2019-04-12 15:43:53 +02:00
/*
* BLEUtils . cpp
*
* Created on : Mar 25 , 2017
* Author : kolban
*/
# include "sdkconfig.h"
# if defined(CONFIG_BT_ENABLED)
# include "BLEAddress.h"
# include "BLEClient.h"
# include "BLEUtils.h"
# include "BLEUUID.h"
# include "GeneralUtils.h"
# include <freertos/FreeRTOS.h>
# include <freertos/event_groups.h>
# include <esp_bt.h> // ESP32 BLE
# include <esp_bt_main.h> // ESP32 BLE
# include <esp_gap_ble_api.h> // ESP32 BLE
# include <esp_gattc_api.h> // ESP32 BLE
# include <esp_err.h> // ESP32 ESP-IDF
# include <map> // Part of C++ STL
# include <sstream>
# include <iomanip>
# include "esp32-hal-log.h"
/*
static std : : map < std : : string , BLEClient * > g_addressMap ;
static std : : map < uint16_t , BLEClient * > g_connIdMap ;
*/
typedef struct {
uint32_t assignedNumber ;
const char * name ;
} member_t ;
static const member_t members_ids [ ] = {
# if CONFIG_LOG_DEFAULT_LEVEL > 4
{ 0xFE08 , " Microsoft " } ,
{ 0xFE09 , " Pillsy, Inc. " } ,
{ 0xFE0A , " ruwido austria gmbh " } ,
{ 0xFE0B , " ruwido austria gmbh " } ,
{ 0xFE0C , " Procter & Gamble " } ,
{ 0xFE0D , " Procter & Gamble " } ,
{ 0xFE0E , " Setec Pty Ltd " } ,
{ 0xFE0F , " Philips Lighting B.V. " } ,
{ 0xFE10 , " Lapis Semiconductor Co., Ltd. " } ,
{ 0xFE11 , " GMC-I Messtechnik GmbH " } ,
{ 0xFE12 , " M-Way Solutions GmbH " } ,
{ 0xFE13 , " Apple Inc. " } ,
{ 0xFE14 , " Flextronics International USA Inc. " } ,
{ 0xFE15 , " Amazon Fulfillment Services, Inc. " } ,
{ 0xFE16 , " Footmarks, Inc. " } ,
{ 0xFE17 , " Telit Wireless Solutions GmbH " } ,
{ 0xFE18 , " Runtime, Inc. " } ,
{ 0xFE19 , " Google Inc. " } ,
{ 0xFE1A , " Tyto Life LLC " } ,
{ 0xFE1B , " Tyto Life LLC " } ,
{ 0xFE1C , " NetMedia, Inc. " } ,
{ 0xFE1D , " Illuminati Instrument Corporation " } ,
{ 0xFE1E , " Smart Innovations Co., Ltd " } ,
{ 0xFE1F , " Garmin International, Inc. " } ,
{ 0xFE20 , " Emerson " } ,
{ 0xFE21 , " Bose Corporation " } ,
{ 0xFE22 , " Zoll Medical Corporation " } ,
{ 0xFE23 , " Zoll Medical Corporation " } ,
{ 0xFE24 , " August Home Inc " } ,
{ 0xFE25 , " Apple, Inc. " } ,
{ 0xFE26 , " Google Inc. " } ,
{ 0xFE27 , " Google Inc. " } ,
{ 0xFE28 , " Ayla Networks " } ,
{ 0xFE29 , " Gibson Innovations " } ,
{ 0xFE2A , " DaisyWorks, Inc. " } ,
{ 0xFE2B , " ITT Industries " } ,
{ 0xFE2C , " Google Inc. " } ,
{ 0xFE2D , " SMART INNOVATION Co.,Ltd " } ,
{ 0xFE2E , " ERi,Inc. " } ,
{ 0xFE2F , " CRESCO Wireless, Inc " } ,
{ 0xFE30 , " Volkswagen AG " } ,
{ 0xFE31 , " Volkswagen AG " } ,
{ 0xFE32 , " Pro-Mark, Inc. " } ,
{ 0xFE33 , " CHIPOLO d.o.o. " } ,
{ 0xFE34 , " SmallLoop LLC " } ,
{ 0xFE35 , " HUAWEI Technologies Co., Ltd " } ,
{ 0xFE36 , " HUAWEI Technologies Co., Ltd " } ,
{ 0xFE37 , " Spaceek LTD " } ,
{ 0xFE38 , " Spaceek LTD " } ,
{ 0xFE39 , " TTS Tooltechnic Systems AG & Co. KG " } ,
{ 0xFE3A , " TTS Tooltechnic Systems AG & Co. KG " } ,
{ 0xFE3B , " Dolby Laboratories " } ,
{ 0xFE3C , " Alibaba " } ,
{ 0xFE3D , " BD Medical " } ,
{ 0xFE3E , " BD Medical " } ,
{ 0xFE3F , " Friday Labs Limited " } ,
{ 0xFE40 , " Inugo Systems Limited " } ,
{ 0xFE41 , " Inugo Systems Limited " } ,
{ 0xFE42 , " Nets A/S " } ,
{ 0xFE43 , " Andreas Stihl AG & Co. KG " } ,
{ 0xFE44 , " SK Telecom " } ,
{ 0xFE45 , " Snapchat Inc " } ,
{ 0xFE46 , " B&O Play A/S " } ,
{ 0xFE47 , " General Motors " } ,
{ 0xFE48 , " General Motors " } ,
{ 0xFE49 , " SenionLab AB " } ,
{ 0xFE4A , " OMRON HEALTHCARE Co., Ltd. " } ,
{ 0xFE4B , " Philips Lighting B.V. " } ,
{ 0xFE4C , " Volkswagen AG " } ,
{ 0xFE4D , " Casambi Technologies Oy " } ,
{ 0xFE4E , " NTT docomo " } ,
{ 0xFE4F , " Molekule, Inc. " } ,
{ 0xFE50 , " Google Inc. " } ,
{ 0xFE51 , " SRAM " } ,
{ 0xFE52 , " SetPoint Medical " } ,
{ 0xFE53 , " 3M " } ,
{ 0xFE54 , " Motiv, Inc. " } ,
{ 0xFE55 , " Google Inc. " } ,
{ 0xFE56 , " Google Inc. " } ,
{ 0xFE57 , " Dotted Labs " } ,
{ 0xFE58 , " Nordic Semiconductor ASA " } ,
{ 0xFE59 , " Nordic Semiconductor ASA " } ,
{ 0xFE5A , " Chronologics Corporation " } ,
{ 0xFE5B , " GT-tronics HK Ltd " } ,
{ 0xFE5C , " million hunters GmbH " } ,
{ 0xFE5D , " Grundfos A/S " } ,
{ 0xFE5E , " Plastc Corporation " } ,
{ 0xFE5F , " Eyefi, Inc. " } ,
{ 0xFE60 , " Lierda Science & Technology Group Co., Ltd. " } ,
{ 0xFE61 , " Logitech International SA " } ,
{ 0xFE62 , " Indagem Tech LLC " } ,
{ 0xFE63 , " Connected Yard, Inc. " } ,
{ 0xFE64 , " Siemens AG " } ,
{ 0xFE65 , " CHIPOLO d.o.o. " } ,
{ 0xFE66 , " Intel Corporation " } ,
{ 0xFE67 , " Lab Sensor Solutions " } ,
{ 0xFE68 , " Qualcomm Life Inc " } ,
{ 0xFE69 , " Qualcomm Life Inc " } ,
{ 0xFE6A , " Kontakt Micro-Location Sp. z o.o. " } ,
{ 0xFE6B , " TASER International, Inc. " } ,
{ 0xFE6C , " TASER International, Inc. " } ,
{ 0xFE6D , " The University of Tokyo " } ,
{ 0xFE6E , " The University of Tokyo " } ,
{ 0xFE6F , " LINE Corporation " } ,
{ 0xFE70 , " Beijing Jingdong Century Trading Co., Ltd. " } ,
{ 0xFE71 , " Plume Design Inc " } ,
{ 0xFE72 , " St. Jude Medical, Inc. " } ,
{ 0xFE73 , " St. Jude Medical, Inc. " } ,
{ 0xFE74 , " unwire " } ,
{ 0xFE75 , " TangoMe " } ,
{ 0xFE76 , " TangoMe " } ,
{ 0xFE77 , " Hewlett-Packard Company " } ,
{ 0xFE78 , " Hewlett-Packard Company " } ,
{ 0xFE79 , " Zebra Technologies " } ,
{ 0xFE7A , " Bragi GmbH " } ,
{ 0xFE7B , " Orion Labs, Inc. " } ,
{ 0xFE7C , " Telit Wireless Solutions (Formerly Stollmann E+V GmbH) " } ,
{ 0xFE7D , " Aterica Health Inc. " } ,
{ 0xFE7E , " Awear Solutions Ltd " } ,
{ 0xFE7F , " Doppler Lab " } ,
{ 0xFE80 , " Doppler Lab " } ,
{ 0xFE81 , " Medtronic Inc. " } ,
{ 0xFE82 , " Medtronic Inc. " } ,
{ 0xFE83 , " Blue Bite " } ,
{ 0xFE84 , " RF Digital Corp " } ,
{ 0xFE85 , " RF Digital Corp " } ,
{ 0xFE86 , " HUAWEI Technologies Co., Ltd. ( ) " } ,
{ 0xFE87 , " Qingdao Yeelink Information Technology Co., Ltd. ( ) " } ,
{ 0xFE88 , " SALTO SYSTEMS S.L. " } ,
{ 0xFE89 , " B&O Play A/S " } ,
{ 0xFE8A , " Apple, Inc. " } ,
{ 0xFE8B , " Apple, Inc. " } ,
{ 0xFE8C , " TRON Forum " } ,
{ 0xFE8D , " Interaxon Inc. " } ,
{ 0xFE8E , " ARM Ltd " } ,
{ 0xFE8F , " CSR " } ,
{ 0xFE90 , " JUMA " } ,
{ 0xFE91 , " Shanghai Imilab Technology Co.,Ltd " } ,
{ 0xFE92 , " Jarden Safety & Security " } ,
{ 0xFE93 , " OttoQ Inc. " } ,
{ 0xFE94 , " OttoQ Inc. " } ,
{ 0xFE95 , " Xiaomi Inc. " } ,
{ 0xFE96 , " Tesla Motor Inc. " } ,
{ 0xFE97 , " Tesla Motor Inc. " } ,
{ 0xFE98 , " Currant, Inc. " } ,
{ 0xFE99 , " Currant, Inc. " } ,
{ 0xFE9A , " Estimote " } ,
{ 0xFE9B , " Samsara Networks, Inc " } ,
{ 0xFE9C , " GSI Laboratories, Inc. " } ,
{ 0xFE9D , " Mobiquity Networks Inc " } ,
{ 0xFE9E , " Dialog Semiconductor B.V. " } ,
{ 0xFE9F , " Google Inc. " } ,
{ 0xFEA0 , " Google Inc. " } ,
{ 0xFEA1 , " Intrepid Control Systems, Inc. " } ,
{ 0xFEA2 , " Intrepid Control Systems, Inc. " } ,
{ 0xFEA3 , " ITT Industries " } ,
{ 0xFEA4 , " Paxton Access Ltd " } ,
{ 0xFEA5 , " GoPro, Inc. " } ,
{ 0xFEA6 , " GoPro, Inc. " } ,
{ 0xFEA7 , " UTC Fire and Security " } ,
{ 0xFEA8 , " Savant Systems LLC " } ,
{ 0xFEA9 , " Savant Systems LLC " } ,
{ 0xFEAA , " Google Inc. " } ,
{ 0xFEAB , " Nokia Corporation " } ,
{ 0xFEAC , " Nokia Corporation " } ,
{ 0xFEAD , " Nokia Corporation " } ,
{ 0xFEAE , " Nokia Corporation " } ,
{ 0xFEAF , " Nest Labs Inc. " } ,
{ 0xFEB0 , " Nest Labs Inc. " } ,
{ 0xFEB1 , " Electronics Tomorrow Limited " } ,
{ 0xFEB2 , " Microsoft Corporation " } ,
{ 0xFEB3 , " Taobao " } ,
{ 0xFEB4 , " WiSilica Inc. " } ,
{ 0xFEB5 , " WiSilica Inc. " } ,
{ 0xFEB6 , " Vencer Co, Ltd " } ,
{ 0xFEB7 , " Facebook, Inc. " } ,
{ 0xFEB8 , " Facebook, Inc. " } ,
{ 0xFEB9 , " LG Electronics " } ,
{ 0xFEBA , " Tencent Holdings Limited " } ,
{ 0xFEBB , " adafruit industries " } ,
{ 0xFEBC , " Dexcom, Inc. " } ,
{ 0xFEBD , " Clover Network, Inc. " } ,
{ 0xFEBE , " Bose Corporation " } ,
{ 0xFEBF , " Nod, Inc. " } ,
{ 0xFEC0 , " KDDI Corporation " } ,
{ 0xFEC1 , " KDDI Corporation " } ,
{ 0xFEC2 , " Blue Spark Technologies, Inc. " } ,
{ 0xFEC3 , " 360fly, Inc. " } ,
{ 0xFEC4 , " PLUS Location Systems " } ,
{ 0xFEC5 , " Realtek Semiconductor Corp. " } ,
{ 0xFEC6 , " Kocomojo, LLC " } ,
{ 0xFEC7 , " Apple, Inc. " } ,
{ 0xFEC8 , " Apple, Inc. " } ,
{ 0xFEC9 , " Apple, Inc. " } ,
{ 0xFECA , " Apple, Inc. " } ,
{ 0xFECB , " Apple, Inc. " } ,
{ 0xFECC , " Apple, Inc. " } ,
{ 0xFECD , " Apple, Inc. " } ,
{ 0xFECE , " Apple, Inc. " } ,
{ 0xFECF , " Apple, Inc. " } ,
{ 0xFED0 , " Apple, Inc. " } ,
{ 0xFED1 , " Apple, Inc. " } ,
{ 0xFED2 , " Apple, Inc. " } ,
{ 0xFED3 , " Apple, Inc. " } ,
{ 0xFED4 , " Apple, Inc. " } ,
{ 0xFED5 , " Plantronics Inc. " } ,
{ 0xFED6 , " Broadcom Corporation " } ,
{ 0xFED7 , " Broadcom Corporation " } ,
{ 0xFED8 , " Google Inc. " } ,
{ 0xFED9 , " Pebble Technology Corporation " } ,
{ 0xFEDA , " ISSC Technologies Corporation " } ,
{ 0xFEDB , " Perka, Inc. " } ,
{ 0xFEDC , " Jawbone " } ,
{ 0xFEDD , " Jawbone " } ,
{ 0xFEDE , " Coin, Inc. " } ,
{ 0xFEDF , " Design SHIFT " } ,
{ 0xFEE0 , " Anhui Huami Information Technology Co. " } ,
{ 0xFEE1 , " Anhui Huami Information Technology Co. " } ,
{ 0xFEE2 , " Anki, Inc. " } ,
{ 0xFEE3 , " Anki, Inc. " } ,
{ 0xFEE4 , " Nordic Semiconductor ASA " } ,
{ 0xFEE5 , " Nordic Semiconductor ASA " } ,
{ 0xFEE6 , " Silvair, Inc. " } ,
{ 0xFEE7 , " Tencent Holdings Limited " } ,
{ 0xFEE8 , " Quintic Corp. " } ,
{ 0xFEE9 , " Quintic Corp. " } ,
{ 0xFEEA , " Swirl Networks, Inc. " } ,
{ 0xFEEB , " Swirl Networks, Inc. " } ,
{ 0xFEEC , " Tile, Inc. " } ,
{ 0xFEED , " Tile, Inc. " } ,
{ 0xFEEE , " Polar Electro Oy " } ,
{ 0xFEEF , " Polar Electro Oy " } ,
{ 0xFEF0 , " Intel " } ,
{ 0xFEF1 , " CSR " } ,
{ 0xFEF2 , " CSR " } ,
{ 0xFEF3 , " Google Inc. " } ,
{ 0xFEF4 , " Google Inc. " } ,
{ 0xFEF5 , " Dialog Semiconductor GmbH " } ,
{ 0xFEF6 , " Wicentric, Inc. " } ,
{ 0xFEF7 , " Aplix Corporation " } ,
{ 0xFEF8 , " Aplix Corporation " } ,
{ 0xFEF9 , " PayPal, Inc. " } ,
{ 0xFEFA , " PayPal, Inc. " } ,
{ 0xFEFB , " Telit Wireless Solutions (Formerly Stollmann E+V GmbH) " } ,
{ 0xFEFC , " Gimbal, Inc. " } ,
{ 0xFEFD , " Gimbal, Inc. " } ,
{ 0xFEFE , " GN ReSound A/S " } ,
{ 0xFEFF , " GN Netcom " } ,
{ 0xFFFF , " Reserved " } , /*for testing purposes only*/
# endif
{ 0 , " " }
} ;
typedef struct {
uint32_t assignedNumber ;
const char * name ;
} gattdescriptor_t ;
static const gattdescriptor_t g_descriptor_ids [ ] = {
# if CONFIG_LOG_DEFAULT_LEVEL > 4
{ 0x2905 , " Characteristic Aggregate Format " } ,
{ 0x2900 , " Characteristic Extended Properties " } ,
{ 0x2904 , " Characteristic Presentation Format " } ,
{ 0x2901 , " Characteristic User Description " } ,
{ 0x2902 , " Client Characteristic Configuration " } ,
{ 0x290B , " Environmental Sensing Configuration " } ,
{ 0x290C , " Environmental Sensing Measurement " } ,
{ 0x290D , " Environmental Sensing Trigger Setting " } ,
{ 0x2907 , " External Report Reference " } ,
{ 0x2909 , " Number of Digitals " } ,
{ 0x2908 , " Report Reference " } ,
{ 0x2903 , " Server Characteristic Configuration " } ,
{ 0x290E , " Time Trigger Setting " } ,
{ 0x2906 , " Valid Range " } ,
{ 0x290A , " Value Trigger Setting " } ,
# endif
{ 0 , " " }
} ;
typedef struct {
uint32_t assignedNumber ;
const char * name ;
} characteristicMap_t ;
static const characteristicMap_t g_characteristicsMappings [ ] = {
# if CONFIG_LOG_DEFAULT_LEVEL > 4
{ 0x2A7E , " Aerobic Heart Rate Lower Limit " } ,
{ 0x2A84 , " Aerobic Heart Rate Upper Limit " } ,
{ 0x2A7F , " Aerobic Threshold " } ,
{ 0x2A80 , " Age " } ,
{ 0x2A5A , " Aggregate " } ,
{ 0x2A43 , " Alert Category ID " } ,
{ 0x2A42 , " Alert Category ID Bit Mask " } ,
{ 0x2A06 , " Alert Level " } ,
{ 0x2A44 , " Alert Notification Control Point " } ,
{ 0x2A3F , " Alert Status " } ,
{ 0x2AB3 , " Altitude " } ,
{ 0x2A81 , " Anaerobic Heart Rate Lower Limit " } ,
{ 0x2A82 , " Anaerobic Heart Rate Upper Limit " } ,
{ 0x2A83 , " Anaerobic Threshold " } ,
{ 0x2A58 , " Analog " } ,
{ 0x2A59 , " Analog Output " } ,
{ 0x2A73 , " Apparent Wind Direction " } ,
{ 0x2A72 , " Apparent Wind Speed " } ,
{ 0x2A01 , " Appearance " } ,
{ 0x2AA3 , " Barometric Pressure Trend " } ,
{ 0x2A19 , " Battery Level " } ,
{ 0x2A1B , " Battery Level State " } ,
{ 0x2A1A , " Battery Power State " } ,
{ 0x2A49 , " Blood Pressure Feature " } ,
{ 0x2A35 , " Blood Pressure Measurement " } ,
{ 0x2A9B , " Body Composition Feature " } ,
{ 0x2A9C , " Body Composition Measurement " } ,
{ 0x2A38 , " Body Sensor Location " } ,
{ 0x2AA4 , " Bond Management Control Point " } ,
{ 0x2AA5 , " Bond Management Features " } ,
{ 0x2A22 , " Boot Keyboard Input Report " } ,
{ 0x2A32 , " Boot Keyboard Output Report " } ,
{ 0x2A33 , " Boot Mouse Input Report " } ,
{ 0x2AA6 , " Central Address Resolution " } ,
{ 0x2AA8 , " CGM Feature " } ,
{ 0x2AA7 , " CGM Measurement " } ,
{ 0x2AAB , " CGM Session Run Time " } ,
{ 0x2AAA , " CGM Session Start Time " } ,
{ 0x2AAC , " CGM Specific Ops Control Point " } ,
{ 0x2AA9 , " CGM Status " } ,
{ 0x2ACE , " Cross Trainer Data " } ,
{ 0x2A5C , " CSC Feature " } ,
{ 0x2A5B , " CSC Measurement " } ,
{ 0x2A2B , " Current Time " } ,
{ 0x2A66 , " Cycling Power Control Point " } ,
{ 0x2A66 , " Cycling Power Control Point " } ,
{ 0x2A65 , " Cycling Power Feature " } ,
{ 0x2A65 , " Cycling Power Feature " } ,
{ 0x2A63 , " Cycling Power Measurement " } ,
{ 0x2A64 , " Cycling Power Vector " } ,
{ 0x2A99 , " Database Change Increment " } ,
{ 0x2A85 , " Date of Birth " } ,
{ 0x2A86 , " Date of Threshold Assessment " } ,
{ 0x2A08 , " Date Time " } ,
{ 0x2A0A , " Day Date Time " } ,
{ 0x2A09 , " Day of Week " } ,
{ 0x2A7D , " Descriptor Value Changed " } ,
{ 0x2A00 , " Device Name " } ,
{ 0x2A7B , " Dew Point " } ,
{ 0x2A56 , " Digital " } ,
{ 0x2A57 , " Digital Output " } ,
{ 0x2A0D , " DST Offset " } ,
{ 0x2A6C , " Elevation " } ,
{ 0x2A87 , " Email Address " } ,
{ 0x2A0B , " Exact Time 100 " } ,
{ 0x2A0C , " Exact Time 256 " } ,
{ 0x2A88 , " Fat Burn Heart Rate Lower Limit " } ,
{ 0x2A89 , " Fat Burn Heart Rate Upper Limit " } ,
{ 0x2A26 , " Firmware Revision String " } ,
{ 0x2A8A , " First Name " } ,
{ 0x2AD9 , " Fitness Machine Control Point " } ,
{ 0x2ACC , " Fitness Machine Feature " } ,
{ 0x2ADA , " Fitness Machine Status " } ,
{ 0x2A8B , " Five Zone Heart Rate Limits " } ,
{ 0x2AB2 , " Floor Number " } ,
{ 0x2A8C , " Gender " } ,
{ 0x2A51 , " Glucose Feature " } ,
{ 0x2A18 , " Glucose Measurement " } ,
{ 0x2A34 , " Glucose Measurement Context " } ,
{ 0x2A74 , " Gust Factor " } ,
{ 0x2A27 , " Hardware Revision String " } ,
{ 0x2A39 , " Heart Rate Control Point " } ,
{ 0x2A8D , " Heart Rate Max " } ,
{ 0x2A37 , " Heart Rate Measurement " } ,
{ 0x2A7A , " Heat Index " } ,
{ 0x2A8E , " Height " } ,
{ 0x2A4C , " HID Control Point " } ,
{ 0x2A4A , " HID Information " } ,
{ 0x2A8F , " Hip Circumference " } ,
{ 0x2ABA , " HTTP Control Point " } ,
{ 0x2AB9 , " HTTP Entity Body " } ,
{ 0x2AB7 , " HTTP Headers " } ,
{ 0x2AB8 , " HTTP Status Code " } ,
{ 0x2ABB , " HTTPS Security " } ,
{ 0x2A6F , " Humidity " } ,
{ 0x2A2A , " IEEE 11073-20601 Regulatory Certification Data List " } ,
{ 0x2AD2 , " Indoor Bike Data " } ,
{ 0x2AAD , " Indoor Positioning Configuration " } ,
{ 0x2A36 , " Intermediate Cuff Pressure " } ,
{ 0x2A1E , " Intermediate Temperature " } ,
{ 0x2A77 , " Irradiance " } ,
{ 0x2AA2 , " Language " } ,
{ 0x2A90 , " Last Name " } ,
{ 0x2AAE , " Latitude " } ,
{ 0x2A6B , " LN Control Point " } ,
{ 0x2A6A , " LN Feature " } ,
{ 0x2AB1 , " Local East Coordinate " } ,
{ 0x2AB0 , " Local North Coordinate " } ,
{ 0x2A0F , " Local Time Information " } ,
{ 0x2A67 , " Location and Speed Characteristic " } ,
{ 0x2AB5 , " Location Name " } ,
{ 0x2AAF , " Longitude " } ,
{ 0x2A2C , " Magnetic Declination " } ,
{ 0x2AA0 , " Magnetic Flux Density - 2D " } ,
{ 0x2AA1 , " Magnetic Flux Density - 3D " } ,
{ 0x2A29 , " Manufacturer Name String " } ,
{ 0x2A91 , " Maximum Recommended Heart Rate " } ,
{ 0x2A21 , " Measurement Interval " } ,
{ 0x2A24 , " Model Number String " } ,
{ 0x2A68 , " Navigation " } ,
{ 0x2A3E , " Network Availability " } ,
{ 0x2A46 , " New Alert " } ,
{ 0x2AC5 , " Object Action Control Point " } ,
{ 0x2AC8 , " Object Changed " } ,
{ 0x2AC1 , " Object First-Created " } ,
{ 0x2AC3 , " Object ID " } ,
{ 0x2AC2 , " Object Last-Modified " } ,
{ 0x2AC6 , " Object List Control Point " } ,
{ 0x2AC7 , " Object List Filter " } ,
{ 0x2ABE , " Object Name " } ,
{ 0x2AC4 , " Object Properties " } ,
{ 0x2AC0 , " Object Size " } ,
{ 0x2ABF , " Object Type " } ,
{ 0x2ABD , " OTS Feature " } ,
{ 0x2A04 , " Peripheral Preferred Connection Parameters " } ,
{ 0x2A02 , " Peripheral Privacy Flag " } ,
{ 0x2A5F , " PLX Continuous Measurement Characteristic " } ,
{ 0x2A60 , " PLX Features " } ,
{ 0x2A5E , " PLX Spot-Check Measurement " } ,
{ 0x2A50 , " PnP ID " } ,
{ 0x2A75 , " Pollen Concentration " } ,
{ 0x2A2F , " Position 2D " } ,
{ 0x2A30 , " Position 3D " } ,
{ 0x2A69 , " Position Quality " } ,
{ 0x2A6D , " Pressure " } ,
{ 0x2A4E , " Protocol Mode " } ,
{ 0x2A62 , " Pulse Oximetry Control Point " } ,
{ 0x2A60 , " Pulse Oximetry Pulsatile Event Characteristic " } ,
{ 0x2A78 , " Rainfall " } ,
{ 0x2A03 , " Reconnection Address " } ,
{ 0x2A52 , " Record Access Control Point " } ,
{ 0x2A14 , " Reference Time Information " } ,
{ 0x2A3A , " Removable " } ,
{ 0x2A4D , " Report " } ,
{ 0x2A4B , " Report Map " } ,
{ 0x2AC9 , " Resolvable Private Address Only " } ,
{ 0x2A92 , " Resting Heart Rate " } ,
{ 0x2A40 , " Ringer Control point " } ,
{ 0x2A41 , " Ringer Setting " } ,
{ 0x2AD1 , " Rower Data " } ,
{ 0x2A54 , " RSC Feature " } ,
{ 0x2A53 , " RSC Measurement " } ,
{ 0x2A55 , " SC Control Point " } ,
{ 0x2A4F , " Scan Interval Window " } ,
{ 0x2A31 , " Scan Refresh " } ,
{ 0x2A3C , " Scientific Temperature Celsius " } ,
{ 0x2A10 , " Secondary Time Zone " } ,
{ 0x2A5D , " Sensor Location " } ,
{ 0x2A25 , " Serial Number String " } ,
{ 0x2A05 , " Service Changed " } ,
{ 0x2A3B , " Service Required " } ,
{ 0x2A28 , " Software Revision String " } ,
{ 0x2A93 , " Sport Type for Aerobic and Anaerobic Thresholds " } ,
{ 0x2AD0 , " Stair Climber Data " } ,
{ 0x2ACF , " Step Climber Data " } ,
{ 0x2A3D , " String " } ,
{ 0x2AD7 , " Supported Heart Rate Range " } ,
{ 0x2AD5 , " Supported Inclination Range " } ,
{ 0x2A47 , " Supported New Alert Category " } ,
{ 0x2AD8 , " Supported Power Range " } ,
{ 0x2AD6 , " Supported Resistance Level Range " } ,
{ 0x2AD4 , " Supported Speed Range " } ,
{ 0x2A48 , " Supported Unread Alert Category " } ,
{ 0x2A23 , " System ID " } ,
{ 0x2ABC , " TDS Control Point " } ,
{ 0x2A6E , " Temperature " } ,
{ 0x2A1F , " Temperature Celsius " } ,
{ 0x2A20 , " Temperature Fahrenheit " } ,
{ 0x2A1C , " Temperature Measurement " } ,
{ 0x2A1D , " Temperature Type " } ,
{ 0x2A94 , " Three Zone Heart Rate Limits " } ,
{ 0x2A12 , " Time Accuracy " } ,
{ 0x2A15 , " Time Broadcast " } ,
{ 0x2A13 , " Time Source " } ,
{ 0x2A16 , " Time Update Control Point " } ,
{ 0x2A17 , " Time Update State " } ,
{ 0x2A11 , " Time with DST " } ,
{ 0x2A0E , " Time Zone " } ,
{ 0x2AD3 , " Training Status " } ,
{ 0x2ACD , " Treadmill Data " } ,
{ 0x2A71 , " True Wind Direction " } ,
{ 0x2A70 , " True Wind Speed " } ,
{ 0x2A95 , " Two Zone Heart Rate Limit " } ,
{ 0x2A07 , " Tx Power Level " } ,
{ 0x2AB4 , " Uncertainty " } ,
{ 0x2A45 , " Unread Alert Status " } ,
{ 0x2AB6 , " URI " } ,
{ 0x2A9F , " User Control Point " } ,
{ 0x2A9A , " User Index " } ,
{ 0x2A76 , " UV Index " } ,
{ 0x2A96 , " VO2 Max " } ,
{ 0x2A97 , " Waist Circumference " } ,
{ 0x2A98 , " Weight " } ,
{ 0x2A9D , " Weight Measurement " } ,
{ 0x2A9E , " Weight Scale Feature " } ,
{ 0x2A79 , " Wind Chill " } ,
# endif
{ 0 , " " }
} ;
/**
* @ brief Mapping from service ids to names
*/
typedef struct {
const char * name ;
const char * type ;
uint32_t assignedNumber ;
} gattService_t ;
/**
* Definition of the service ids to names that we know about .
*/
static const gattService_t g_gattServices [ ] = {
# if CONFIG_LOG_DEFAULT_LEVEL > 4
{ " Alert Notification Service " , " org.bluetooth.service.alert_notification " , 0x1811 } ,
{ " Automation IO " , " org.bluetooth.service.automation_io " , 0x1815 } ,
{ " Battery Service " , " org.bluetooth.service.battery_service " , 0x180F } ,
{ " Blood Pressure " , " org.bluetooth.service.blood_pressure " , 0x1810 } ,
{ " Body Composition " , " org.bluetooth.service.body_composition " , 0x181B } ,
{ " Bond Management " , " org.bluetooth.service.bond_management " , 0x181E } ,
{ " Continuous Glucose Monitoring " , " org.bluetooth.service.continuous_glucose_monitoring " , 0x181F } ,
{ " Current Time Service " , " org.bluetooth.service.current_time " , 0x1805 } ,
{ " Cycling Power " , " org.bluetooth.service.cycling_power " , 0x1818 } ,
{ " Cycling Speed and Cadence " , " org.bluetooth.service.cycling_speed_and_cadence " , 0x1816 } ,
{ " Device Information " , " org.bluetooth.service.device_information " , 0x180A } ,
{ " Environmental Sensing " , " org.bluetooth.service.environmental_sensing " , 0x181A } ,
{ " Generic Access " , " org.bluetooth.service.generic_access " , 0x1800 } ,
{ " Generic Attribute " , " org.bluetooth.service.generic_attribute " , 0x1801 } ,
{ " Glucose " , " org.bluetooth.service.glucose " , 0x1808 } ,
{ " Health Thermometer " , " org.bluetooth.service.health_thermometer " , 0x1809 } ,
{ " Heart Rate " , " org.bluetooth.service.heart_rate " , 0x180D } ,
{ " HTTP Proxy " , " org.bluetooth.service.http_proxy " , 0x1823 } ,
{ " Human Interface Device " , " org.bluetooth.service.human_interface_device " , 0x1812 } ,
{ " Immediate Alert " , " org.bluetooth.service.immediate_alert " , 0x1802 } ,
{ " Indoor Positioning " , " org.bluetooth.service.indoor_positioning " , 0x1821 } ,
{ " Internet Protocol Support " , " org.bluetooth.service.internet_protocol_support " , 0x1820 } ,
{ " Link Loss " , " org.bluetooth.service.link_loss " , 0x1803 } ,
{ " Location and Navigation " , " org.bluetooth.service.location_and_navigation " , 0x1819 } ,
{ " Next DST Change Service " , " org.bluetooth.service.next_dst_change " , 0x1807 } ,
{ " Object Transfer " , " org.bluetooth.service.object_transfer " , 0x1825 } ,
{ " Phone Alert Status Service " , " org.bluetooth.service.phone_alert_status " , 0x180E } ,
{ " Pulse Oximeter " , " org.bluetooth.service.pulse_oximeter " , 0x1822 } ,
{ " Reference Time Update Service " , " org.bluetooth.service.reference_time_update " , 0x1806 } ,
{ " Running Speed and Cadence " , " org.bluetooth.service.running_speed_and_cadence " , 0x1814 } ,
{ " Scan Parameters " , " org.bluetooth.service.scan_parameters " , 0x1813 } ,
{ " Transport Discovery " , " org.bluetooth.service.transport_discovery " , 0x1824 } ,
{ " Tx Power " , " org.bluetooth.service.tx_power " , 0x1804 } ,
{ " User Data " , " org.bluetooth.service.user_data " , 0x181C } ,
{ " Weight Scale " , " org.bluetooth.service.weight_scale " , 0x181D } ,
# endif
{ " " , " " , 0 }
} ;
/**
* @ brief Convert characteristic properties into a string representation .
* @ param [ in ] prop Characteristic properties .
* @ return A string representation of characteristic properties .
*/
std : : string BLEUtils : : characteristicPropertiesToString ( esp_gatt_char_prop_t prop ) {
std : : stringstream stream ;
stream < <
" broadcast: " < < ( ( prop & ESP_GATT_CHAR_PROP_BIT_BROADCAST ) ? " 1 " : " 0 " ) < <
" , read: " < < ( ( prop & ESP_GATT_CHAR_PROP_BIT_READ ) ? " 1 " : " 0 " ) < <
" , write_nr: " < < ( ( prop & ESP_GATT_CHAR_PROP_BIT_WRITE_NR ) ? " 1 " : " 0 " ) < <
" , write: " < < ( ( prop & ESP_GATT_CHAR_PROP_BIT_WRITE ) ? " 1 " : " 0 " ) < <
" , notify: " < < ( ( prop & ESP_GATT_CHAR_PROP_BIT_NOTIFY ) ? " 1 " : " 0 " ) < <
" , indicate: " < < ( ( prop & ESP_GATT_CHAR_PROP_BIT_INDICATE ) ? " 1 " : " 0 " ) < <
" , auth: " < < ( ( prop & ESP_GATT_CHAR_PROP_BIT_AUTH ) ? " 1 " : " 0 " ) ;
return stream . str ( ) ;
} // characteristicPropertiesToString
/**
* @ brief Convert an esp_gatt_id_t to a string .
*/
static std : : string gattIdToString ( esp_gatt_id_t gattId ) {
std : : stringstream stream ;
stream < < " uuid: " < < BLEUUID ( gattId . uuid ) . toString ( ) < < " , inst_id: " < < ( int ) gattId . inst_id ;
//sprintf(buffer, "uuid: %s, inst_id: %d", uuidToString(gattId.uuid).c_str(), gattId.inst_id);
return stream . str ( ) ;
} // gattIdToString
/**
* @ brief Convert an esp_ble_addr_type_t to a string representation .
*/
const char * BLEUtils : : addressTypeToString ( esp_ble_addr_type_t type ) {
switch ( type ) {
# if CONFIG_LOG_DEFAULT_LEVEL > 4
case BLE_ADDR_TYPE_PUBLIC :
return " BLE_ADDR_TYPE_PUBLIC " ;
case BLE_ADDR_TYPE_RANDOM :
return " BLE_ADDR_TYPE_RANDOM " ;
case BLE_ADDR_TYPE_RPA_PUBLIC :
return " BLE_ADDR_TYPE_RPA_PUBLIC " ;
case BLE_ADDR_TYPE_RPA_RANDOM :
return " BLE_ADDR_TYPE_RPA_RANDOM " ;
# endif
default :
return " esp_ble_addr_type_t " ;
}
} // addressTypeToString
/**
* @ brief Convert the BLE Advertising Data flags to a string .
* @ param adFlags The flags to convert
* @ return std : : string A string representation of the advertising flags .
*/
std : : string BLEUtils : : adFlagsToString ( uint8_t adFlags ) {
std : : stringstream ss ;
if ( adFlags & ( 1 < < 0 ) ) {
ss < < " [LE Limited Discoverable Mode] " ;
}
if ( adFlags & ( 1 < < 1 ) ) {
ss < < " [LE General Discoverable Mode] " ;
}
if ( adFlags & ( 1 < < 2 ) ) {
ss < < " [BR/EDR Not Supported] " ;
}
if ( adFlags & ( 1 < < 3 ) ) {
ss < < " [Simultaneous LE and BR/EDR to Same Device Capable (Controller)] " ;
}
if ( adFlags & ( 1 < < 4 ) ) {
ss < < " [Simultaneous LE and BR/EDR to Same Device Capable (Host)] " ;
}
return ss . str ( ) ;
} // adFlagsToString
/**
* @ brief Given an advertising type , return a string representation of the type .
*
* For details see . . .
* https : //www.bluetooth.com/specifications/assigned-numbers/generic-access-profile
*
* @ return A string representation of the type .
*/
const char * BLEUtils : : advTypeToString ( uint8_t advType ) {
switch ( advType ) {
# if CONFIG_LOG_DEFAULT_LEVEL > 4
case ESP_BLE_AD_TYPE_FLAG : // 0x01
return " ESP_BLE_AD_TYPE_FLAG " ;
case ESP_BLE_AD_TYPE_16SRV_PART : // 0x02
return " ESP_BLE_AD_TYPE_16SRV_PART " ;
case ESP_BLE_AD_TYPE_16SRV_CMPL : // 0x03
return " ESP_BLE_AD_TYPE_16SRV_CMPL " ;
case ESP_BLE_AD_TYPE_32SRV_PART : // 0x04
return " ESP_BLE_AD_TYPE_32SRV_PART " ;
case ESP_BLE_AD_TYPE_32SRV_CMPL : // 0x05
return " ESP_BLE_AD_TYPE_32SRV_CMPL " ;
case ESP_BLE_AD_TYPE_128SRV_PART : // 0x06
return " ESP_BLE_AD_TYPE_128SRV_PART " ;
case ESP_BLE_AD_TYPE_128SRV_CMPL : // 0x07
return " ESP_BLE_AD_TYPE_128SRV_CMPL " ;
case ESP_BLE_AD_TYPE_NAME_SHORT : // 0x08
return " ESP_BLE_AD_TYPE_NAME_SHORT " ;
case ESP_BLE_AD_TYPE_NAME_CMPL : // 0x09
return " ESP_BLE_AD_TYPE_NAME_CMPL " ;
case ESP_BLE_AD_TYPE_TX_PWR : // 0x0a
return " ESP_BLE_AD_TYPE_TX_PWR " ;
case ESP_BLE_AD_TYPE_DEV_CLASS : // 0x0b
return " ESP_BLE_AD_TYPE_DEV_CLASS " ;
case ESP_BLE_AD_TYPE_SM_TK : // 0x10
return " ESP_BLE_AD_TYPE_SM_TK " ;
case ESP_BLE_AD_TYPE_SM_OOB_FLAG : // 0x11
return " ESP_BLE_AD_TYPE_SM_OOB_FLAG " ;
case ESP_BLE_AD_TYPE_INT_RANGE : // 0x12
return " ESP_BLE_AD_TYPE_INT_RANGE " ;
case ESP_BLE_AD_TYPE_SOL_SRV_UUID : // 0x14
return " ESP_BLE_AD_TYPE_SOL_SRV_UUID " ;
case ESP_BLE_AD_TYPE_128SOL_SRV_UUID : // 0x15
return " ESP_BLE_AD_TYPE_128SOL_SRV_UUID " ;
case ESP_BLE_AD_TYPE_SERVICE_DATA : // 0x16
return " ESP_BLE_AD_TYPE_SERVICE_DATA " ;
case ESP_BLE_AD_TYPE_PUBLIC_TARGET : // 0x17
return " ESP_BLE_AD_TYPE_PUBLIC_TARGET " ;
case ESP_BLE_AD_TYPE_RANDOM_TARGET : // 0x18
return " ESP_BLE_AD_TYPE_RANDOM_TARGET " ;
case ESP_BLE_AD_TYPE_APPEARANCE : // 0x19
return " ESP_BLE_AD_TYPE_APPEARANCE " ;
case ESP_BLE_AD_TYPE_ADV_INT : // 0x1a
return " ESP_BLE_AD_TYPE_ADV_INT " ;
case ESP_BLE_AD_TYPE_32SOL_SRV_UUID :
return " ESP_BLE_AD_TYPE_32SOL_SRV_UUID " ;
case ESP_BLE_AD_TYPE_32SERVICE_DATA : // 0x20
return " ESP_BLE_AD_TYPE_32SERVICE_DATA " ;
case ESP_BLE_AD_TYPE_128SERVICE_DATA : // 0x21
return " ESP_BLE_AD_TYPE_128SERVICE_DATA " ;
case ESP_BLE_AD_MANUFACTURER_SPECIFIC_TYPE : // 0xff
return " ESP_BLE_AD_MANUFACTURER_SPECIFIC_TYPE " ;
# endif
default :
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log_v ( " adv data type: 0x%x " , advType ) ;
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return " " ;
} // End switch
} // advTypeToString
esp_gatt_id_t BLEUtils : : buildGattId ( esp_bt_uuid_t uuid , uint8_t inst_id ) {
esp_gatt_id_t retGattId ;
retGattId . uuid = uuid ;
retGattId . inst_id = inst_id ;
return retGattId ;
}
esp_gatt_srvc_id_t BLEUtils : : buildGattSrvcId ( esp_gatt_id_t gattId , bool is_primary ) {
esp_gatt_srvc_id_t retSrvcId ;
retSrvcId . id = gattId ;
retSrvcId . is_primary = is_primary ;
return retSrvcId ;
}
/**
* @ brief Create a hex representation of data .
*
* @ param [ in ] target Where to write the hex string . If this is null , we malloc storage .
* @ param [ in ] source The start of the binary data .
* @ param [ in ] length The length of the data to convert .
* @ return A pointer to the formatted buffer .
*/
char * BLEUtils : : buildHexData ( uint8_t * target , uint8_t * source , uint8_t length ) {
// Guard against too much data.
if ( length > 100 ) length = 100 ;
if ( target = = nullptr ) {
target = ( uint8_t * ) malloc ( length * 2 + 1 ) ;
if ( target = = nullptr ) {
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log_e ( " buildHexData: malloc failed " ) ;
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return nullptr ;
}
}
char * startOfData = ( char * ) target ;
for ( int i = 0 ; i < length ; i + + ) {
sprintf ( ( char * ) target , " %.2x " , ( char ) * source ) ;
source + + ;
target + = 2 ;
}
// Handle the special case where there was no data.
if ( length = = 0 ) {
* startOfData = 0 ;
}
return startOfData ;
} // buildHexData
/**
* @ brief Build a printable string of memory range .
* Create a string representation of a piece of memory . Only printable characters will be included
* while those that are not printable will be replaced with ' . ' .
* @ param [ in ] source Start of memory .
* @ param [ in ] length Length of memory .
* @ return A string representation of a piece of memory .
*/
std : : string BLEUtils : : buildPrintData ( uint8_t * source , size_t length ) {
std : : ostringstream ss ;
for ( int i = 0 ; i < length ; i + + ) {
char c = * source ;
ss < < ( isprint ( c ) ? c : ' . ' ) ;
source + + ;
}
return ss . str ( ) ;
} // buildPrintData
/**
* @ brief Convert a close / disconnect reason to a string .
* @ param [ in ] reason The close reason .
* @ return A string representation of the reason .
*/
std : : string BLEUtils : : gattCloseReasonToString ( esp_gatt_conn_reason_t reason ) {
switch ( reason ) {
# if CONFIG_LOG_DEFAULT_LEVEL > 4
case ESP_GATT_CONN_UNKNOWN : {
return " ESP_GATT_CONN_UNKNOWN " ;
}
case ESP_GATT_CONN_L2C_FAILURE : {
return " ESP_GATT_CONN_L2C_FAILURE " ;
}
case ESP_GATT_CONN_TIMEOUT : {
return " ESP_GATT_CONN_TIMEOUT " ;
}
case ESP_GATT_CONN_TERMINATE_PEER_USER : {
return " ESP_GATT_CONN_TERMINATE_PEER_USER " ;
}
case ESP_GATT_CONN_TERMINATE_LOCAL_HOST : {
return " ESP_GATT_CONN_TERMINATE_LOCAL_HOST " ;
}
case ESP_GATT_CONN_FAIL_ESTABLISH : {
return " ESP_GATT_CONN_FAIL_ESTABLISH " ;
}
case ESP_GATT_CONN_LMP_TIMEOUT : {
return " ESP_GATT_CONN_LMP_TIMEOUT " ;
}
case ESP_GATT_CONN_CONN_CANCEL : {
return " ESP_GATT_CONN_CONN_CANCEL " ;
}
case ESP_GATT_CONN_NONE : {
return " ESP_GATT_CONN_NONE " ;
}
# endif
default : {
return " Unknown " ;
}
}
} // gattCloseReasonToString
std : : string BLEUtils : : gattClientEventTypeToString ( esp_gattc_cb_event_t eventType ) {
switch ( eventType ) {
# if CONFIG_LOG_DEFAULT_LEVEL > 4
case ESP_GATTC_ACL_EVT :
return " ESP_GATTC_ACL_EVT " ;
case ESP_GATTC_ADV_DATA_EVT :
return " ESP_GATTC_ADV_DATA_EVT " ;
case ESP_GATTC_ADV_VSC_EVT :
return " ESP_GATTC_ADV_VSC_EVT " ;
case ESP_GATTC_BTH_SCAN_CFG_EVT :
return " ESP_GATTC_BTH_SCAN_CFG_EVT " ;
case ESP_GATTC_BTH_SCAN_DIS_EVT :
return " ESP_GATTC_BTH_SCAN_DIS_EVT " ;
case ESP_GATTC_BTH_SCAN_ENB_EVT :
return " ESP_GATTC_BTH_SCAN_ENB_EVT " ;
case ESP_GATTC_BTH_SCAN_PARAM_EVT :
return " ESP_GATTC_BTH_SCAN_PARAM_EVT " ;
case ESP_GATTC_BTH_SCAN_RD_EVT :
return " ESP_GATTC_BTH_SCAN_RD_EVT " ;
case ESP_GATTC_BTH_SCAN_THR_EVT :
return " ESP_GATTC_BTH_SCAN_THR_EVT " ;
case ESP_GATTC_CANCEL_OPEN_EVT :
return " ESP_GATTC_CANCEL_OPEN_EVT " ;
case ESP_GATTC_CFG_MTU_EVT :
return " ESP_GATTC_CFG_MTU_EVT " ;
case ESP_GATTC_CLOSE_EVT :
return " ESP_GATTC_CLOSE_EVT " ;
case ESP_GATTC_CONGEST_EVT :
return " ESP_GATTC_CONGEST_EVT " ;
case ESP_GATTC_CONNECT_EVT :
return " ESP_GATTC_CONNECT_EVT " ;
case ESP_GATTC_DISCONNECT_EVT :
return " ESP_GATTC_DISCONNECT_EVT " ;
case ESP_GATTC_ENC_CMPL_CB_EVT :
return " ESP_GATTC_ENC_CMPL_CB_EVT " ;
case ESP_GATTC_EXEC_EVT :
return " ESP_GATTC_EXEC_EVT " ;
//case ESP_GATTC_GET_CHAR_EVT:
// return "ESP_GATTC_GET_CHAR_EVT";
//case ESP_GATTC_GET_DESCR_EVT:
// return "ESP_GATTC_GET_DESCR_EVT";
//case ESP_GATTC_GET_INCL_SRVC_EVT:
// return "ESP_GATTC_GET_INCL_SRVC_EVT";
case ESP_GATTC_MULT_ADV_DATA_EVT :
return " ESP_GATTC_MULT_ADV_DATA_EVT " ;
case ESP_GATTC_MULT_ADV_DIS_EVT :
return " ESP_GATTC_MULT_ADV_DIS_EVT " ;
case ESP_GATTC_MULT_ADV_ENB_EVT :
return " ESP_GATTC_MULT_ADV_ENB_EVT " ;
case ESP_GATTC_MULT_ADV_UPD_EVT :
return " ESP_GATTC_MULT_ADV_UPD_EVT " ;
case ESP_GATTC_NOTIFY_EVT :
return " ESP_GATTC_NOTIFY_EVT " ;
case ESP_GATTC_OPEN_EVT :
return " ESP_GATTC_OPEN_EVT " ;
case ESP_GATTC_PREP_WRITE_EVT :
return " ESP_GATTC_PREP_WRITE_EVT " ;
case ESP_GATTC_READ_CHAR_EVT :
return " ESP_GATTC_READ_CHAR_EVT " ;
case ESP_GATTC_REG_EVT :
return " ESP_GATTC_REG_EVT " ;
case ESP_GATTC_REG_FOR_NOTIFY_EVT :
return " ESP_GATTC_REG_FOR_NOTIFY_EVT " ;
case ESP_GATTC_SCAN_FLT_CFG_EVT :
return " ESP_GATTC_SCAN_FLT_CFG_EVT " ;
case ESP_GATTC_SCAN_FLT_PARAM_EVT :
return " ESP_GATTC_SCAN_FLT_PARAM_EVT " ;
case ESP_GATTC_SCAN_FLT_STATUS_EVT :
return " ESP_GATTC_SCAN_FLT_STATUS_EVT " ;
case ESP_GATTC_SEARCH_CMPL_EVT :
return " ESP_GATTC_SEARCH_CMPL_EVT " ;
case ESP_GATTC_SEARCH_RES_EVT :
return " ESP_GATTC_SEARCH_RES_EVT " ;
case ESP_GATTC_SRVC_CHG_EVT :
return " ESP_GATTC_SRVC_CHG_EVT " ;
case ESP_GATTC_READ_DESCR_EVT :
return " ESP_GATTC_READ_DESCR_EVT " ;
case ESP_GATTC_UNREG_EVT :
return " ESP_GATTC_UNREG_EVT " ;
case ESP_GATTC_UNREG_FOR_NOTIFY_EVT :
return " ESP_GATTC_UNREG_FOR_NOTIFY_EVT " ;
case ESP_GATTC_WRITE_CHAR_EVT :
return " ESP_GATTC_WRITE_CHAR_EVT " ;
case ESP_GATTC_WRITE_DESCR_EVT :
return " ESP_GATTC_WRITE_DESCR_EVT " ;
# endif
default :
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log_v ( " Unknown GATT Client event type: %d " , eventType ) ;
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return " Unknown " ;
}
} // gattClientEventTypeToString
/**
* @ brief Return a string representation of a GATT server event code .
* @ param [ in ] eventType A GATT server event code .
* @ return A string representation of the GATT server event code .
*/
std : : string BLEUtils : : gattServerEventTypeToString ( esp_gatts_cb_event_t eventType ) {
switch ( eventType ) {
# if CONFIG_LOG_DEFAULT_LEVEL > 4
case ESP_GATTS_REG_EVT :
return " ESP_GATTS_REG_EVT " ;
case ESP_GATTS_READ_EVT :
return " ESP_GATTS_READ_EVT " ;
case ESP_GATTS_WRITE_EVT :
return " ESP_GATTS_WRITE_EVT " ;
case ESP_GATTS_EXEC_WRITE_EVT :
return " ESP_GATTS_EXEC_WRITE_EVT " ;
case ESP_GATTS_MTU_EVT :
return " ESP_GATTS_MTU_EVT " ;
case ESP_GATTS_CONF_EVT :
return " ESP_GATTS_CONF_EVT " ;
case ESP_GATTS_UNREG_EVT :
return " ESP_GATTS_UNREG_EVT " ;
case ESP_GATTS_CREATE_EVT :
return " ESP_GATTS_CREATE_EVT " ;
case ESP_GATTS_ADD_INCL_SRVC_EVT :
return " ESP_GATTS_ADD_INCL_SRVC_EVT " ;
case ESP_GATTS_ADD_CHAR_EVT :
return " ESP_GATTS_ADD_CHAR_EVT " ;
case ESP_GATTS_ADD_CHAR_DESCR_EVT :
return " ESP_GATTS_ADD_CHAR_DESCR_EVT " ;
case ESP_GATTS_DELETE_EVT :
return " ESP_GATTS_DELETE_EVT " ;
case ESP_GATTS_START_EVT :
return " ESP_GATTS_START_EVT " ;
case ESP_GATTS_STOP_EVT :
return " ESP_GATTS_STOP_EVT " ;
case ESP_GATTS_CONNECT_EVT :
return " ESP_GATTS_CONNECT_EVT " ;
case ESP_GATTS_DISCONNECT_EVT :
return " ESP_GATTS_DISCONNECT_EVT " ;
case ESP_GATTS_OPEN_EVT :
return " ESP_GATTS_OPEN_EVT " ;
case ESP_GATTS_CANCEL_OPEN_EVT :
return " ESP_GATTS_CANCEL_OPEN_EVT " ;
case ESP_GATTS_CLOSE_EVT :
return " ESP_GATTS_CLOSE_EVT " ;
case ESP_GATTS_LISTEN_EVT :
return " ESP_GATTS_LISTEN_EVT " ;
case ESP_GATTS_CONGEST_EVT :
return " ESP_GATTS_CONGEST_EVT " ;
case ESP_GATTS_RESPONSE_EVT :
return " ESP_GATTS_RESPONSE_EVT " ;
case ESP_GATTS_CREAT_ATTR_TAB_EVT :
return " ESP_GATTS_CREAT_ATTR_TAB_EVT " ;
case ESP_GATTS_SET_ATTR_VAL_EVT :
return " ESP_GATTS_SET_ATTR_VAL_EVT " ;
case ESP_GATTS_SEND_SERVICE_CHANGE_EVT :
return " ESP_GATTS_SEND_SERVICE_CHANGE_EVT " ;
# endif
default :
return " Unknown " ;
}
} // gattServerEventTypeToString
/**
* @ brief Convert a BLE device type to a string .
* @ param [ in ] type The device type .
*/
const char * BLEUtils : : devTypeToString ( esp_bt_dev_type_t type ) {
switch ( type ) {
# if CONFIG_LOG_DEFAULT_LEVEL > 4
case ESP_BT_DEVICE_TYPE_BREDR :
return " ESP_BT_DEVICE_TYPE_BREDR " ;
case ESP_BT_DEVICE_TYPE_BLE :
return " ESP_BT_DEVICE_TYPE_BLE " ;
case ESP_BT_DEVICE_TYPE_DUMO :
return " ESP_BT_DEVICE_TYPE_DUMO " ;
# endif
default :
return " Unknown " ;
}
} // devTypeToString
/**
* @ brief Dump the GAP event to the log .
*/
void BLEUtils : : dumpGapEvent (
esp_gap_ble_cb_event_t event ,
esp_ble_gap_cb_param_t * param ) {
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log_v ( " Received a GAP event: %s " , gapEventToString ( event ) ) ;
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switch ( event ) {
# if CONFIG_LOG_DEFAULT_LEVEL > 4
// ESP_GAP_BLE_ADV_DATA_SET_COMPLETE_EVT
// adv_data_cmpl
// - esp_bt_status_t
case ESP_GAP_BLE_ADV_DATA_SET_COMPLETE_EVT : {
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log_v ( " [status: %d] " , param - > adv_data_cmpl . status ) ;
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break ;
} // ESP_GAP_BLE_ADV_DATA_SET_COMPLETE_EVT
// ESP_GAP_BLE_ADV_DATA_RAW_SET_COMPLETE_EVT
//
// adv_data_raw_cmpl
// - esp_bt_status_t status
case ESP_GAP_BLE_ADV_DATA_RAW_SET_COMPLETE_EVT : {
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log_v ( " [status: %d] " , param - > adv_data_raw_cmpl . status ) ;
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break ;
} // ESP_GAP_BLE_ADV_DATA_RAW_SET_COMPLETE_EVT
// ESP_GAP_BLE_ADV_START_COMPLETE_EVT
//
// adv_start_cmpl
// - esp_bt_status_t status
case ESP_GAP_BLE_ADV_START_COMPLETE_EVT : {
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log_v ( " [status: %d] " , param - > adv_start_cmpl . status ) ;
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break ;
} // ESP_GAP_BLE_ADV_START_COMPLETE_EVT
// ESP_GAP_BLE_ADV_STOP_COMPLETE_EVT
//
// adv_stop_cmpl
// - esp_bt_status_t status
case ESP_GAP_BLE_ADV_STOP_COMPLETE_EVT : {
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log_v ( " [status: %d] " , param - > adv_stop_cmpl . status ) ;
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break ;
} // ESP_GAP_BLE_ADV_STOP_COMPLETE_EVT
// ESP_GAP_BLE_AUTH_CMPL_EVT
//
// auth_cmpl
// - esp_bd_addr_t bd_addr
// - bool key_present
// - esp_link_key key
// - bool success
// - uint8_t fail_reason
// - esp_bd_addr_type_t addr_type
// - esp_bt_dev_type_t dev_type
case ESP_GAP_BLE_AUTH_CMPL_EVT : {
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log_v ( " [bd_addr: %s, key_present: %d, key: ***, key_type: %d, success: %d, fail_reason: %d, addr_type: ***, dev_type: %s] " ,
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BLEAddress ( param - > ble_security . auth_cmpl . bd_addr ) . toString ( ) . c_str ( ) ,
param - > ble_security . auth_cmpl . key_present ,
param - > ble_security . auth_cmpl . key_type ,
param - > ble_security . auth_cmpl . success ,
param - > ble_security . auth_cmpl . fail_reason ,
BLEUtils : : devTypeToString ( param - > ble_security . auth_cmpl . dev_type )
) ;
break ;
} // ESP_GAP_BLE_AUTH_CMPL_EVT
// ESP_GAP_BLE_CLEAR_BOND_DEV_COMPLETE_EVT
//
// clear_bond_dev_cmpl
// - esp_bt_status_t status
case ESP_GAP_BLE_CLEAR_BOND_DEV_COMPLETE_EVT : {
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log_v ( " [status: %d] " , param - > clear_bond_dev_cmpl . status ) ;
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break ;
} // ESP_GAP_BLE_CLEAR_BOND_DEV_COMPLETE_EVT
// ESP_GAP_BLE_LOCAL_IR_EVT
case ESP_GAP_BLE_LOCAL_IR_EVT : {
break ;
} // ESP_GAP_BLE_LOCAL_IR_EVT
// ESP_GAP_BLE_LOCAL_ER_EVT
case ESP_GAP_BLE_LOCAL_ER_EVT : {
break ;
} // ESP_GAP_BLE_LOCAL_ER_EVT
// ESP_GAP_BLE_NC_REQ_EVT
case ESP_GAP_BLE_NC_REQ_EVT : {
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log_v ( " [bd_addr: %s, passkey: %d] " ,
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BLEAddress ( param - > ble_security . key_notif . bd_addr ) . toString ( ) . c_str ( ) ,
param - > ble_security . key_notif . passkey ) ;
break ;
} // ESP_GAP_BLE_NC_REQ_EVT
// ESP_GAP_BLE_READ_RSSI_COMPLETE_EVT
//
// read_rssi_cmpl
// - esp_bt_status_t status
// - int8_t rssi
// - esp_bd_addr_t remote_addr
case ESP_GAP_BLE_READ_RSSI_COMPLETE_EVT : {
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log_v ( " [status: %d, rssi: %d, remote_addr: %s] " ,
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param - > read_rssi_cmpl . status ,
param - > read_rssi_cmpl . rssi ,
BLEAddress ( param - > read_rssi_cmpl . remote_addr ) . toString ( ) . c_str ( )
) ;
break ;
} // ESP_GAP_BLE_READ_RSSI_COMPLETE_EVT
// ESP_GAP_BLE_SCAN_PARAM_SET_COMPLETE_EVT
//
// scan_param_cmpl.
// - esp_bt_status_t status
case ESP_GAP_BLE_SCAN_PARAM_SET_COMPLETE_EVT : {
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log_v ( " [status: %d] " , param - > scan_param_cmpl . status ) ;
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break ;
} // ESP_GAP_BLE_SCAN_PARAM_SET_COMPLETE_EVT
// ESP_GAP_BLE_SCAN_RESULT_EVT
//
// scan_rst:
// - search_evt
// - bda
// - dev_type
// - ble_addr_type
// - ble_evt_type
// - rssi
// - ble_adv
// - flag
// - num_resps
// - adv_data_len
// - scan_rsp_len
case ESP_GAP_BLE_SCAN_RESULT_EVT : {
switch ( param - > scan_rst . search_evt ) {
case ESP_GAP_SEARCH_INQ_RES_EVT : {
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log_v ( " search_evt: %s, bda: %s, dev_type: %s, ble_addr_type: %s, ble_evt_type: %s, rssi: %d, ble_adv: ??, flag: %d (%s), num_resps: %d, adv_data_len: %d, scan_rsp_len: %d " ,
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searchEventTypeToString ( param - > scan_rst . search_evt ) ,
BLEAddress ( param - > scan_rst . bda ) . toString ( ) . c_str ( ) ,
devTypeToString ( param - > scan_rst . dev_type ) ,
addressTypeToString ( param - > scan_rst . ble_addr_type ) ,
eventTypeToString ( param - > scan_rst . ble_evt_type ) ,
param - > scan_rst . rssi ,
param - > scan_rst . flag ,
adFlagsToString ( param - > scan_rst . flag ) . c_str ( ) ,
param - > scan_rst . num_resps ,
param - > scan_rst . adv_data_len ,
param - > scan_rst . scan_rsp_len
) ;
break ;
} // ESP_GAP_SEARCH_INQ_RES_EVT
default : {
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log_v ( " search_evt: %s " , searchEventTypeToString ( param - > scan_rst . search_evt ) ) ;
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break ;
}
}
break ;
} // ESP_GAP_BLE_SCAN_RESULT_EVT
// ESP_GAP_BLE_SCAN_RSP_DATA_SET_COMPLETE_EVT
//
// scan_rsp_data_cmpl
// - esp_bt_status_t status
case ESP_GAP_BLE_SCAN_RSP_DATA_SET_COMPLETE_EVT : {
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log_v ( " [status: %d] " , param - > scan_rsp_data_cmpl . status ) ;
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break ;
} // ESP_GAP_BLE_SCAN_RSP_DATA_SET_COMPLETE_EVT
// ESP_GAP_BLE_SCAN_RSP_DATA_RAW_SET_COMPLETE_EVT
case ESP_GAP_BLE_SCAN_RSP_DATA_RAW_SET_COMPLETE_EVT : {
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log_v ( " [status: %d] " , param - > scan_rsp_data_raw_cmpl . status ) ;
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break ;
} // ESP_GAP_BLE_SCAN_RSP_DATA_RAW_SET_COMPLETE_EVT
// ESP_GAP_BLE_SCAN_START_COMPLETE_EVT
//
// scan_start_cmpl
// - esp_bt_status_t status
case ESP_GAP_BLE_SCAN_START_COMPLETE_EVT : {
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log_v ( " [status: %d] " , param - > scan_start_cmpl . status ) ;
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break ;
} // ESP_GAP_BLE_SCAN_START_COMPLETE_EVT
// ESP_GAP_BLE_SCAN_STOP_COMPLETE_EVT
//
// scan_stop_cmpl
// - esp_bt_status_t status
case ESP_GAP_BLE_SCAN_STOP_COMPLETE_EVT : {
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log_v ( " [status: %d] " , param - > scan_stop_cmpl . status ) ;
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break ;
} // ESP_GAP_BLE_SCAN_STOP_COMPLETE_EVT
// ESP_GAP_BLE_UPDATE_CONN_PARAMS_EVT
//
// update_conn_params
// - esp_bt_status_t status
// - esp_bd_addr_t bda
// - uint16_t min_int
// - uint16_t max_int
// - uint16_t latency
// - uint16_t conn_int
// - uint16_t timeout
case ESP_GAP_BLE_UPDATE_CONN_PARAMS_EVT : {
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log_v ( " [status: %d, bd_addr: %s, min_int: %d, max_int: %d, latency: %d, conn_int: %d, timeout: %d] " ,
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param - > update_conn_params . status ,
BLEAddress ( param - > update_conn_params . bda ) . toString ( ) . c_str ( ) ,
param - > update_conn_params . min_int ,
param - > update_conn_params . max_int ,
param - > update_conn_params . latency ,
param - > update_conn_params . conn_int ,
param - > update_conn_params . timeout
) ;
break ;
} // ESP_GAP_BLE_SCAN_UPDATE_CONN_PARAMS_EVT
// ESP_GAP_BLE_SEC_REQ_EVT
case ESP_GAP_BLE_SEC_REQ_EVT : {
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log_v ( " [bd_addr: %s] " , BLEAddress ( param - > ble_security . ble_req . bd_addr ) . toString ( ) . c_str ( ) ) ;
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break ;
} // ESP_GAP_BLE_SEC_REQ_EVT
# endif
default : {
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log_v ( " *** dumpGapEvent: Logger not coded *** " ) ;
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break ;
} // default
} // switch
} // dumpGapEvent
/**
* @ brief Decode and dump a GATT client event
*
* @ param [ in ] event The type of event received .
* @ param [ in ] evtParam The data associated with the event .
*/
void BLEUtils : : dumpGattClientEvent (
esp_gattc_cb_event_t event ,
esp_gatt_if_t gattc_if ,
esp_ble_gattc_cb_param_t * evtParam ) {
//esp_ble_gattc_cb_param_t* evtParam = (esp_ble_gattc_cb_param_t*) param;
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log_v ( " GATT Event: %s " , BLEUtils : : gattClientEventTypeToString ( event ) . c_str ( ) ) ;
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switch ( event ) {
# if CONFIG_LOG_DEFAULT_LEVEL > 4
// ESP_GATTC_CLOSE_EVT
//
// close:
// - esp_gatt_status_t status
// - uint16_t conn_id
// - esp_bd_addr_t remote_bda
// - esp_gatt_conn_reason_t reason
case ESP_GATTC_CLOSE_EVT : {
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log_v ( " [status: %s, reason:%s, conn_id: %d] " ,
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BLEUtils : : gattStatusToString ( evtParam - > close . status ) . c_str ( ) ,
BLEUtils : : gattCloseReasonToString ( evtParam - > close . reason ) . c_str ( ) ,
evtParam - > close . conn_id ) ;
break ;
}
// ESP_GATTC_CONNECT_EVT
//
// connect:
// - esp_gatt_status_t status
// - uint16_t conn_id
// - esp_bd_addr_t remote_bda
case ESP_GATTC_CONNECT_EVT : {
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log_v ( " [conn_id: %d, remote_bda: %s] " ,
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evtParam - > connect . conn_id ,
BLEAddress ( evtParam - > connect . remote_bda ) . toString ( ) . c_str ( )
) ;
break ;
}
// ESP_GATTC_DISCONNECT_EVT
//
// disconnect:
// - esp_gatt_conn_reason_t reason
// - uint16_t conn_id
// - esp_bd_addr_t remote_bda
case ESP_GATTC_DISCONNECT_EVT : {
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log_v ( " [reason: %s, conn_id: %d, remote_bda: %s] " ,
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BLEUtils : : gattCloseReasonToString ( evtParam - > disconnect . reason ) . c_str ( ) ,
evtParam - > disconnect . conn_id ,
BLEAddress ( evtParam - > disconnect . remote_bda ) . toString ( ) . c_str ( )
) ;
break ;
} // ESP_GATTC_DISCONNECT_EVT
// ESP_GATTC_GET_CHAR_EVT
//
// get_char:
// - esp_gatt_status_t status
// - uin1t6_t conn_id
// - esp_gatt_srvc_id_t srvc_id
// - esp_gatt_id_t char_id
// - esp_gatt_char_prop_t char_prop
/*
case ESP_GATTC_GET_CHAR_EVT : {
// If the status of the event shows that we have a value other than ESP_GATT_OK then the
// characteristic fields are not set to a usable value .. so don't try and log them.
if ( evtParam - > get_char . status = = ESP_GATT_OK ) {
std : : string description = " Unknown " ;
if ( evtParam - > get_char . char_id . uuid . len = = ESP_UUID_LEN_16 ) {
description = BLEUtils : : gattCharacteristicUUIDToString ( evtParam - > get_char . char_id . uuid . uuid . uuid16 ) ;
}
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log_v ( " [status: %s, conn_id: %d, srvc_id: %s, char_id: %s [description: %s] \n char_prop: %s] " ,
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BLEUtils : : gattStatusToString ( evtParam - > get_char . status ) . c_str ( ) ,
evtParam - > get_char . conn_id ,
BLEUtils : : gattServiceIdToString ( evtParam - > get_char . srvc_id ) . c_str ( ) ,
gattIdToString ( evtParam - > get_char . char_id ) . c_str ( ) ,
description . c_str ( ) ,
BLEUtils : : characteristicPropertiesToString ( evtParam - > get_char . char_prop ) . c_str ( )
) ;
} else {
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log_v ( " [status: %s, conn_id: %d, srvc_id: %s] " ,
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BLEUtils : : gattStatusToString ( evtParam - > get_char . status ) . c_str ( ) ,
evtParam - > get_char . conn_id ,
BLEUtils : : gattServiceIdToString ( evtParam - > get_char . srvc_id ) . c_str ( )
) ;
}
break ;
} // ESP_GATTC_GET_CHAR_EVT
*/
// ESP_GATTC_NOTIFY_EVT
//
// notify
// uint16_t conn_id
// esp_bd_addr_t remote_bda
// handle handle
// uint16_t value_len
// uint8_t* value
// bool is_notify
//
case ESP_GATTC_NOTIFY_EVT : {
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log_v ( " [conn_id: %d, remote_bda: %s, handle: %d 0x%.2x, value_len: %d, is_notify: %d] " ,
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evtParam - > notify . conn_id ,
BLEAddress ( evtParam - > notify . remote_bda ) . toString ( ) . c_str ( ) ,
evtParam - > notify . handle ,
evtParam - > notify . handle ,
evtParam - > notify . value_len ,
evtParam - > notify . is_notify
) ;
break ;
}
// ESP_GATTC_OPEN_EVT
//
// open:
// - esp_gatt_status_t status
// - uint16_t conn_id
// - esp_bd_addr_t remote_bda
// - uint16_t mtu
//
case ESP_GATTC_OPEN_EVT : {
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log_v ( " [status: %s, conn_id: %d, remote_bda: %s, mtu: %d] " ,
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BLEUtils : : gattStatusToString ( evtParam - > open . status ) . c_str ( ) ,
evtParam - > open . conn_id ,
BLEAddress ( evtParam - > open . remote_bda ) . toString ( ) . c_str ( ) ,
evtParam - > open . mtu ) ;
break ;
} // ESP_GATTC_OPEN_EVT
// ESP_GATTC_READ_CHAR_EVT
//
// Callback to indicate that requested data that we wanted to read is now available.
//
// read:
// esp_gatt_status_t status
// uint16_t conn_id
// uint16_t handle
// uint8_t* value
// uint16_t value_type
// uint16_t value_len
case ESP_GATTC_READ_CHAR_EVT : {
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log_v ( " [status: %s, conn_id: %d, handle: %d 0x%.2x, value_len: %d] " ,
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BLEUtils : : gattStatusToString ( evtParam - > read . status ) . c_str ( ) ,
evtParam - > read . conn_id ,
evtParam - > read . handle ,
evtParam - > read . handle ,
evtParam - > read . value_len
) ;
if ( evtParam - > read . status = = ESP_GATT_OK ) {
GeneralUtils : : hexDump ( evtParam - > read . value , evtParam - > read . value_len ) ;
/*
char * pHexData = BLEUtils : : buildHexData ( nullptr , evtParam - > read . value , evtParam - > read . value_len ) ;
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log_v ( " value: %s \" %s \" " , pHexData , BLEUtils : : buildPrintData ( evtParam - > read . value , evtParam - > read . value_len ) . c_str ( ) ) ;
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free ( pHexData ) ;
*/
}
break ;
} // ESP_GATTC_READ_CHAR_EVT
// ESP_GATTC_REG_EVT
//
// reg:
// - esp_gatt_status_t status
// - uint16_t app_id
case ESP_GATTC_REG_EVT : {
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log_v ( " [status: %s, app_id: 0x%x] " ,
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BLEUtils : : gattStatusToString ( evtParam - > reg . status ) . c_str ( ) ,
evtParam - > reg . app_id ) ;
break ;
} // ESP_GATTC_REG_EVT
// ESP_GATTC_REG_FOR_NOTIFY_EVT
//
// reg_for_notify:
// - esp_gatt_status_t status
// - uint16_t handle
case ESP_GATTC_REG_FOR_NOTIFY_EVT : {
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log_v ( " [status: %s, handle: %d 0x%.2x] " ,
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BLEUtils : : gattStatusToString ( evtParam - > reg_for_notify . status ) . c_str ( ) ,
evtParam - > reg_for_notify . handle ,
evtParam - > reg_for_notify . handle
) ;
break ;
} // ESP_GATTC_REG_FOR_NOTIFY_EVT
// ESP_GATTC_SEARCH_CMPL_EVT
//
// search_cmpl:
// - esp_gatt_status_t status
// - uint16_t conn_id
case ESP_GATTC_SEARCH_CMPL_EVT : {
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log_v ( " [status: %s, conn_id: %d] " ,
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BLEUtils : : gattStatusToString ( evtParam - > search_cmpl . status ) . c_str ( ) ,
evtParam - > search_cmpl . conn_id ) ;
break ;
} // ESP_GATTC_SEARCH_CMPL_EVT
// ESP_GATTC_SEARCH_RES_EVT
//
// search_res:
// - uint16_t conn_id
// - uint16_t start_handle
// - uint16_t end_handle
// - esp_gatt_id_t srvc_id
case ESP_GATTC_SEARCH_RES_EVT : {
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log_v ( " [conn_id: %d, start_handle: %d 0x%.2x, end_handle: %d 0x%.2x, srvc_id: %s " ,
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evtParam - > search_res . conn_id ,
evtParam - > search_res . start_handle ,
evtParam - > search_res . start_handle ,
evtParam - > search_res . end_handle ,
evtParam - > search_res . end_handle ,
gattIdToString ( evtParam - > search_res . srvc_id ) . c_str ( ) ) ;
break ;
} // ESP_GATTC_SEARCH_RES_EVT
// ESP_GATTC_WRITE_CHAR_EVT
//
// write:
// - esp_gatt_status_t status
// - uint16_t conn_id
// - uint16_t handle
// - uint16_t offset
case ESP_GATTC_WRITE_CHAR_EVT : {
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log_v ( " [status: %s, conn_id: %d, handle: %d 0x%.2x, offset: %d] " ,
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BLEUtils : : gattStatusToString ( evtParam - > write . status ) . c_str ( ) ,
evtParam - > write . conn_id ,
evtParam - > write . handle ,
evtParam - > write . handle ,
evtParam - > write . offset
) ;
break ;
} // ESP_GATTC_WRITE_CHAR_EVT
# endif
default :
break ;
}
} // dumpGattClientEvent
/**
* @ brief Dump the details of a GATT server event .
* A GATT Server event is a callback received from the BLE subsystem when we are acting as a BLE
* server . The callback indicates the type of event in the ` event ` field . The ` evtParam ` is a
* union of structures where we can use the ` event ` to indicate which of the structures has been
* populated and hence is valid .
*
* @ param [ in ] event The event type that was posted .
* @ param [ in ] evtParam A union of structures only one of which is populated .
*/
void BLEUtils : : dumpGattServerEvent (
esp_gatts_cb_event_t event ,
esp_gatt_if_t gatts_if ,
esp_ble_gatts_cb_param_t * evtParam ) {
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log_v ( " GATT ServerEvent: %s " , BLEUtils : : gattServerEventTypeToString ( event ) . c_str ( ) ) ;
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switch ( event ) {
# if CONFIG_LOG_DEFAULT_LEVEL > 4
case ESP_GATTS_ADD_CHAR_DESCR_EVT : {
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log_v ( " [status: %s, attr_handle: %d 0x%.2x, service_handle: %d 0x%.2x, char_uuid: %s] " ,
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gattStatusToString ( evtParam - > add_char_descr . status ) . c_str ( ) ,
evtParam - > add_char_descr . attr_handle ,
evtParam - > add_char_descr . attr_handle ,
evtParam - > add_char_descr . service_handle ,
evtParam - > add_char_descr . service_handle ,
BLEUUID ( evtParam - > add_char_descr . descr_uuid ) . toString ( ) . c_str ( ) ) ;
break ;
} // ESP_GATTS_ADD_CHAR_DESCR_EVT
case ESP_GATTS_ADD_CHAR_EVT : {
if ( evtParam - > add_char . status = = ESP_GATT_OK ) {
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log_v ( " [status: %s, attr_handle: %d 0x%.2x, service_handle: %d 0x%.2x, char_uuid: %s] " ,
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gattStatusToString ( evtParam - > add_char . status ) . c_str ( ) ,
evtParam - > add_char . attr_handle ,
evtParam - > add_char . attr_handle ,
evtParam - > add_char . service_handle ,
evtParam - > add_char . service_handle ,
BLEUUID ( evtParam - > add_char . char_uuid ) . toString ( ) . c_str ( ) ) ;
} else {
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log_e ( " [status: %s, attr_handle: %d 0x%.2x, service_handle: %d 0x%.2x, char_uuid: %s] " ,
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gattStatusToString ( evtParam - > add_char . status ) . c_str ( ) ,
evtParam - > add_char . attr_handle ,
evtParam - > add_char . attr_handle ,
evtParam - > add_char . service_handle ,
evtParam - > add_char . service_handle ,
BLEUUID ( evtParam - > add_char . char_uuid ) . toString ( ) . c_str ( ) ) ;
}
break ;
} // ESP_GATTS_ADD_CHAR_EVT
// ESP_GATTS_CONF_EVT
//
// conf:
// - esp_gatt_status_t status – The status code.
// - uint16_t conn_id – The connection used.
case ESP_GATTS_CONF_EVT : {
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log_v ( " [status: %s, conn_id: 0x%.2x] " ,
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gattStatusToString ( evtParam - > conf . status ) . c_str ( ) ,
evtParam - > conf . conn_id ) ;
break ;
} // ESP_GATTS_CONF_EVT
case ESP_GATTS_CONGEST_EVT : {
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log_v ( " [conn_id: %d, congested: %d] " ,
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evtParam - > congest . conn_id ,
evtParam - > congest . congested ) ;
break ;
} // ESP_GATTS_CONGEST_EVT
case ESP_GATTS_CONNECT_EVT : {
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log_v ( " [conn_id: %d, remote_bda: %s] " ,
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evtParam - > connect . conn_id ,
BLEAddress ( evtParam - > connect . remote_bda ) . toString ( ) . c_str ( ) ) ;
break ;
} // ESP_GATTS_CONNECT_EVT
case ESP_GATTS_CREATE_EVT : {
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log_v ( " [status: %s, service_handle: %d 0x%.2x, service_id: [%s]] " ,
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gattStatusToString ( evtParam - > create . status ) . c_str ( ) ,
evtParam - > create . service_handle ,
evtParam - > create . service_handle ,
gattServiceIdToString ( evtParam - > create . service_id ) . c_str ( ) ) ;
break ;
} // ESP_GATTS_CREATE_EVT
case ESP_GATTS_DISCONNECT_EVT : {
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log_v ( " [conn_id: %d, remote_bda: %s] " ,
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evtParam - > connect . conn_id ,
BLEAddress ( evtParam - > connect . remote_bda ) . toString ( ) . c_str ( ) ) ;
break ;
} // ESP_GATTS_DISCONNECT_EVT
// ESP_GATTS_EXEC_WRITE_EVT
// exec_write:
// - uint16_t conn_id
// - uint32_t trans_id
// - esp_bd_addr_t bda
// - uint8_t exec_write_flag
case ESP_GATTS_EXEC_WRITE_EVT : {
char * pWriteFlagText ;
switch ( evtParam - > exec_write . exec_write_flag ) {
case ESP_GATT_PREP_WRITE_EXEC : {
pWriteFlagText = ( char * ) " WRITE " ;
break ;
}
case ESP_GATT_PREP_WRITE_CANCEL : {
pWriteFlagText = ( char * ) " CANCEL " ;
break ;
}
default :
pWriteFlagText = ( char * ) " <Unknown> " ;
break ;
}
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log_v ( " [conn_id: %d, trans_id: %d, bda: %s, exec_write_flag: 0x%.2x=%s] " ,
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evtParam - > exec_write . conn_id ,
evtParam - > exec_write . trans_id ,
BLEAddress ( evtParam - > exec_write . bda ) . toString ( ) . c_str ( ) ,
evtParam - > exec_write . exec_write_flag ,
pWriteFlagText ) ;
break ;
} // ESP_GATTS_DISCONNECT_EVT
case ESP_GATTS_MTU_EVT : {
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log_v ( " [conn_id: %d, mtu: %d] " ,
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evtParam - > mtu . conn_id ,
evtParam - > mtu . mtu ) ;
break ;
} // ESP_GATTS_MTU_EVT
case ESP_GATTS_READ_EVT : {
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log_v ( " [conn_id: %d, trans_id: %d, bda: %s, handle: 0x%.2x, is_long: %d, need_rsp:%d] " ,
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evtParam - > read . conn_id ,
evtParam - > read . trans_id ,
BLEAddress ( evtParam - > read . bda ) . toString ( ) . c_str ( ) ,
evtParam - > read . handle ,
evtParam - > read . is_long ,
evtParam - > read . need_rsp ) ;
break ;
} // ESP_GATTS_READ_EVT
case ESP_GATTS_RESPONSE_EVT : {
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log_v ( " [status: %s, handle: 0x%.2x] " ,
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gattStatusToString ( evtParam - > rsp . status ) . c_str ( ) ,
evtParam - > rsp . handle ) ;
break ;
} // ESP_GATTS_RESPONSE_EVT
case ESP_GATTS_REG_EVT : {
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log_v ( " [status: %s, app_id: %d] " ,
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gattStatusToString ( evtParam - > reg . status ) . c_str ( ) ,
evtParam - > reg . app_id ) ;
break ;
} // ESP_GATTS_REG_EVT
// ESP_GATTS_START_EVT
//
// start:
// - esp_gatt_status_t status
// - uint16_t service_handle
case ESP_GATTS_START_EVT : {
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log_v ( " [status: %s, service_handle: 0x%.2x] " ,
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gattStatusToString ( evtParam - > start . status ) . c_str ( ) ,
evtParam - > start . service_handle ) ;
break ;
} // ESP_GATTS_START_EVT
// ESP_GATTS_WRITE_EVT
//
// write:
// - uint16_t conn_id – The connection id.
// - uint16_t trans_id – The transfer id.
// - esp_bd_addr_t bda – The address of the partner.
// - uint16_t handle – The attribute handle.
// - uint16_t offset – The offset of the currently received within the whole value.
// - bool need_rsp – Do we need a response?
// - bool is_prep – Is this a write prepare? If set, then this is to be considered part of the received value and not the whole value. A subsequent ESP_GATTS_EXEC_WRITE will mark the total.
// - uint16_t len – The length of the incoming value part.
// - uint8_t* value – The data for this value part.
case ESP_GATTS_WRITE_EVT : {
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log_v ( " [conn_id: %d, trans_id: %d, bda: %s, handle: 0x%.2x, offset: %d, need_rsp: %d, is_prep: %d, len: %d] " ,
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evtParam - > write . conn_id ,
evtParam - > write . trans_id ,
BLEAddress ( evtParam - > write . bda ) . toString ( ) . c_str ( ) ,
evtParam - > write . handle ,
evtParam - > write . offset ,
evtParam - > write . need_rsp ,
evtParam - > write . is_prep ,
evtParam - > write . len ) ;
char * pHex = buildHexData ( nullptr , evtParam - > write . value , evtParam - > write . len ) ;
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log_v ( " [Data: %s] " , pHex ) ;
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free ( pHex ) ;
break ;
} // ESP_GATTS_WRITE_EVT
# endif
default :
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log_v ( " dumpGattServerEvent: *** NOT CODED *** " ) ;
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break ;
}
} // dumpGattServerEvent
/**
* @ brief Convert a BLE event type to a string .
* @ param [ in ] eventType The event type .
* @ return The event type as a string .
*/
const char * BLEUtils : : eventTypeToString ( esp_ble_evt_type_t eventType ) {
switch ( eventType ) {
# if CONFIG_LOG_DEFAULT_LEVEL > 4
case ESP_BLE_EVT_CONN_ADV :
return " ESP_BLE_EVT_CONN_ADV " ;
case ESP_BLE_EVT_CONN_DIR_ADV :
return " ESP_BLE_EVT_CONN_DIR_ADV " ;
case ESP_BLE_EVT_DISC_ADV :
return " ESP_BLE_EVT_DISC_ADV " ;
case ESP_BLE_EVT_NON_CONN_ADV :
return " ESP_BLE_EVT_NON_CONN_ADV " ;
case ESP_BLE_EVT_SCAN_RSP :
return " ESP_BLE_EVT_SCAN_RSP " ;
# endif
default :
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log_v ( " Unknown esp_ble_evt_type_t: %d (0x%.2x) " , eventType , eventType ) ;
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return " *** Unknown *** " ;
}
} // eventTypeToString
/**
* @ brief Convert a BT GAP event type to a string representation .
* @ param [ in ] eventType The type of event .
* @ return A string representation of the event type .
*/
const char * BLEUtils : : gapEventToString ( uint32_t eventType ) {
switch ( eventType ) {
# if CONFIG_LOG_DEFAULT_LEVEL > 4
case ESP_GAP_BLE_ADV_DATA_SET_COMPLETE_EVT :
return " ESP_GAP_BLE_ADV_DATA_SET_COMPLETE_EVT " ;
case ESP_GAP_BLE_ADV_DATA_RAW_SET_COMPLETE_EVT :
return " ESP_GAP_BLE_ADV_DATA_RAW_SET_COMPLETE_EVT " ;
case ESP_GAP_BLE_ADV_START_COMPLETE_EVT :
return " ESP_GAP_BLE_ADV_START_COMPLETE_EVT " ;
case ESP_GAP_BLE_ADV_STOP_COMPLETE_EVT : /* !< When stop adv complete, the event comes */
return " ESP_GAP_BLE_ADV_STOP_COMPLETE_EVT " ;
case ESP_GAP_BLE_AUTH_CMPL_EVT : /* Authentication complete indication. */
return " ESP_GAP_BLE_AUTH_CMPL_EVT " ;
case ESP_GAP_BLE_CLEAR_BOND_DEV_COMPLETE_EVT :
return " ESP_GAP_BLE_CLEAR_BOND_DEV_COMPLETE_EVT " ;
case ESP_GAP_BLE_GET_BOND_DEV_COMPLETE_EVT :
return " ESP_GAP_BLE_GET_BOND_DEV_COMPLETE_EVT " ;
case ESP_GAP_BLE_KEY_EVT : /* BLE key event for peer device keys */
return " ESP_GAP_BLE_KEY_EVT " ;
case ESP_GAP_BLE_LOCAL_IR_EVT : /* BLE local IR event */
return " ESP_GAP_BLE_LOCAL_IR_EVT " ;
case ESP_GAP_BLE_LOCAL_ER_EVT : /* BLE local ER event */
return " ESP_GAP_BLE_LOCAL_ER_EVT " ;
case ESP_GAP_BLE_NC_REQ_EVT : /* Numeric Comparison request event */
return " ESP_GAP_BLE_NC_REQ_EVT " ;
case ESP_GAP_BLE_OOB_REQ_EVT : /* OOB request event */
return " ESP_GAP_BLE_OOB_REQ_EVT " ;
case ESP_GAP_BLE_PASSKEY_NOTIF_EVT : /* passkey notification event */
return " ESP_GAP_BLE_PASSKEY_NOTIF_EVT " ;
case ESP_GAP_BLE_PASSKEY_REQ_EVT : /* passkey request event */
return " ESP_GAP_BLE_PASSKEY_REQ_EVT " ;
case ESP_GAP_BLE_READ_RSSI_COMPLETE_EVT :
return " ESP_GAP_BLE_READ_RSSI_COMPLETE_EVT " ;
case ESP_GAP_BLE_REMOVE_BOND_DEV_COMPLETE_EVT :
return " ESP_GAP_BLE_REMOVE_BOND_DEV_COMPLETE_EVT " ;
case ESP_GAP_BLE_SCAN_PARAM_SET_COMPLETE_EVT :
return " ESP_GAP_BLE_SCAN_PARAM_SET_COMPLETE_EVT " ;
case ESP_GAP_BLE_SCAN_RESULT_EVT :
return " ESP_GAP_BLE_SCAN_RESULT_EVT " ;
case ESP_GAP_BLE_SCAN_RSP_DATA_RAW_SET_COMPLETE_EVT :
return " ESP_GAP_BLE_SCAN_RSP_DATA_RAW_SET_COMPLETE_EVT " ;
case ESP_GAP_BLE_SCAN_RSP_DATA_SET_COMPLETE_EVT :
return " ESP_GAP_BLE_SCAN_RSP_DATA_SET_COMPLETE_EVT " ;
case ESP_GAP_BLE_SCAN_START_COMPLETE_EVT :
return " ESP_GAP_BLE_SCAN_START_COMPLETE_EVT " ;
case ESP_GAP_BLE_SCAN_STOP_COMPLETE_EVT :
return " ESP_GAP_BLE_SCAN_STOP_COMPLETE_EVT " ;
case ESP_GAP_BLE_SEC_REQ_EVT : /* BLE security request */
return " ESP_GAP_BLE_SEC_REQ_EVT " ;
case ESP_GAP_BLE_SET_LOCAL_PRIVACY_COMPLETE_EVT :
return " ESP_GAP_BLE_SET_LOCAL_PRIVACY_COMPLETE_EVT " ;
case ESP_GAP_BLE_SET_PKT_LENGTH_COMPLETE_EVT :
return " ESP_GAP_BLE_SET_PKT_LENGTH_COMPLETE_EVT " ;
case ESP_GAP_BLE_SET_STATIC_RAND_ADDR_EVT :
return " ESP_GAP_BLE_SET_STATIC_RAND_ADDR_EVT " ;
case ESP_GAP_BLE_UPDATE_CONN_PARAMS_EVT :
return " ESP_GAP_BLE_UPDATE_CONN_PARAMS_EVT " ;
# endif
default :
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log_v ( " gapEventToString: Unknown event type %d 0x%.2x " , eventType , eventType ) ;
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return " Unknown event type " ;
}
} // gapEventToString
std : : string BLEUtils : : gattCharacteristicUUIDToString ( uint32_t characteristicUUID ) {
const characteristicMap_t * p = g_characteristicsMappings ;
while ( strlen ( p - > name ) > 0 ) {
if ( p - > assignedNumber = = characteristicUUID ) {
return std : : string ( p - > name ) ;
}
p + + ;
}
return " Unknown " ;
} // gattCharacteristicUUIDToString
/**
* @ brief Given the UUID for a BLE defined descriptor , return its string representation .
* @ param [ in ] descriptorUUID UUID of the descriptor to be returned as a string .
* @ return The string representation of a descriptor UUID .
*/
std : : string BLEUtils : : gattDescriptorUUIDToString ( uint32_t descriptorUUID ) {
gattdescriptor_t * p = ( gattdescriptor_t * ) g_descriptor_ids ;
while ( strlen ( p - > name ) > 0 ) {
if ( p - > assignedNumber = = descriptorUUID ) {
return std : : string ( p - > name ) ;
}
p + + ;
}
return " " ;
} // gattDescriptorUUIDToString
/**
* @ brief Return a string representation of an esp_gattc_service_elem_t .
* @ return A string representation of an esp_gattc_service_elem_t .
*/
std : : string BLEUtils : : gattcServiceElementToString ( esp_gattc_service_elem_t * pGATTCServiceElement ) {
std : : stringstream ss ;
ss < < " [uuid: " < < BLEUUID ( pGATTCServiceElement - > uuid ) . toString ( ) < <
" , start_handle: " < < pGATTCServiceElement - > start_handle < <
" 0x " < < std : : hex < < pGATTCServiceElement - > start_handle < <
" , end_handle: " < < std : : dec < < pGATTCServiceElement - > end_handle < <
" 0x " < < std : : hex < < pGATTCServiceElement - > end_handle < < " ] " ;
return ss . str ( ) ;
} // gattcServiceElementToString
/**
* @ brief Convert an esp_gatt_srvc_id_t to a string .
*/
std : : string BLEUtils : : gattServiceIdToString ( esp_gatt_srvc_id_t srvcId ) {
return gattIdToString ( srvcId . id ) ;
} // gattServiceIdToString
std : : string BLEUtils : : gattServiceToString ( uint32_t serviceId ) {
gattService_t * p = ( gattService_t * ) g_gattServices ;
while ( strlen ( p - > name ) > 0 ) {
if ( p - > assignedNumber = = serviceId ) {
return std : : string ( p - > name ) ;
}
p + + ;
}
return " Unknown " ;
} // gattServiceToString
/**
* @ brief Convert a GATT status to a string .
*
* @ param [ in ] status The status to convert .
* @ return A string representation of the status .
*/
std : : string BLEUtils : : gattStatusToString ( esp_gatt_status_t status ) {
switch ( status ) {
# if CONFIG_LOG_DEFAULT_LEVEL > 4
case ESP_GATT_OK :
return " ESP_GATT_OK " ;
case ESP_GATT_INVALID_HANDLE :
return " ESP_GATT_INVALID_HANDLE " ;
case ESP_GATT_READ_NOT_PERMIT :
return " ESP_GATT_READ_NOT_PERMIT " ;
case ESP_GATT_WRITE_NOT_PERMIT :
return " ESP_GATT_WRITE_NOT_PERMIT " ;
case ESP_GATT_INVALID_PDU :
return " ESP_GATT_INVALID_PDU " ;
case ESP_GATT_INSUF_AUTHENTICATION :
return " ESP_GATT_INSUF_AUTHENTICATION " ;
case ESP_GATT_REQ_NOT_SUPPORTED :
return " ESP_GATT_REQ_NOT_SUPPORTED " ;
case ESP_GATT_INVALID_OFFSET :
return " ESP_GATT_INVALID_OFFSET " ;
case ESP_GATT_INSUF_AUTHORIZATION :
return " ESP_GATT_INSUF_AUTHORIZATION " ;
case ESP_GATT_PREPARE_Q_FULL :
return " ESP_GATT_PREPARE_Q_FULL " ;
case ESP_GATT_NOT_FOUND :
return " ESP_GATT_NOT_FOUND " ;
case ESP_GATT_NOT_LONG :
return " ESP_GATT_NOT_LONG " ;
case ESP_GATT_INSUF_KEY_SIZE :
return " ESP_GATT_INSUF_KEY_SIZE " ;
case ESP_GATT_INVALID_ATTR_LEN :
return " ESP_GATT_INVALID_ATTR_LEN " ;
case ESP_GATT_ERR_UNLIKELY :
return " ESP_GATT_ERR_UNLIKELY " ;
case ESP_GATT_INSUF_ENCRYPTION :
return " ESP_GATT_INSUF_ENCRYPTION " ;
case ESP_GATT_UNSUPPORT_GRP_TYPE :
return " ESP_GATT_UNSUPPORT_GRP_TYPE " ;
case ESP_GATT_INSUF_RESOURCE :
return " ESP_GATT_INSUF_RESOURCE " ;
case ESP_GATT_NO_RESOURCES :
return " ESP_GATT_NO_RESOURCES " ;
case ESP_GATT_INTERNAL_ERROR :
return " ESP_GATT_INTERNAL_ERROR " ;
case ESP_GATT_WRONG_STATE :
return " ESP_GATT_WRONG_STATE " ;
case ESP_GATT_DB_FULL :
return " ESP_GATT_DB_FULL " ;
case ESP_GATT_BUSY :
return " ESP_GATT_BUSY " ;
case ESP_GATT_ERROR :
return " ESP_GATT_ERROR " ;
case ESP_GATT_CMD_STARTED :
return " ESP_GATT_CMD_STARTED " ;
case ESP_GATT_ILLEGAL_PARAMETER :
return " ESP_GATT_ILLEGAL_PARAMETER " ;
case ESP_GATT_PENDING :
return " ESP_GATT_PENDING " ;
case ESP_GATT_AUTH_FAIL :
return " ESP_GATT_AUTH_FAIL " ;
case ESP_GATT_MORE :
return " ESP_GATT_MORE " ;
case ESP_GATT_INVALID_CFG :
return " ESP_GATT_INVALID_CFG " ;
case ESP_GATT_SERVICE_STARTED :
return " ESP_GATT_SERVICE_STARTED " ;
case ESP_GATT_ENCRYPED_NO_MITM :
return " ESP_GATT_ENCRYPED_NO_MITM " ;
case ESP_GATT_NOT_ENCRYPTED :
return " ESP_GATT_NOT_ENCRYPTED " ;
case ESP_GATT_CONGESTED :
return " ESP_GATT_CONGESTED " ;
case ESP_GATT_DUP_REG :
return " ESP_GATT_DUP_REG " ;
case ESP_GATT_ALREADY_OPEN :
return " ESP_GATT_ALREADY_OPEN " ;
case ESP_GATT_CANCEL :
return " ESP_GATT_CANCEL " ;
case ESP_GATT_STACK_RSP :
return " ESP_GATT_STACK_RSP " ;
case ESP_GATT_APP_RSP :
return " ESP_GATT_APP_RSP " ;
case ESP_GATT_UNKNOWN_ERROR :
return " ESP_GATT_UNKNOWN_ERROR " ;
case ESP_GATT_CCC_CFG_ERR :
return " ESP_GATT_CCC_CFG_ERR " ;
case ESP_GATT_PRC_IN_PROGRESS :
return " ESP_GATT_PRC_IN_PROGRESS " ;
case ESP_GATT_OUT_OF_RANGE :
return " ESP_GATT_OUT_OF_RANGE " ;
# endif
default :
return " Unknown " ;
}
} // gattStatusToString
std : : string BLEUtils : : getMember ( uint32_t memberId ) {
member_t * p = ( member_t * ) members_ids ;
while ( strlen ( p - > name ) > 0 ) {
if ( p - > assignedNumber = = memberId ) {
return std : : string ( p - > name ) ;
}
p + + ;
}
return " Unknown " ;
}
/**
* @ brief convert a GAP search event to a string .
* @ param [ in ] searchEvt
* @ return The search event type as a string .
*/
const char * BLEUtils : : searchEventTypeToString ( esp_gap_search_evt_t searchEvt ) {
switch ( searchEvt ) {
# if CONFIG_LOG_DEFAULT_LEVEL > 4
case ESP_GAP_SEARCH_INQ_RES_EVT :
return " ESP_GAP_SEARCH_INQ_RES_EVT " ;
case ESP_GAP_SEARCH_INQ_CMPL_EVT :
return " ESP_GAP_SEARCH_INQ_CMPL_EVT " ;
case ESP_GAP_SEARCH_DISC_RES_EVT :
return " ESP_GAP_SEARCH_DISC_RES_EVT " ;
case ESP_GAP_SEARCH_DISC_BLE_RES_EVT :
return " ESP_GAP_SEARCH_DISC_BLE_RES_EVT " ;
case ESP_GAP_SEARCH_DISC_CMPL_EVT :
return " ESP_GAP_SEARCH_DISC_CMPL_EVT " ;
case ESP_GAP_SEARCH_DI_DISC_CMPL_EVT :
return " ESP_GAP_SEARCH_DI_DISC_CMPL_EVT " ;
case ESP_GAP_SEARCH_SEARCH_CANCEL_CMPL_EVT :
return " ESP_GAP_SEARCH_SEARCH_CANCEL_CMPL_EVT " ;
# endif
default :
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log_v ( " Unknown event type: 0x%x " , searchEvt ) ;
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return " Unknown event type " ;
}
} // searchEventTypeToString
# endif // CONFIG_BT_ENABLED