChar("invalidmac");
return;
}
p = strtok(nullptr, " ,=");
char *name = p;
if (!p || !(*p)){
int i = 0;
for (i = 0; i < aliases.size(); i++){
BLE_ESP32::ble_alias_t *alias = aliases[i];
if (!memcmp(alias->addr, addr, 6)){
aliases.erase(aliases.begin() + i);
BLEAliasListResp();
return;
}
}
ResponseCmndChar("invalidmac");
return;
}
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AddLog(LOG_LEVEL_ERROR,PSTR("BLE: Add Alias mac %s = name %s"), mac, p);
if (addAlias( addr, name )){
added++;
}
p = strtok(nullptr, " ,=");
} while (p);
if (added){
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if (BLEDebugMode > 0) AddLog(LOG_LEVEL_DEBUG,PSTR("BLE: Added %d Aliases"), added);
BLEAliasListResp();
} else {
BLEAliasListResp();
}
return;
} break;
case 2:{ // clear
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if (BLEDebugMode > 0) AddLog(LOG_LEVEL_DEBUG,PSTR("BLE: Alias clearing %d"), aliases.size());
for (int i = aliases.size()-1; i >= 0; i--){
BLE_ESP32::ble_alias_t *alias = aliases[i];
aliases.pop_back();
delete alias;
}
BLEAliasListResp();
return;
} break;
}
ResponseCmndChar("invalididx");
#endif
}
// SET the BLE name for a device -
// uses s:1800 c:2a00 and writes name to DEVICE
void CmndBLEName(void) {
char *p = strtok(XdrvMailbox.data, " ");
if (!p || !(*p)){
ResponseCmndIdxChar(PSTR("invalid"));
return;
}
uint8_t addrbin[7];
int addrres = BLE_ESP32::getAddr(addrbin, p);
NimBLEAddress addr(addrbin, addrbin[6]);
if (addrres){
if (addrres == 2){
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if (BLEDebugMode > 0) AddLog(LOG_LEVEL_DEBUG,PSTR("BLE: addr used alias: %s"), p);
}
//#ifdef EQ3_DEBUG
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if (BLEDebugMode > 0) AddLog(LOG_LEVEL_INFO,PSTR("BLE: cmd addr: %s -> %s"), p, addr.toString().c_str());
//#endif
} else {
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AddLog(LOG_LEVEL_ERROR,PSTR("BLE: addr invalid: %s"), p);
ResponseCmndIdxChar(PSTR("invalidaddr"));
return;
}
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("BLE: Can't get a newOperation"));
ResponseCmndChar(PSTR("FAIL"));
return;
} else {
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if (BLEDebugMode > 0) AddLog(LOG_LEVEL_DEBUG,PSTR("BLE: got a newOperation from BLE"));
}
op->addr = addr;
op->serviceUUID = NimBLEUUID("1800");
op->characteristicUUID = NimBLEUUID("2A00");
// get next part of cmd
char *name = strtok(nullptr, " ");
bool write = false;
if (name && *name){
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if (BLEDebugMode > 0) AddLog(LOG_LEVEL_DEBUG,PSTR("BLE: write name %s"), name);
op->writelen = strlen(name);
memcpy(op->dataToWrite, name, op->writelen);
write = true;
} else {
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if (BLEDebugMode > 0) AddLog(LOG_LEVEL_DEBUG,PSTR("BLE: read name"));
op->readlen = 1;
}
res = BLE_ESP32::extQueueOperation(&op);
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if (BLEDebugMode > 0) AddLog(LOG_LEVEL_DEBUG,PSTR("BLE: queue res %d"), res);
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("BLE: Failed to queue new operation - deleted"));
ResponseCmndChar(PSTR("QUEUEFAIL"));
return;
}
if (write){
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if (BLEDebugMode > 0) AddLog(LOG_LEVEL_DEBUG, PSTR("BLE: will write name"));
} else {
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if (BLEDebugMode > 0) AddLog(LOG_LEVEL_DEBUG, PSTR("BLE: will read name"));
}
ResponseCmndDone();
return;
}
//////////////////////////////////////////////////////////////////////////
// Command to cause BLE read/write/notify operations to be run.
//////////////////////////////////////////////////////////////////////////
// we expect BLEOp0 - poll state
// we expect BLEOp1 m:MAC s:svc <c:characteristic> <n:notifychar> <w:hextowrite> <r> <go>
// we expect BLEOp2 trigger queue of op. return is opid
// returns: Done|FailCreate|FailNoOp|FailQueue|InvalidIndex|<opid>
// BLEop0/1/2 will cause an MQTT send of ops currently known.
// on op complete/op fail, a MQTT send is triggered of all known ops, and the completed/failed op removed.
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// example:
// BLEOp1 M:001A22092CDB s:3e135142-654f-9090-134a-a6ff5bb77046 c:3fa4585a-ce4a-3bad-db4b-b8df8179ea09 w:03 n:d0e8434d-cd29-0996-af41-6c90f4e0eb2a go
// requests write of 03, and request wait for notify.
// You may queue up operations. they are currently processed serially.
void CmndBLEOperation(void){
int op = XdrvMailbox.index;
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//AddLog(LOG_LEVEL_INFO,PSTR("BLE: op %d"), op);
int res = -1;
// if in progress, only op 0 or 11 are allowed
switch(op) {
case 0:
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#ifdef BLE_ESP32_DEBUG
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if (BLEDebugMode > 0) AddLog(LOG_LEVEL_INFO,PSTR("BLE: preview"));
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#endif
BLEPostMQTTTrigger = 1;
break;
case 1: {
if (prepOperation){
BLE_ESP32::freeOperation(&prepOperation);
}
int opres = BLE_ESP32::newOperation(&prepOperation);
if (!opres){
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#ifdef BLE_ESP32_DEBUG
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AddLog(LOG_LEVEL_ERROR,PSTR("BLE: Could not create new operation"));
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#endif
ResponseCmndChar("FailCreate");
return;
}
// expect m:MAC s:svc <c:characteristic> <n:notifychar> <w:hextowrite> <r> <go>
// < > are optional
char *p = strtok(XdrvMailbox.data, " ,");
bool trigger = false;
while (p){
switch(*p | 0x20){
case 'm':{
uint8_t addr[7];
if (getAddr(addr, p+2)){
prepOperation->addr = NimBLEAddress(addr, addr[6]);
} else {
prepOperation->addr = NimBLEAddress();
}
} break;
case 's':{
prepOperation->serviceUUID = NimBLEUUID(p+2);
} break;
case 'c':
prepOperation->characteristicUUID = NimBLEUUID(p+2);
//strncpy(prepOperation->characteristicStr, p+2, sizeof(prepOperation->characteristicStr)-1);
break;
case 'n':
prepOperation->notificationCharacteristicUUID = NimBLEUUID(p+2);
//strncpy(prepOperation->notificationCharacteristicStr, p+2, sizeof(prepOperation->notificationCharacteristicStr)-1);
break;
case 'w':
prepOperation->writelen = fromHex(prepOperation->dataToWrite, p+2, sizeof(prepOperation->dataToWrite));
break;
case 'u': // 'unique' context for this request
prepOperation->context = (void *)atoi(p+2);
break;
case 'r':
prepOperation->readlen = 1;
break;
case 'g':
if ((*(p+1))|0x20 == 'o'){
trigger = true;
}
break;
}
p = strtok(nullptr, " ,");
}
if (trigger){
int u = (int)prepOperation->context;
int opres = BLE_ESP32::extQueueOperation(&prepOperation);
if (!opres){
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// NOTE: prepOperation will NOT have been deleted.
// this means you could retry with another BLEOp10.
// it WOULD be deleted if you sent another BELOP1 <MAC>
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#ifdef BLE_ESP32_DEBUG
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AddLog(LOG_LEVEL_ERROR,PSTR("BLE: Could not queue new operation"));
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#endif
ResponseCmndChar("FailQueue");
return;
} else {
// NOTE: prepOperation has been set to null if we queued sucessfully.
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#ifdef BLE_ESP32_DEBUG
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if (BLEDebugMode > 0) AddLog(LOG_LEVEL_INFO,PSTR("BLE: Operations queued:%d"), queuedOperations.size());
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#endif
char temp[40];
sprintf(temp, "{\"opid\":%d,\"u\":%d}", lastopid-1, u);
Response_P(S_JSON_COMMAND_XVALUE, XdrvMailbox.command, temp);
// don't do this here... overwrites response
//BLE_ESP32::BLEPostMQTT(false);
return;
}
} else {
ResponseCmndChar("Prepared");
//BLE_ESP32::BLEPostMQTT(false);
return;
}
} break;
case 2: {
if (!prepOperation) {
ResponseCmndChar("FailNoOp");
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return;
}
//prepOperation->requestType = atoi(XdrvMailbox.data);
int u = (int)prepOperation->context;
int opres = BLE_ESP32::extQueueOperation(&prepOperation);
if (!opres){
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// NOTE: prepOperation will NOT have been deleted.
// this means you could retry with another BLEOp10.
// it WOULD be deleted if you sent another BELOP1 <MAC>
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#ifdef BLE_ESP32_DEBUG
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AddLog(LOG_LEVEL_ERROR,PSTR("BLE: Could not queue new operation"));
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#endif
ResponseCmndChar("FailQueue");
} else {
// NOTE: prepOperation has been set to null if we queued sucessfully.
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#ifdef BLE_ESP32_DEBUG
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if (BLEDebugMode > 0) AddLog(LOG_LEVEL_INFO,PSTR("BLE: Operations queued:%d"), queuedOperations.size());
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#endif
char temp[40];
sprintf(temp, "{\"opid\":%d,\"u\":%d}", lastopid-1, u);
Response_P(S_JSON_COMMAND_XVALUE, XdrvMailbox.command, temp);
}
return;
} break;
default:
ResponseCmndChar("InvalidIndex");
return;
}
ResponseCmndDone();
return;
}
/*********************************************************************************************\
* Presentation
\*********************************************************************************************/
static void BLEPostMQTTSeenDevices(int type) {
int remains = 0;
nextSeenDev = 0;
memset(TasmotaGlobal.mqtt_data, 0, sizeof(TasmotaGlobal.mqtt_data));
ResponseTime_P(PSTR(""));
int timelen = strlen(TasmotaGlobal.mqtt_data);
char *dest = TasmotaGlobal.mqtt_data + timelen;
int maxlen = (sizeof(TasmotaGlobal.mqtt_data)-20) - timelen;
// if (!TasmotaGlobal.ota_state_flag){
do {
remains = getSeenDevicesToJson(dest, maxlen);
// no retain - this is present devices, not historic
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MqttPublishPrefixTopicRulesProcess_P((1== type) ? TELE : STAT, PSTR("BLE"));
} while (remains);
// }
}
static void BLEPostMQTT(bool onlycompleted) {
// if (TasmotaGlobal.ota_state_flag) return;
if (prepOperation || mqttOperations.size() || queuedOperations.size() || currentOperations.size()){
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#ifdef BLE_ESP32_DEBUG
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if (BLEDebugMode > 0) AddLog(LOG_LEVEL_INFO,PSTR("BLE: some to show"));
#endif
if (prepOperation && !onlycompleted){
std::string out = BLETriggerResponse(prepOperation);
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Response_P(PSTR("%s"), out.c_str());
MqttPublishPrefixTopicRulesProcess_P(TELE, PSTR("BLE"), Settings.flag.mqtt_sensor_retain);
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#ifdef BLE_ESP32_DEBUG
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if (BLEDebugMode > 0) AddLog(LOG_LEVEL_INFO,PSTR("BLE: prep sent %s"), out.c_str());
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#endif
}
if (queuedOperations.size() && !onlycompleted){
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#ifdef BLE_ESP32_DEBUG
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if (BLEDebugMode > 0) AddLog(LOG_LEVEL_INFO,PSTR("BLE: queued %d"), queuedOperations.size());
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#endif
for (int i = 0; i < queuedOperations.size(); i++){
TasAutoMutex localmutex(&BLEOperationsRecursiveMutex, "BLEPost1");
generic_sensor_t *toSend = queuedOperations[i];
if (!toSend) {
break;
} else {
std::string out = BLETriggerResponse(toSend);
localmutex.give();
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Response_P(PSTR("%s"), out.c_str());
MqttPublishPrefixTopicRulesProcess_P(TELE, PSTR("BLE"), Settings.flag.mqtt_sensor_retain);
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#ifdef BLE_ESP32_DEBUG
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if (BLEDebugMode > 0) AddLog(LOG_LEVEL_INFO,PSTR("BLE: queued %d sent %s"), i, out.c_str());
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#endif
//break;
}
}
}
if (currentOperations.size() && !onlycompleted){
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#ifdef BLE_ESP32_DEBUG
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if (BLEDebugMode > 0) AddLog(LOG_LEVEL_INFO,PSTR("BLE: current %d"), currentOperations.size());
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#endif
for (int i = 0; i < currentOperations.size(); i++){
TasAutoMutex localmutex(&BLEOperationsRecursiveMutex, "BLEPost2");
generic_sensor_t *toSend = currentOperations[i];
if (!toSend) {
break;
} else {
std::string out = BLETriggerResponse(toSend);
localmutex.give();
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Response_P(PSTR("%s"), out.c_str());
MqttPublishPrefixTopicRulesProcess_P(TELE, PSTR("BLE"), Settings.flag.mqtt_sensor_retain);
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#ifdef BLE_ESP32_DEBUG
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if (BLEDebugMode > 0) AddLog(LOG_LEVEL_INFO,PSTR("BLE: curr %d sent %s"), i, out.c_str());
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#endif
//break;
}
}
}
if (mqttOperations.size()){
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#ifdef BLE_ESP32_DEBUG
if (BLEDebugMode > 0) AddLog(LOG_LEVEL_INFO,PSTR("BLE: completed %d"), mqttOperations.size());
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#endif
do {
generic_sensor_t *toSend = nextOperation(&mqttOperations);
if (!toSend) {
break; // break from while loop
} else {
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#ifdef BLE_ESP32_DEBUG
if (BLEDebugMode > 0) AddLog(LOG_LEVEL_DEBUG,PSTR("BLE: mqttOperation removed opid %d"), toSend->opid);
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#endif
std::string out = BLETriggerResponse(toSend);
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Response_P(PSTR("%s"), out.c_str());
MqttPublishPrefixTopicRulesProcess_P(TELE, PSTR("BLE"), Settings.flag.mqtt_sensor_retain);
// we alreayd removed this from the queues, so now delete
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delete toSend;
//break;
}
//break;
} while (1);
}
} else {
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Response_P(PSTR("{\"BLEOperation\":{}}"));
MqttPublishPrefixTopicRulesProcess_P(TELE, PSTR("BLE"), Settings.flag.mqtt_sensor_retain);
}
}
static void mainThreadBLETimeouts() {
uint64_t now = esp_timer_get_time();
if (!BLERunning){
BLELastLoopTime = now; // initialise the time of the last advertisment
BLEScanLastAdvertismentAt = now; // initialise the time of the last advertisment
return;
}
if (BLEStop == 1){
if (BLEStopAt + 30L*1000L*1000L < now){ // if asked to stop > 30s ago...
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AddLog(LOG_LEVEL_ERROR,PSTR("BLE: Stop Timeout - restart Tasmota"));
BLERestartTasmota = 2;
BLEStopAt = now;
}
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AddLog(LOG_LEVEL_ERROR,PSTR("BLE: Awaiting BLEStop"));
return;
}
// if no adverts for 120s, and BLE is running, retsart NimBLE.
// belt and braces....
uint64_t adTimeout = ((uint64_t)BLEMaxTimeBetweenAdverts)*1000L*1000L;
if (BLEScanLastAdvertismentAt + adTimeout < now){
BLEScanLastAdvertismentAt = now; // initialise the time of the last advertisment
BLERestartNimBLE = 1;
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AddLog(LOG_LEVEL_ERROR,PSTR("BLE: scan stall? no adverts > 120s, restart BLE"));
BLERestartBLEReason = BLE_RESTART_BLE_REASON_ADVERT_BLE_TIMEOUT;
}
// if stuck and have not done task for 120s, something is seriously wrong.
// restart Tasmota completely. (belt and braces)
uint64_t bleLoopTimeout = ((uint64_t)BLEMaxTaskLoopTime)*1000L*1000L;
if (BLELastLoopTime + bleLoopTimeout < now){
BLELastLoopTime = now; // initialise the time of the last advertisment
BLERestartTasmota = 10;
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AddLog(LOG_LEVEL_DEBUG,PSTR("BLE: BLETask stall > 120s, restart Tasmota in 10s"));
BLERestartTasmotaReason = BLE_RESTART_TEAMOTA_REASON_BLE_LOOP_STALLED;
}
}
static void mainThreadOpCallbacks() {
if (completedOperations.size()){
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//AddLog(LOG_LEVEL_INFO,PSTR("BLE: completed %d"), completedOperations.size());
TasAutoMutex localmutex(&BLEOperationsRecursiveMutex, "BLEMainCB");
// find this operation in currentOperations, and remove it.
// in reverse so we can erase them safely.
for (int i = completedOperations.size()-1; i >= 0 ; i--){
generic_sensor_t *op = completedOperations[i];
bool callbackres = false;
if (BLEDebugMode > 0) AddLog(LOG_LEVEL_DEBUG,PSTR("BLE: op->completecallback is %u opid %d"), op->completecallback, op->opid);
if (op->completecallback){
try {
OPCOMPLETE_CALLBACK *pFn = (OPCOMPLETE_CALLBACK *)(op->completecallback);
callbackres = pFn(op);
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#ifdef BLE_ESP32_DEBUG
if (BLEDebugMode > 0) AddLog(LOG_LEVEL_DEBUG,PSTR("BLE: op->completecallback %d opid %d"), callbackres, op->opid);
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#endif
} catch(const std::exception& e){
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#ifdef BLE_ESP32_DEBUG
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AddLog(LOG_LEVEL_ERROR,PSTR("BLE: exception in op->completecallback"));
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#endif
}
}
if (!callbackres){
for (int i = 0; i < operationsCallbacks.size(); i++){
try {
if (BLEDebugMode > 0) AddLog(LOG_LEVEL_DEBUG,PSTR("BLE: operationsCallbacks %d is %u"), i, operationsCallbacks[i]);
OPCOMPLETE_CALLBACK *pFn = operationsCallbacks[i];
callbackres = pFn(op);
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#ifdef BLE_ESP32_DEBUG
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if (BLEDebugMode > 0) AddLog(LOG_LEVEL_DEBUG,PSTR("BLE: operationsCallbacks %d %d"), i, callbackres);
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#endif
if (callbackres){
break; // this callback ate the op.
}
} catch(const std::exception& e){
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#ifdef BLE_ESP32_DEBUG
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AddLog(LOG_LEVEL_ERROR,PSTR("BLE: exception in operationsCallbacks"));
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#endif
}
}
}
// always remove from here
completedOperations.erase(completedOperations.begin() + i);
// unless some callback told us not to send on MQTT, then remove from completed and
// add to mqtt list
if (!callbackres){
addOperation(&mqttOperations, &op);
} else {
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#ifdef BLE_ESP32_DEBUG
if (BLEDebugMode > 0) AddLog(LOG_LEVEL_DEBUG,PSTR("BLE: callbackres true -> delete op opid %d"), op->opid);
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#endif
delete op;
}
}
}
}
static void BLEShowStats(){
uint32_t totalCount = BLEAdvertisment.totalCount;
uint32_t deviceCount = seenDevices.size();
ResponseTime_P(PSTR(""));
ResponseAppend_P(PSTR(",\"BLE\":{\"scans\":%u,\"adverts\":%u,\"devices\":%u,\"resets\":%u}}"), BLEScanCount, totalCount, deviceCount, BLEResets);
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MqttPublishPrefixTopicRulesProcess_P(TELE, PSTR("BLE"), 0);
}
/*void BLEAliasMqttList(){
ResponseTime_P(PSTR(",\"BLEAlias\":["));
for (int i = 0; i < aliases.size(); i++){
if (i){
ResponseAppend_P(PSTR(","));
}
char tmp[20];
ToHex_P(aliases[i]->addr,6,tmp,20,0);
ResponseAppend_P(PSTR("{\"%s\":\"%s\"}"), tmp, aliases[i]->name);
}
ResponseAppend_P(PSTR("]}"));
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MqttPublishPrefixTopicRulesProcess_P(TELE, PSTR("BLE"), Settings.flag.mqtt_sensor_retain);
}*/
void BLEAliasListResp(){
Response_P(PSTR("{\"BLEAlias\":{"));
for (int i = 0; i < aliases.size(); i++){
if (i){
ResponseAppend_P(PSTR(","));
}
char tmp[20];
ToHex_P(aliases[i]->addr,6,tmp,20,0);
ResponseAppend_P(PSTR("\"%s\":\"%s\""), tmp, aliases[i]->name);
}
ResponseAppend_P(PSTR("}}"));
}
static void BLEDiag()
{
uint32_t totalCount = BLEAdvertisment.totalCount;
uint32_t deviceCount = seenDevices.size();
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#ifdef BLE_ESP32_DEBUG
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if (BLEDebugMode > 0) AddLog_P(LOG_LEVEL_INFO,PSTR("BLE: scans:%u,advertisements:%u,devices:%u,resets:%u,BLEStop:%d,BLERunning:%d,BLERunningScan:%d,BLELoopCount:%u,BLEOpCount:%u"), BLEScanCount, totalCount, deviceCount, BLEResets, BLEStop, BLERunning, BLERunningScan, BLELoopCount, BLEOpCount);
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#endif
}
/**
* @brief creates a JSON representing a single operation.
*
*/
std::string BLETriggerResponse(generic_sensor_t *toSend){
char temp[100];
if (!toSend) return "";
std::string out = "{\"BLEOperation\":{\"opid\":\"";
sprintf(temp, "%d", toSend->opid); // note only 10 long!
out = out + temp;
/* out = out + "\",\"state\":\"";
sprintf(t, "%d", toSend->state);
out = out + t;*/
out = out + "\",\"stat\":\"";
sprintf(temp, "%d", toSend->state);
out = out + temp;
out = out + "\",\"state\":\"";
out = out + getStateString(toSend->state);
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if (toSend->addr != NimBLEAddress()){
out = out + "\",\"MAC\":\"";
uint8_t addrrev[6];
memcpy(addrrev, toSend->addr.getNative(), 6);
ReverseMAC(addrrev);
dump(temp, 13, addrrev, 6);
out = out + temp;
}
if (toSend->context){
out = out + "\",\"u\":\"";
sprintf(temp, "%d", (int32_t)toSend->context);
out = out + temp;
}
if (toSend->serviceUUID.bitSize()){
out = out + "\",\"svc\":\"";
out = out + toSend->serviceUUID.toString();
}
if (toSend->characteristicUUID.bitSize()){
out = out + "\",\"char\":\"";
out = out + toSend->characteristicUUID.toString();
}
if (toSend->notificationCharacteristicUUID.bitSize()){
out = out + "\",\"notifychar\":\"";
out = out + toSend->notificationCharacteristicUUID.toString();
}
out = out + "\"";
if (toSend->readlen){
dump(temp, 99, toSend->dataRead, toSend->readlen);
if (toSend->readtruncated){
strcat(temp, "+");
}
out = out + ",\"read\":\"";
out = out + temp;
out = out + "\"";
}
if (toSend->writelen){
dump(temp, 99, toSend->dataToWrite, toSend->writelen);
out = out + ",\"write\":\"";
out = out + temp;
out = out + "\"";
}
if (toSend->notifylen){
dump(temp, 99, toSend->dataNotify, toSend->notifylen);
if (toSend->notifytruncated){
strcat(temp, "+");
}
out = out + ",\"notify\":\"";
out = out + temp;
out = out + "\"";
}
out = out + "}}";
return out;
}
#ifdef USE_WEBSERVER
#define WEB_HANDLE_BLE "ble"
#define D_CONFIGURE_BLE "Configure BLE"
#define D_BLE_PARAMETERS "Bluetooth Settings"
#define D_MQTT_BLE_ENABLE "Enable Bluetooth"
#define D_MQTT_BLE_ACTIVESCAN "Enable Active Scan(*)"
#define D_BLE_DEVICES "Devices Seen"
const char HTTP_BTN_MENU_BLE[] PROGMEM =
"<p><form action='" WEB_HANDLE_BLE "' method='get'><button>" D_CONFIGURE_BLE "</button></form></p>";
const char HTTP_FORM_BLE[] PROGMEM =
"<fieldset><legend><b>&nbsp;" D_BLE_PARAMETERS "&nbsp;</b></legend>"
"<form method='get' action='" WEB_HANDLE_BLE "'>"
"<p><label><input id='e0' type='checkbox'%s><b>" D_MQTT_BLE_ENABLE "</b></label></p>"
"<p><label><input id='e1' type='checkbox'%s><b>" D_MQTT_BLE_ACTIVESCAN "</b></label></p>"
"<p>items marked (*) are not stored in config</p>";
const char HTTP_BLE_DEV_STYLE[] PROGMEM = "th, td { padding-left:5px; }";
const char HTTP_BLE_DEV_START[] PROGMEM =
"<fieldset><legend><b>&nbsp;" D_BLE_DEVICES "&nbsp;</b></legend><table>"
"<tr><th><label>mac(type)</label></th><th><label>alias</label></th><th><label>name</label></th><th><label>RSSI</label></th><th><label>Age(max)</label></th></tr>";
const char HTTP_BLE_DEV[] PROGMEM =
"<tr><td><label>%s(%d)</label></td><td><label>%s</label></td><td><label>%s</label></td><td><label>%d</label></td><td><label>%d(%d)</label></td></tr>";
const char HTTP_BLE_DEV_END[] PROGMEM =
"</table></fieldset>";
void HandleBleConfiguration(void)
{
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#ifdef BLE_ESP32_DEBUG
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AddLog(LOG_LEVEL_DEBUG, PSTR("BLE: HandleBleConfiguration"));
#endif
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if (!HttpCheckPriviledgedAccess()) {
#ifdef BLE_ESP32_DEBUG
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AddLog(LOG_LEVEL_DEBUG, PSTR("BLE: !HttpCheckPriviledgedAccess()"));
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#endif
return;
}
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#ifdef BLE_ESP32_DEBUG
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AddLog(LOG_LEVEL_DEBUG, PSTR(D_LOG_HTTP D_CONFIGURE_BLE));
#endif
char tmp[20];
WebGetArg("en", tmp, sizeof(tmp));
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#ifdef BLE_ESP32_DEBUG
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if (BLEDebugMode > 0) AddLog(LOG_LEVEL_DEBUG, PSTR("BLE: arg en is %s"), tmp);
#endif
if (Webserver->hasArg("save")) {
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#ifdef BLE_ESP32_DEBUG
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AddLog(LOG_LEVEL_DEBUG, PSTR("BLE: SETTINGS SAVE"));
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#endif
Settings.flag5.mi32_enable = Webserver->hasArg("e0"); //
BLEScanActiveMode = (Webserver->hasArg("e1")?1:0); //
SettingsSaveAll();
HandleConfiguration();
return;
}
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#ifdef BLE_ESP32_DEBUG
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AddLog(LOG_LEVEL_DEBUG, PSTR("BLE: !SAVE"));
#endif
char str[TOPSZ];
WSContentStart_P(PSTR(D_CONFIGURE_BLE));
WSContentSendStyle_P(HTTP_BLE_DEV_STYLE);
//WSContentSendStyle();
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WSContentSend_P(HTTP_FORM_BLE,
(Settings.flag5.mi32_enable) ? " checked" : "",
(BLEScanActiveMode) ? " checked" : ""
);
WSContentSend_P(HTTP_FORM_END);
{
//TasAutoMutex localmutex(&BLEOperationsRecursiveMutex, "BLEConf");
int number = seenDevices.size();
if (number){
WSContentSend_P(HTTP_BLE_DEV_START);
uint64_t now = esp_timer_get_time();
now = now/1000L;
now = now/1000L;
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uint32_t nowS = (uint32_t)now;
for (int i = 0; i < number; i++){
BLE_ESP32::BLE_simple_device_t* dev = seenDevices[i];
char addr[20];
dump(addr, 20, dev->mac, 6);
uint8_t addrtype = dev->addrtype;
const char *alias = getAlias(dev->mac);
uint64_t lastseen = dev->lastseen/1000L;
lastseen = lastseen/1000L;
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uint32_t lastseenS = (uint32_t) lastseen;
uint32_t ageS = nowS-lastseenS;
WSContentSend_P(HTTP_BLE_DEV, addr, addrtype, alias, dev->name, dev->RSSI, ageS, dev->maxAge);
}
WSContentSend_P(HTTP_BLE_DEV_END);
}
}
WSContentSpaceButton(BUTTON_CONFIGURATION);
WSContentStop();
}
#endif
} // end namespace BLE_ESP32
/*********************************************************************************************\
* Interface
\*********************************************************************************************/
int ExtStopBLE(){
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AddLog(LOG_LEVEL_INFO, PSTR("BLE: Stopping if active"));
BLE_ESP32::BLEEnableMask = 0;
BLE_ESP32::stopStartBLE();
return 0;
}
int ExtRestartBLEIfEnabled(){
AddLog(LOG_LEVEL_INFO, PSTR("BLE: Starting if active"));
BLE_ESP32::BLEEnableMask = 1;
BLE_ESP32::stopStartBLE();
return 0;
}
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bool Xdrv79(uint8_t function)
{
//if (!Settings.flag5.mi32_enable) { return false; } // SetOption115 - Enable ESP32 BLE BLE
bool result = false;
if (FUNC_INIT == function){
BLE_ESP32::BLEPreInit();
}
if (!BLE_ESP32::BLEInitState) {
if (function == FUNC_EVERY_250_MSECOND) {
BLE_ESP32::BLEInit();
}
return result;
}
switch (function) {
case FUNC_EVERY_50_MSECOND:
BLE_ESP32::BLEEvery50mSecond();
//############################# DEBUG
TasmotaGlobal.seriallog_timer = 0;
break;
case FUNC_EVERY_SECOND:
BLE_ESP32::BLEEverySecond(false);
break;
case FUNC_COMMAND:
result = DecodeCommand(BLE_ESP32::kBLE_Commands, BLE_ESP32::BLE_Commands);
break;
case FUNC_JSON_APPEND:
break;
// next second, we will publish to our MQTT topic.
case FUNC_AFTER_TELEPERIOD:
BLE_ESP32::BLEPublishDevices = 1; // mqtt publish as 'TELE'
break;
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#ifdef USE_WEBSERVER
case FUNC_WEB_ADD_BUTTON:
WSContentSend_P(BLE_ESP32::HTTP_BTN_MENU_BLE);
break;
case FUNC_WEB_ADD_HANDLER:
WebServer_on(PSTR("/" WEB_HANDLE_BLE), BLE_ESP32::HandleBleConfiguration);
break;
#endif // USE_WEBSERVER
}
return result;
}
#ifdef BLE_ESP32_EXAMPLES
/*********************************************************************************************\
* Example Advertisment callback
\*********************************************************************************************/
#ifdef EXAMPLE_ADVERTISMENT_CALLBACK
// match ADVERTISMENT_CALLBACK
int myAdvertCallback(BLE_ESP32::ble_advertisment_t *pStruct) {
// indicate others can also hear this
// to say 'I want this exclusively', return true.
return 0;
}
#endif
/*********************************************************************************************\
* End of Example Advertisment callback
\*********************************************************************************************/
/*********************************************************************************************\
* Example Operations callbacks
\*********************************************************************************************/
#ifdef EXAMPLE_OPERATION_CALLBACK
// this one is used to demonstrate processing ALL operations
int myOpCallback(BLE_ESP32::generic_sensor_t *pStruct){
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AddLog(LOG_LEVEL_INFO,PSTR("BLE: myOpCallback"));
return 0; // return true to block MQTT broadcast
}
// this one is used to demonstrate processing of ONE specific operation
int myOpCallback2(BLE_ESP32::generic_sensor_t *pStruct){
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AddLog(LOG_LEVEL_INFO,PSTR("BLE: myOpCallback2"));
return 1; // return true to block MQTT broadcast
}
#endif
/*********************************************************************************************\
* End of Example Operations callbacks
\*********************************************************************************************/
void installExamples(){
#ifdef EXAMPLE_ADVERTISMENT_CALLBACK
BLE_ESP32::registerForAdvertismentCallbacks((const char *)"test myOpCallback", &myAdvertCallback);
#endif
#ifdef EXAMPLE_OPERATION_CALLBACK
BLE_ESP32:registerForOpCallbacks((const char *)"test myOpCallback", &myOpCallback);
#endif
}
void sendExample(){
#ifdef EXAMPLE_OPERATION_CALLBACK
BLE_ESP32::generic_sensor_t *op = nullptr;
int res = BLE_ESP32::newOperation(&op);
if (!res){
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AddLog(LOG_LEVEL_ERROR,PSTR("BLE: Could not create new operation"));
return;
}
strncpy(op->MAC, "001A22092EE0", sizeof(op->MAC));
strncpy(op->serviceStr, "3e135142-654f-9090-134a-a6ff5bb77046", sizeof(op->serviceStr));
strncpy(op->characteristicStr, "3fa4585a-ce4a-3bad-db4b-b8df8179ea09", sizeof(op->characteristicStr));
strncpy(op->notificationCharacteristicStr, "d0e8434d-cd29-0996-af41-6c90f4e0eb2a", sizeof(op->notificationCharacteristicStr));
op->writelen = BLE_ESP32::fromHex(op->dataToWrite, (char *)"4040", sizeof(op->dataToWrite));
// this op will call us back on complete or failure.
op->completecallback = (void *)myOpCallback2;
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("BLE: Failed to queue new operation - deleted"));
return;
}
#endif
}
// end #ifdef BLE_ESP32_EXAMPLES
#endif
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#endif
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#endif // CONFIG_IDF_TARGET_ESP32
#endif // ESP32