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Repository Details

This is an ESP32 (including ESP32-S2 and ESP32-C3) / ESP8266 WiFi Connection Manager, using ESPAsyncWebServer, with fallback web configuration portal. Use this library for configuring ESP32, ESP8266 modules' WiFi, etc. Credentials at runtime. You can also specify static DNS servers, personalized HostName, fixed or random AP WiFi channel. With examples supporting ArduinoJson 6.0.0+ as well as 5.13.5- . Using AsyncDNSServer instead of DNSServer now.

ESPAsync_WiFiManager Library

arduino-library-badge GitHub release GitHub contributions welcome GitHub issues

Donate to my libraries using BuyMeACoffee



Table of Contents



Important Breaking Change from v1.10.0

For v1.14.0 and up

ESP32 chipID is now correct and unique. The previous releases' 32-bit wrong chipID is mainly the 24-bit Organizational Unique Identifier (OUI) plus 8 bits from the correct chipID. That's why ESP_getChipId() function can return duplicated values if the boards are from the same batch.

For example

Chip_ID_64 : 0x98F4AB085288
chipOUI    : 0x98F4AB
chipId     : 0x85288
getEfuseMac: 0x885208ABF498

For v1.11.0 and up

Please have a look at HOWTO Fix Multiple Definitions Linker Error

From v1.11.0, you just use

#include <ESPAsync_WiFiManager.h>               //https://github.com/khoih-prog/ESPAsync_WiFiManager

instead of both

#include <ESPAsync_WiFiManager.h>               //https://github.com/khoih-prog/ESPAsync_WiFiManager

// To be included only in main(), .ino with setup() to avoid `Multiple Definitions` Linker Error
#include <ESPAsync_WiFiManager-Impl.h>          //https://github.com/khoih-prog/ESPAsync_WiFiManager

For complex project having Multiple Definitions Linker Error issue, you can use in many files (Be careful: .hpp, not .h)

#include <ESPAsync_WiFiManager.hpp>             //https://github.com/khoih-prog/ESPAsync_WiFiManager

but only in main(), .ino with setup() to avoid Multiple Definitions Linker Error

#include <ESPAsync_WiFiManager.h>               //https://github.com/khoih-prog/ESPAsync_WiFiManager

For v1.10.0 only

It's advisable to use v1.11.0+

Please have a look at HOWTO Fix Multiple Definitions Linker Error

From v1.10.0, you must use

#include <ESPAsync_WiFiManager.h>               //https://github.com/khoih-prog/ESPAsync_WiFiManager

// To be included only in main(), .ino with setup() to avoid `Multiple Definitions` Linker Error
#include <ESPAsync_WiFiManager-Impl.h>          //https://github.com/khoih-prog/ESPAsync_WiFiManager

instead of only

#include <ESPAsync_WiFiManager.h>               //https://github.com/khoih-prog/ESPAsync_WiFiManager


Why do we need this Async ESPAsync_WiFiManager library

Features

This is an ESP32 / ESP8266 WiFi Connection Manager with fallback Web ConfigPortal. This Library is used for configuring ESP32, ESP8266 modules' (WiFi / Dynamic) Credentials at runtime. You can also specify static DNS servers, personalized HostName, fixed or random AP channel. Now with CORS feature.

This library is based on, modified, bug-fixed and improved from:

  1. Tzapu's WiFiManager
  2. Ken Taylor's WiFiManager
  3. Alan Steremberg's ESPAsyncWiFiManager
  4. Khoi Hoang's ESP_WiFiManager

to use the better and faster asynchronous ESPAsyncWebServer instead of (ESP8266)WebServer.

Thanks to this ESPAsync_WiFiManager library is based on and sync'ed with ESP_WiFiManager, all the features currently supported by ESP_WiFiManager will be available. Please have a look at ESP_WiFiManager for those too-many-to-list features.

Why Async is better

  • Using asynchronous network means that you can handle more than one connection at the same time
  • You are called once the request is ready and parsed
  • When you send the response, you are immediately ready to handle other connections while the server is taking care of sending the response in the background
  • Speed is OMG
  • Easy to use API, HTTP Basic and Digest MD5 Authentication (default), ChunkedResponse
  • Easily extensible to handle any type of content
  • Supports Continue 100
  • Async WebSocket plugin offering different locations without extra servers or ports
  • Async EventSource (Server-Sent Events) plugin to send events to the browser
  • URL Rewrite plugin for conditional and permanent url rewrites
  • ServeStatic plugin that supports cache, Last-Modified, default index and more
  • Simple template processing engine to handle templates

To appreciate the power of the ESPAsyncWebServer and underlying Async libraries, please compare the more efficient Async_ESP32_FSWebServer example example with the complicated twin ESP32_FSWebServer.

Currently supported Boards

This ESPAsync_WiFiManager library currently supports these following boards:

  1. ESP8266 and ESP32-based boards using EEPROM, SPIFFS or LittleFS.
  2. ESP32-S2 (ESP32-S2 Saola, AI-Thinker ESP-12K, etc.) using EEPROM, SPIFFS or LittleFS.
  3. ESP32-C3 (ARDUINO_ESP32C3_DEV) using EEPROM, SPIFFS or LittleFS.
  4. ESP32-S3 (ESP32S3_DEV, ESP32_S3_BOX, UM TINYS3, UM PROS3, UM FEATHERS3, etc.) using EEPROM, SPIFFS or LittleFS.


Prerequisites

  1. Arduino IDE 1.8.19+ for Arduino. GitHub release
  2. ESP8266 Core 3.0.2+ for ESP8266-based boards. Latest release
  3. ESP32 Core 2.0.5+ for ESP32-based boards. Latest release
  4. ESPAsyncWebServer v1.2.3+ for all ESP32/ESP8266-based boards. You have to use the latest KH_Forked ESPAsyncWebServer if the PR Fix compiler error for ESP32-C3 and mbed TLS v2.7.0+ #970 hasn't been merged. To install manually for Arduino IDE
  5. ESPAsyncDNSServer v1.0.0+ or KH_Forked ESPAsyncDNSServer v1.0.0+ for all ESP32/ESP8266-based boards.
  6. ESPAsyncTCP v1.2.2+ for ESP8266-based boards. To install manually for Arduino IDE
  7. AsyncTCP v1.1.1+ for ESP32-based boards. To install manually for Arduino IDE
  8. ESP_DoubleResetDetector v1.3.2+ if using DRD feature. To install, check arduino-library-badge. Use v1.1.0+ if using LittleFS for ESP32 v1.0.6+.
  9. LittleFS_esp32 v1.0.6+ for ESP32-based boards using LittleFS with ESP32 core v1.0.5-. To install, check arduino-library-badge. Notice: This LittleFS_esp32 library has been integrated to Arduino ESP32 core v1.0.6+ and you don't need to install it if using ESP32 core v1.0.6+


Installation

Use Arduino Library Manager

The best and easiest way is to use Arduino Library Manager. Search for ESPAsync_WiFiManager, then select / install the latest version. You can also use this link arduino-library-badge for more detailed instructions.

Manual Install

  1. Navigate to ESPAsync_WiFiManager page.
  2. Download the latest release ESPAsync_WiFiManager-master.zip.
  3. Extract the zip file to ESPAsync_WiFiManager-master directory
  4. Copy the whole ESPAsync_WiFiManager-master folder to Arduino libraries' directory such as ~/Arduino/libraries/.

VS Code & PlatformIO:

  1. Install VS Code
  2. Install PlatformIO
  3. Install ESPAsync_WiFiManager library by using Library Manager. Search for ESPAsync_WiFiManager in Platform.io Author's Libraries
  4. Use included platformio.ini file from examples to ensure that all dependent libraries will installed automatically. Please visit documentation for the other options and examples at Project Configuration File


Libraries' Patches

1. For ESPAsyncWebServer library

If you don't use the Forked ESPAsyncWebServer, to fix ESPAsyncWebServer library compile errors, just copy these following files into the ESPAsyncWebServer library directory to overwrite the old files:

Check the PR Fix compiler error for ESP32-C3 and mbed TLS v2.7.0+ #970



Note for Platform IO using ESP32 LittleFS

Necessary only for esp32 core v1.0.6-

From esp32 core v1.0.6+, LittleFS_esp32 v1.0.6 has been included and this step is not necessary anymore.

In Platform IO, to fix the error when using LittleFS_esp32 v1.0 for ESP32-based boards with ESP32 core v1.0.4- (ESP-IDF v3.2-), uncomment the following line

from

//#define CONFIG_LITTLEFS_FOR_IDF_3_2   /* For old IDF - like in release 1.0.4 */

to

#define CONFIG_LITTLEFS_FOR_IDF_3_2   /* For old IDF - like in release 1.0.4 */

It's advisable to use the latest LittleFS_esp32 v1.0.6+ to avoid the issue.

Thanks to Roshan to report the issue in Error esp_littlefs.c 'utime_p'



HOWTO Fix Multiple Definitions Linker Error

The current library implementation, using xyz-Impl.h instead of standard xyz.cpp, possibly creates certain Multiple Definitions Linker error in certain use cases.

You can use

#include <ESPAsync_WiFiManager.hpp>               //https://github.com/khoih-prog/ESPAsync_WiFiManager

in many files. But be sure to use the following #include <ESPAsync_WiFiManager.h> in just 1 .h, .cpp or .ino file, which must not be included in any other file, to avoid Multiple Definitions Linker Error

// To be included only in main(), .ino with setup() to avoid `Multiple Definitions` Linker Error
#include <ESPAsync_WiFiManager.h>          //https://github.com/khoih-prog/ESPAsync_WiFiManager

Check Async_ConfigOnDoubleReset_Multi for an example how and where to do so.

Have a look at the discussion in Different behaviour using the src_cpp or src_h lib #80



HOWTO Use analogRead() with ESP32 running WiFi and/or BlueTooth (BT/BLE)

Please have a look at ESP_WiFiManager Issue 39: Not able to read analog port when using the autoconnect example to have more detailed description and solution of the issue.

1. ESP32 has 2 ADCs, named ADC1 and ADC2

2. ESP32 ADCs functions

  • ADC1 controls ADC function for pins GPIO32-GPIO39
  • ADC2 controls ADC function for pins GPIO0, 2, 4, 12-15, 25-27

3.. ESP32 WiFi uses ADC2 for WiFi functions

Look in file adc_common.c

In ADC2, there're two locks used for different cases:

  1. lock shared with app and Wi-Fi: ESP32: When Wi-Fi using the ADC2, we assume it will never stop, so app checks the lock and returns immediately if failed. ESP32S2: The controller's control over the ADC is determined by the arbiter. There is no need to control by lock.

  2. lock shared between tasks: when several tasks sharing the ADC2, we want to guarantee all the requests will be handled. Since conversions are short (about 31us), app returns the lock very soon, we use a spinlock to stand there waiting to do conversions one by one.

adc2_spinlock should be acquired first, then adc2_wifi_lock or rtc_spinlock.

  • In order to use ADC2 for other functions, we have to acquire complicated firmware locks and very difficult to do
  • So, it's not advisable to use ADC2 with WiFi/BlueTooth (BT/BLE).
  • Use ADC1, and pins GPIO32-GPIO39
  • If somehow it's a must to use those pins serviced by ADC2 (GPIO0, 2, 4, 12, 13, 14, 15, 25, 26 and 27), use the fix mentioned at the end of ESP_WiFiManager Issue 39: Not able to read analog port when using the autoconnect example to work with ESP32 WiFi/BlueTooth (BT/BLE).


How It Works

  • The Async_ConfigOnSwitch example shows how it works and should be used as the basis for a sketch that uses this library.
  • The concept of Async_ConfigOnSwitch is that a new ESP32 / ESP8266 will start a WiFi ConfigPortal when powered up and save the configuration data in non volatile memory. Thereafter, the ConfigPortal will only be started again if a button is pushed on the ESP32 / ESP8266 module.
  • Using any WiFi enabled device with a browser (computer, phone, tablet) connect to the newly created Access Point (AP) using configurable SSID and Password (specified in sketch)
// SSID and PW for Config Portal
String ssid = "ESP_" + String(ESP_getChipId(), HEX);
const char* password = "your_password";

then connect WebBrowser to configurable ConfigPortal IP address, default is 192.168.4.1

  • Choose one of the access points scanned, enter password, click Save.
  • ESP will restart, then try to connect to the WiFi netwotk using STA-only mode, without running the ConfigPortal WebServer and WiFi AP. See Accessing manager after connection.


HOWTO Basic configurations

1. Using default for every configurable parameter

  • Include in your sketch
#ifdef ESP32
  #include <esp_wifi.h>
  #include <WiFi.h>
  #include <WiFiClient.h>

  // From v1.1.1
  #include <WiFiMulti.h>
  WiFiMulti wifiMulti;

  // LittleFS has higher priority than SPIFFS
  #if ( defined(ESP_ARDUINO_VERSION_MAJOR) && (ESP_ARDUINO_VERSION_MAJOR >= 2) )
    #define USE_LITTLEFS    true
    #define USE_SPIFFS      false
  #elif defined(ARDUINO_ESP32C3_DEV)
    // For core v1.0.6-, ESP32-C3 only supporting SPIFFS and EEPROM. To use v2.0.0+ for LittleFS
    #define USE_LITTLEFS          false
    #define USE_SPIFFS            true
  #endif

  #if USE_LITTLEFS
    // Use LittleFS
    #include "FS.h"

    // Check cores/esp32/esp_arduino_version.h and cores/esp32/core_version.h
    //#if ( ESP_ARDUINO_VERSION >= ESP_ARDUINO_VERSION_VAL(2, 0, 0) )  //(ESP_ARDUINO_VERSION_MAJOR >= 2)
    #if ( defined(ESP_ARDUINO_VERSION_MAJOR) && (ESP_ARDUINO_VERSION_MAJOR >= 2) )
      #warning Using ESP32 Core 1.0.6 or 2.0.0+
      // The library has been merged into esp32 core from release 1.0.6
      #include <LittleFS.h>       // https://github.com/espressif/arduino-esp32/tree/master/libraries/LittleFS
      
      FS* filesystem =      &LittleFS;
      #define FileFS        LittleFS
      #define FS_Name       "LittleFS"
    #else
      #warning Using ESP32 Core 1.0.5-. You must install LITTLEFS library
      // The library has been merged into esp32 core from release 1.0.6
      #include <LITTLEFS.h>       // https://github.com/lorol/LITTLEFS
      
      FS* filesystem =      &LITTLEFS;
      #define FileFS        LITTLEFS
      #define FS_Name       "LittleFS"
    #endif
    
  #elif USE_SPIFFS
    #include <SPIFFS.h>
    FS* filesystem =      &SPIFFS;
    #define FileFS        SPIFFS
    #define FS_Name       "SPIFFS"
  #else
    // +Use FFat
    #include <FFat.h>
    FS* filesystem =      &FFat;
    #define FileFS        FFat
    #define FS_Name       "FFat"
  #endif
  //////

  #define LED_BUILTIN       2
  #define LED_ON            HIGH
  #define LED_OFF           LOW

#else

  #include <ESP8266WiFi.h>          //https://github.com/esp8266/Arduino
  //needed for library
  #include <ESPAsyncDNSServer.h>

  // From v1.1.1
  #include <ESP8266WiFiMulti.h>
  ESP8266WiFiMulti wifiMulti;

  #define USE_LITTLEFS      true
  
  #if USE_LITTLEFS
    #include <LittleFS.h>
    FS* filesystem =      &LittleFS;
    #define FileFS        LittleFS
    #define FS_Name       "LittleFS"
  #else
    FS* filesystem =      &SPIFFS;
    #define FileFS        SPIFFS
    #define FS_Name       "SPIFFS"
  #endif
  //////
  
  #define ESP_getChipId()   (ESP.getChipId())
  
  #define LED_ON      LOW
  #define LED_OFF     HIGH
#endif

// From v1.1.0
// You only need to format the filesystem once
//#define FORMAT_FILESYSTEM       true
#define FORMAT_FILESYSTEM         false

#define MIN_AP_PASSWORD_SIZE    8

#define SSID_MAX_LEN            32
//From v1.0.10, WPA2 passwords can be up to 63 characters long.
#define PASS_MAX_LEN            64

typedef struct
{
  char wifi_ssid[SSID_MAX_LEN];
  char wifi_pw  [PASS_MAX_LEN];
}  WiFi_Credentials;

typedef struct
{
  String wifi_ssid;
  String wifi_pw;
}  WiFi_Credentials_String;

#define NUM_WIFI_CREDENTIALS      2

typedef struct
{
  WiFi_Credentials  WiFi_Creds [NUM_WIFI_CREDENTIALS];
} WM_Config;

WM_Config         WM_config;

#define  CONFIG_FILENAME              F("/wifi_cred.dat")
//////

#include <ESPAsync_WiFiManager.h>              //https://github.com/khoih-prog/ESPAsync_WiFiManager


// SSID and PW for Config Portal
String ssid = "ESP_" + String(ESP_getChipId(), HEX);
const char* password = "your_password";

// SSID and PW for your Router
String Router_SSID;
String Router_Pass;

#define HTTP_PORT           80

2. Using many configurable parameters

  • Include in your sketch
#ifdef ESP32
  #include <esp_wifi.h>
  #include <WiFi.h>
  #include <WiFiClient.h>

  // From v1.1.1
  #include <WiFiMulti.h>
  WiFiMulti wifiMulti;

  // LittleFS has higher priority than SPIFFS
  #if ( defined(ESP_ARDUINO_VERSION_MAJOR) && (ESP_ARDUINO_VERSION_MAJOR >= 2) )
    #define USE_LITTLEFS    true
    #define USE_SPIFFS      false
  #elif defined(ARDUINO_ESP32C3_DEV)
    // For core v1.0.6-, ESP32-C3 only supporting SPIFFS and EEPROM. To use v2.0.0+ for LittleFS
    #define USE_LITTLEFS          false
    #define USE_SPIFFS            true
  #endif

  #if USE_LITTLEFS
    // Use LittleFS
    #include "FS.h"

    // Check cores/esp32/esp_arduino_version.h and cores/esp32/core_version.h
    //#if ( ESP_ARDUINO_VERSION >= ESP_ARDUINO_VERSION_VAL(2, 0, 0) )  //(ESP_ARDUINO_VERSION_MAJOR >= 2)
    #if ( defined(ESP_ARDUINO_VERSION_MAJOR) && (ESP_ARDUINO_VERSION_MAJOR >= 2) )
      #warning Using ESP32 Core 1.0.6 or 2.0.0+
      // The library has been merged into esp32 core from release 1.0.6
      #include <LittleFS.h>       // https://github.com/espressif/arduino-esp32/tree/master/libraries/LittleFS
      
      FS* filesystem =      &LittleFS;
      #define FileFS        LittleFS
      #define FS_Name       "LittleFS"
    #else
      #warning Using ESP32 Core 1.0.5-. You must install LITTLEFS library
      // The library has been merged into esp32 core from release 1.0.6
      #include <LITTLEFS.h>       // https://github.com/lorol/LITTLEFS
      
      FS* filesystem =      &LITTLEFS;
      #define FileFS        LITTLEFS
      #define FS_Name       "LittleFS"
    #endif
    
  #elif USE_SPIFFS
    #include <SPIFFS.h>
    FS* filesystem =      &SPIFFS;
    #define FileFS        SPIFFS
    #define FS_Name       "SPIFFS"
  #else
    // +Use FFat
    #include <FFat.h>
    FS* filesystem =      &FFat;
    #define FileFS        FFat
    #define FS_Name       "FFat"
  #endif
  //////

  #define LED_BUILTIN       2
  #define LED_ON            HIGH
  #define LED_OFF           LOW

#else

  #include <ESP8266WiFi.h>          //https://github.com/esp8266/Arduino
  //needed for library
  #include <ESPAsyncDNSServer.h>

  // From v1.1.1
  #include <ESP8266WiFiMulti.h>
  ESP8266WiFiMulti wifiMulti;

  #define USE_LITTLEFS      true
  
  #if USE_LITTLEFS
    #include <LittleFS.h>
    FS* filesystem =      &LittleFS;
    #define FileFS        LittleFS
    #define FS_Name       "LittleFS"
  #else
    FS* filesystem =      &SPIFFS;
    #define FileFS        SPIFFS
    #define FS_Name       "SPIFFS"
  #endif
  //////
  
  #define ESP_getChipId()   (ESP.getChipId())
  
  #define LED_ON      LOW
  #define LED_OFF     HIGH
#endif

// From v1.1.0
// You only need to format the filesystem once
//#define FORMAT_FILESYSTEM       true
#define FORMAT_FILESYSTEM         false

#define MIN_AP_PASSWORD_SIZE    8

#define SSID_MAX_LEN            32
//From v1.0.10, WPA2 passwords can be up to 63 characters long.
#define PASS_MAX_LEN            64

typedef struct
{
  char wifi_ssid[SSID_MAX_LEN];
  char wifi_pw  [PASS_MAX_LEN];
}  WiFi_Credentials;

typedef struct
{
  String wifi_ssid;
  String wifi_pw;
}  WiFi_Credentials_String;

#define NUM_WIFI_CREDENTIALS      2

typedef struct
{
  WiFi_Credentials  WiFi_Creds [NUM_WIFI_CREDENTIALS];
} WM_Config;

WM_Config         WM_config;

#define  CONFIG_FILENAME              F("/wifi_cred.dat")
//////

// Use false if you don't like to display Available Pages in Information Page of Config Portal
// Comment out or use true to display Available Pages in Information Page of Config Portal
// Must be placed before #include <ESPAsync_WiFiManager.h>
#define USE_AVAILABLE_PAGES     true

// From v1.0.10 to permit disable/enable StaticIP configuration in Config Portal from sketch. Valid only if DHCP is used.
// You'll loose the feature of dynamically changing from DHCP to static IP, or vice versa
// You have to explicitly specify false to disable the feature.
//#define USE_STATIC_IP_CONFIG_IN_CP          false

// Use false to disable NTP config. Advisable when using Cellphone, Tablet to access Config Portal.
// See Issue 23: On Android phone ConfigPortal is unresponsive (https://github.com/khoih-prog/ESP_WiFiManager/issues/23)
#define USE_ESP_WIFIMANAGER_NTP     false

// Use true to enable CloudFlare NTP service. System can hang if you don't have Internet access while accessing CloudFlare
// See Issue #21: CloudFlare link in the default portal (https://github.com/khoih-prog/ESP_WiFiManager/issues/21)
#define USE_CLOUDFLARE_NTP          false

// New in v1.0.11
#define USING_CORS_FEATURE          true
//////

// Use USE_DHCP_IP == true for dynamic DHCP IP, false to use static IP which you have to change accordingly to your network
#if (defined(USE_STATIC_IP_CONFIG_IN_CP) && !USE_STATIC_IP_CONFIG_IN_CP)
// Force DHCP to be true
  #if defined(USE_DHCP_IP)
    #undef USE_DHCP_IP
  #endif
  #define USE_DHCP_IP     true
#else
  // You can select DHCP or Static IP here
  //#define USE_DHCP_IP     true
  #define USE_DHCP_IP     false
#endif

#if ( USE_DHCP_IP || ( defined(USE_STATIC_IP_CONFIG_IN_CP) && !USE_STATIC_IP_CONFIG_IN_CP ) )
  // Use DHCP
  #warning Using DHCP IP
  IPAddress stationIP   = IPAddress(0, 0, 0, 0);
  IPAddress gatewayIP   = IPAddress(192, 168, 2, 1);
  IPAddress netMask     = IPAddress(255, 255, 255, 0);
#else
  // Use static IP
  #warning Using static IP
  
  #ifdef ESP32
    IPAddress stationIP   = IPAddress(192, 168, 2, 232);
  #else
    IPAddress stationIP   = IPAddress(192, 168, 2, 186);
  #endif
  
  IPAddress gatewayIP   = IPAddress(192, 168, 2, 1);
  IPAddress netMask     = IPAddress(255, 255, 255, 0);
#endif

#define USE_CONFIGURABLE_DNS      true

IPAddress dns1IP      = gatewayIP;
IPAddress dns2IP      = IPAddress(8, 8, 8, 8);

IPAddress APStaticIP  = IPAddress(192, 168, 100, 1);
IPAddress APStaticGW  = IPAddress(192, 168, 100, 1);
IPAddress APStaticSN  = IPAddress(255, 255, 255, 0);

#include <ESPAsync_WiFiManager.h>              //https://github.com/khoih-prog/ESPAsync_WiFiManager


// SSID and PW for Config Portal
String ssid = "ESP_" + String(ESP_getChipId(), HEX);
const char* password = "your_password";

// SSID and PW for your Router
String Router_SSID;
String Router_Pass;

#define HTTP_PORT           80

AsyncWebServer webServer(HTTP_PORT);
AsyncDNSServer dnsServer;

///////////////////////////////////////////
// New in v1.4.0
/******************************************
 * // Defined in ESPAsync_WiFiManager.h
typedef struct
{
  IPAddress _ap_static_ip;
  IPAddress _ap_static_gw;
  IPAddress _ap_static_sn;

}  WiFi_AP_IPConfig;

typedef struct
{
  IPAddress _sta_static_ip;
  IPAddress _sta_static_gw;
  IPAddress _sta_static_sn;
#if USE_CONFIGURABLE_DNS  
  IPAddress _sta_static_dns1;
  IPAddress _sta_static_dns2;
#endif
}  WiFi_STA_IPConfig;
******************************************/

WiFi_AP_IPConfig  WM_AP_IPconfig;
WiFi_STA_IPConfig WM_STA_IPconfig;

3. Using STA-mode DHCP, but don't like to change to static IP or display in Config Portal

// From v1.0.10 to permit disable/enable StaticIP configuration in Config Portal from sketch. Valid only if DHCP is used.
// You'll loose the feature of dynamically changing from DHCP to static IP, or vice versa
// You have to explicitly specify false to disable the feature.
#define USE_STATIC_IP_CONFIG_IN_CP          false

4. Using STA-mode DHCP, but permit to change to static IP and display in Config Portal

// From v1.0.10 to permit disable/enable StaticIP configuration in Config Portal from sketch. Valid only if DHCP is used.
// You'll loose the feature of dynamically changing from DHCP to static IP, or vice versa
// You have to explicitly specify false to disable the feature.
//#define USE_STATIC_IP_CONFIG_IN_CP          false

// Use USE_DHCP_IP == true for dynamic DHCP IP, false to use static IP which you have to change accordingly to your network
#if (defined(USE_STATIC_IP_CONFIG_IN_CP) && !USE_STATIC_IP_CONFIG_IN_CP)
  // Force DHCP to be true
  #if defined(USE_DHCP_IP)
    #undef USE_DHCP_IP
  #endif
  #define USE_DHCP_IP     true
#else
  // You can select DHCP or Static IP here
  #define USE_DHCP_IP     true
#endif

5. Using STA-mode StaticIP, and be able to change to DHCP IP and display in Config Portal

// From v1.0.10 to permit disable/enable StaticIP configuration in Config Portal from sketch. Valid only if DHCP is used.
// You'll loose the feature of dynamically changing from DHCP to static IP, or vice versa
// You have to explicitly specify false to disable the feature.
//#define USE_STATIC_IP_CONFIG_IN_CP          false

// Use USE_DHCP_IP == true for dynamic DHCP IP, false to use static IP which you have to change accordingly to your network
#if (defined(USE_STATIC_IP_CONFIG_IN_CP) && !USE_STATIC_IP_CONFIG_IN_CP)
// Force DHCP to be true
  #if defined(USE_DHCP_IP)
    #undef USE_DHCP_IP
  #endif
  #define USE_DHCP_IP     true
#else
  // You can select DHCP or Static IP here
  #define USE_DHCP_IP     false
#endif

6. Using STA-mode StaticIP and configurable DNS, and be able to change to DHCP IP and display in Config Portal

// From v1.0.10 to permit disable/enable StaticIP configuration in Config Portal from sketch. Valid only if DHCP is used.
// You'll loose the feature of dynamically changing from DHCP to static IP, or vice versa
// You have to explicitly specify false to disable the feature.
//#define USE_STATIC_IP_CONFIG_IN_CP          false

// Use USE_DHCP_IP == true for dynamic DHCP IP, false to use static IP which you have to change accordingly to your network
#if (defined(USE_STATIC_IP_CONFIG_IN_CP) && !USE_STATIC_IP_CONFIG_IN_CP)
  // Force DHCP to be true
  #if defined(USE_DHCP_IP)
    #undef USE_DHCP_IP
  #endif
  #define USE_DHCP_IP     true
#else
  // You can select DHCP or Static IP here
  #define USE_DHCP_IP     false
#endif

#define USE_CONFIGURABLE_DNS      true

IPAddress dns1IP      = gatewayIP;
IPAddress dns2IP      = IPAddress(8, 8, 8, 8);

7. Using STA-mode StaticIP and auto DNS, and be able to change to DHCP IP and display in Config Portal

// From v1.0.10 to permit disable/enable StaticIP configuration in Config Portal from sketch. Valid only if DHCP is used.
// You'll loose the feature of dynamically changing from DHCP to static IP, or vice versa
// You have to explicitly specify false to disable the feature.
//#define USE_STATIC_IP_CONFIG_IN_CP          false

// Use USE_DHCP_IP == true for dynamic DHCP IP, false to use static IP which you have to change accordingly to your network
#if (defined(USE_STATIC_IP_CONFIG_IN_CP) && !USE_STATIC_IP_CONFIG_IN_CP)
  // Force DHCP to be true
  #if defined(USE_DHCP_IP)
    #undef USE_DHCP_IP
  #endif
  #define USE_DHCP_IP     true
#else
  // You can select DHCP or Static IP here
  #define USE_DHCP_IP     false
#endif

#define USE_CONFIGURABLE_DNS      false

8. Not using NTP to avoid issue with some WebBrowsers, especially in CellPhone or Tablets.

// Use false to disable NTP config. Advisable when using Cellphone, Tablet to access Config Portal.
// See Issue 23: On Android phone ConfigPortal is unresponsive (https://github.com/khoih-prog/ESP_WiFiManager/issues/23)
#define USE_ESP_WIFIMANAGER_NTP     false

9. Using NTP feature with CloudFlare. System can hang until you have Internet access for CloudFlare.

// Use false to disable NTP config. Advisable when using Cellphone, Tablet to access Config Portal.
// See Issue 23: On Android phone ConfigPortal is unresponsive (https://github.com/khoih-prog/ESP_WiFiManager/issues/23)
#define USE_ESP_WIFIMANAGER_NTP     true

// Use true to enable CloudFlare NTP service. System can hang if you don't have Internet access while accessing CloudFlare
// See Issue #21: CloudFlare link in the default portal (https://github.com/khoih-prog/ESP_WiFiManager/issues/21)
#define USE_CLOUDFLARE_NTP          true

10. Using NTP feature without CloudFlare to avoid system hang if no Internet access for CloudFlare.

// Use false to disable NTP config. Advisable when using Cellphone, Tablet to access Config Portal.
// See Issue 23: On Android phone ConfigPortal is unresponsive (https://github.com/khoih-prog/ESP_WiFiManager/issues/23)
#define USE_ESP_WIFIMANAGER_NTP     true

// Use true to enable CloudFlare NTP service. System can hang if you don't have Internet access while accessing CloudFlare
// See Issue #21: CloudFlare link in the default portal (https://github.com/khoih-prog/ESP_WiFiManager/issues/21)
#define USE_CLOUDFLARE_NTP          false

11. Using random AP-mode channel to avoid conflict

// From v1.0.10 only
// Set config portal channel, default = 1. Use 0 => random channel from 1-13
ESPAsync_wifiManager.setConfigPortalChannel(0);
//////

12. Using fixed AP-mode channel, for example channel 3

// From v1.0.10 only
// Set config portal channel, default = 1. Use 0 => random channel from 1-13
ESPAsync_wifiManager.setConfigPortalChannel(3);
//////

13. Setting STA-mode static IP

// Set static IP, Gateway, Subnetmask, DNS1 and DNS2. New in v1.0.5
//ESPAsync_wifiManager.setSTAStaticIPConfig(stationIP, gatewayIP, netMask, dns1IP, dns2IP);
ESPAsync_wifiManager.setSTAStaticIPConfig(WM_STA_IPconfig);

14. Using AUTOCONNECT_NO_INVALIDATE feature

  1. Don't invalidate WiFi SSID/PW when calling autoConnect() (default)
#define AUTOCONNECT_NO_INVALIDATE     true
  1. To invalidate WiFi SSID/PW when calling autoConnect()
#define AUTOCONNECT_NO_INVALIDATE     false

15. Using CORS (Cross-Origin Resource Sharing) feature

  1. To use CORS feature with default CORS Header "". Some WebBrowsers won't accept this allowing-all "" CORS Header.
// Default false for using only whenever necessary to avoid security issue
#define USING_CORS_FEATURE     true
  1. To use CORS feature with specific CORS Header "Your Access-Control-Allow-Origin". To be modified according to your specific Allowed-Origin.
// Default false for using only whenever necessary to avoid security issue
#define USING_CORS_FEATURE     true

...

  // New from v1.1.1
#if USING_CORS_FEATURE
  ESP_wifiManager.setCORSHeader("Your Access-Control-Allow-Origin");
#endif
  1. Not use CORS feature (default)
// Default false for using only whenever necessary to avoid security issue
#define USING_CORS_FEATURE     false

16. Using MultiWiFi auto(Re)connect feature

  1. In loop()
void check_WiFi(void)
{
  if ( (WiFi.status() != WL_CONNECTED) )
  {
    Serial.println("\nWiFi lost. Call connectMultiWiFi in loop");
    connectMultiWiFi();
  }
}

void check_status(void)
{
  static ulong checkwifi_timeout    = 0;

  static ulong current_millis;

#define WIFICHECK_INTERVAL    1000L

  current_millis = millis();
  
  // Check WiFi every WIFICHECK_INTERVAL (1) seconds.
  if ((current_millis > checkwifi_timeout) || (checkwifi_timeout == 0))
  {
    check_WiFi();
    checkwifi_timeout = current_millis + WIFICHECK_INTERVAL;
  }
}

void loop()
{
  // put your main code here, to run repeatedly
  check_status();
}

17. How to auto getting _timezoneName

  1. Turn on auto NTP configuration by
// Use false to disable NTP config. Advisable when using Cellphone, Tablet to access Config Portal.
// See Issue 23: On Android phone ConfigPortal is unresponsive (https://github.com/khoih-prog/ESP_WiFiManager/issues/23)
#define USE_ESP_WIFIMANAGER_NTP     true
  1. The _timezoneName, in the format similar to America/New_York, America/Toronto, Europe/London, etc., can be retrieved by using
String tempTZ = ESPAsync_wifiManager.getTimezoneName();

18. How to get TZ variable to configure Timezone

  1. ESP32 and ESP8266 TZ can be configured, using the similar to EST5EDT,M3.2.0,M11.1.0 (for America/New_York) , as follows:
// EST5EDT,M3.2.0,M11.1.0 (for America/New_York)
// EST5EDT is the name of the time zone
// EST is the abbreviation used when DST is off
// 6 hours is the time difference from GMT
// EDT is the abbreviation used when DST is on
// ,M3 is the third month
// .2 is the second occurrence of the day in the month
// .0 is Sunday
// ,M11 is the eleventh month
// .1 is the first occurrence of the day in the month
// .0 is Sunday

#if ESP8266
  configTime(WM_config.TZ, "pool.ntp.org"); 
#else
  //configTzTime(WM_config.TZ, "pool.ntp.org" );
  configTzTime(WM_config.TZ, "time.nist.gov", "0.pool.ntp.org", "1.pool.ntp.org");
#endif
  1. To convert from _timezoneName to TZ, use the function getTZ() as follows:
const char * TZ_Result = ESPAsync_wifiManager.getTZ(_timezoneName);

The conversion depends on the stored TZs, which is using some memory, and can cause issue for ESP8266 in certain cases. Therefore, enable just the region you're interested.

For example, your application is used in America continent, you need just

#define USING_AMERICA       true

Hereafter is the regions' list

// Just use enough to save memory. On ESP8266, can cause blank ConfigPortal screen
// if using too much memory
#define USING_AFRICA        false
#define USING_AMERICA       true
#define USING_ANTARCTICA    false
#define USING_ASIA          false
#define USING_ATLANTIC      false
#define USING_AUSTRALIA     false
#define USING_EUROPE        false
#define USING_INDIAN        false
#define USING_PACIFIC       false
#define USING_ETC_GMT       false

19. How to use the TZ variable to configure Timezone

#if ESP8266
      configTime(WM_config.TZ, "pool.ntp.org");
#else
      //configTzTime(WM_config.TZ, "pool.ntp.org" );
      configTzTime(WM_config.TZ, "time.nist.gov", "0.pool.ntp.org", "1.pool.ntp.org");
#endif

then to print local time

void printLocalTime()
{
#if ESP8266
  static time_t now;
  
  now = time(nullptr);
  
  if ( now > 1000000 )
  {
    Serial.print("Local Date/Time: ");
    Serial.print(ctime(&now));
  }
#else
  struct tm timeinfo;

  getLocalTime( &timeinfo );
  Serial.print("Local Date/Time: ");
  Serial.print( asctime( &timeinfo ) );
#endif
}


HOWTO Open Config Portal

  • When you want to open a config portal, with default DHCP hostname ESP8266-XXXXXX or ESP32-XXXXXX, just add
#include <ESPAsync_WiFiManager.h>              //https://github.com/khoih-prog/ESPAsync_WiFiManager

#define HTTP_PORT           80

AsyncWebServer webServer(HTTP_PORT);
AsyncDNSServer dnsServer;

ESPAsync_WiFiManager ESPAsync_wifiManager(&webServer, &dnsServer);

If you'd like to have a personalized hostname (RFC952-conformed,- 24 chars max,- only a..z A..Z 0..9 '-' and no '-' as last char)

add

ESPAsync_WiFiManager ESPAsync_wifiManager(&webServer, &dnsServer, "Personalized-HostName");

then later call

ESPAsync_wifiManager.startConfigPortal()

While in AP mode, connect to it using its SSID (ESP_XXXXXX) / Password ("your_password"), then open a browser to the AP IP, default 192.168.4.1, configure wifi then save. The WiFi connection information will be saved in non volatile memory. It will then reboot and autoconnect.

You can also change the AP IP by:

//set custom ip for portal
//ESPAsync_wifiManager.setAPStaticIPConfig(IPAddress(10,0,1,1), IPAddress(10,0,1,1), IPAddress(255,255,255,0));
ESPAsync_wifiManager.setAPStaticIPConfig(WM_AP_IPconfig);

and use fixed / dynamic / random AP channel by:

// Set config portal channel, default = 1. Use 0 => random channel from 1-13
ESPAsync_wifiManager.setConfigPortalChannel(0);

Once WiFi network information is saved in the ESP32 / ESP8266, it will try to autoconnect to WiFi every time it is started, without requiring any function calls in the sketch.



HOWTO Add Dynamic Parameters

These illustrating steps is based on the example Async_ConfigOnSwitchFS

1. Determine the variables to be configured via Config Portal (CP)

The application will:

  • use DHT sensor (either DHT11 or DHT22) and
  • need to connect to ThingSpeak with unique user's API Key.

The DHT sensor is connected to the ESP boards using SDA/SCL pins which also need to be configurable.

So this is the list of variables to be dynamically configured using CP

1. `thingspeakApiKey`,  type `char array`, max length 17 chars, and just arbitrarily selected default value to be "" or "ThingSpeak-APIKey"
2. `sensorDht22`,       type `bool`, default to be `true` (DHT22)
3. `pinSda`,            type `int`,  default to be `PIN_D2`
4. `pinScl`,            type `int`,  default to be `PIN_D1`

The Label can be any arbitrary string that help you identify the variable, but must be unique in your application

The initial code will be

#define API_KEY_LEN                 17

// Default configuration values
char thingspeakApiKey[API_KEY_LEN]  = "";
bool sensorDht22                    = true;
int pinSda                          = PIN_D2;     // Pin D2 mapped to pin GPIO4 of ESP8266
int pinScl                          = PIN_D1;     // Pin D1 mapped to pin GPIO5 of ESP8266

// Any unique string helping you identify the vars
#define ThingSpeakAPI_Label         "thingspeakApiKey"
#define SensorDht22_Label           "SensorDHT22"
#define PinSDA_Label                "PinSda"
#define PinSCL_Label                "PinScl"

2. Initialize the variables to prepare for Config Portal (CP)

The example Async_ConfigOnSwitchFS will open the CP whenever a SW press is detected in loop(). So the code to add dynamic variables will be there, just after the CP ESPAsync_WiFiManager class initialization to create ESPAsync_wifiManager object.

void loop()
{
// is configuration portal requested?
  if ((digitalRead(TRIGGER_PIN) == LOW) || (digitalRead(TRIGGER_PIN2) == LOW))
  {
    Serial.println("\nConfiguration portal requested.");
    digitalWrite(LED_BUILTIN, LED_ON); // turn the LED on by making the voltage LOW to tell us we are in configuration mode.

    //Local initialization. Once its business is done, there is no need to keep it around
    ESPAsync_WiFiManager ESPAsync_wifiManager(&webServer, &dnsServer, "ConfigOnSwitchFS");

    //Check if there is stored WiFi router/password credentials.
    //If not found, device will remain in configuration mode until switched off via webserver.
    Serial.print("Opening configuration portal. ");
    
    ...
    
    // The addition of dynamic vars will be somewhere here
    
}    

The ESPAsync_WMParameter class constructor will be used to initialize each newly-added parameter object.

2.1 Use the following simple constructor for simple variables such as thingspeakApiKey, pinSda and pinScl :

ESPAsync_WMParameter(const char *id, const char *placeholder, const char *defaultValue, int length);

2.2 For example, to create a new ESPAsync_WMParameter object p_thingspeakApiKey for thingspeakApiKey,

The command to use will be

ESPAsync_WMParameter p_thingspeakApiKey(ThingSpeakAPI_Label, "Thingspeak API Key", thingspeakApiKey, API_KEY_LEN);

where

- p_thingspeakApiKey                  : ESPAsync_WMParameter class object reference that stores the new Custom Parameter
- id => ThingSpeakAPI_Label           : var ref to Json associative name and HTML element ID for the new Custom Paramerter you just defined in step 1
- placeholder => "Thingspeak API Key" : HTML input placeholder and/or label element text the user sees in the configuration interface for this Custom Parameter
- defaultValue => thingspeakApiKey    : variable for storing the value of your Custom Parameter in the file system or default value when no data is entered
- length  => API_KEY_LEN              : max allowed length you want for this Custom Parameter to have

For pinSda and pinScl, the command will be similar

// I2C SCL and SDA parameters are integers so we need to convert them to char array but
// no other special considerations
char convertedValue[3];
sprintf(convertedValue, "%d", pinSda);
ESPAsync_WMParameter p_pinSda(PinSDA_Label, "I2C SDA pin", convertedValue, 3);

sprintf(convertedValue, "%d", pinScl);
ESPAsync_WMParameter p_pinScl(PinSCL_Label, "I2C SCL pin", convertedValue, 3);

where

- p_pinSda / p_pinScl                         : ESPAsync_WMParameter class object reference that stores the new Custom Parameter
- id => PinSDA_Label/PinSCL_Label             : var ref to Json associative name and HTML element ID for the new Custom Paramerter you just defined in step 1
- placeholder => "I2C SDA pin"/"I2C SCL pin"  : HTML input placeholder and/or label element text the user sees in the configuration interface for this Custom Parameter
- defaultValue => convertedValue              : variable for storing the value of your Custom Parameter in the file system or default value when no data is entered
- length  => 3                                : max allowed length you want for this Custom Parameter to have

2.3 Use the more complex following constructor for variables such as sensorDht22:

ESPAsync_WMParameter(const char *id, const char *placeholder, const char *defaultValue, int length, const char *custom, int labelPlacement);

2.4 For example, to create a new ESPAsync_WMParameter object p_sensorDht22 for sensorDht22,

The command to use will be

ESPAsync_WMParameter p_sensorDht22(SensorDht22_Label, "DHT-22 Sensor", "T", 2, customhtml, WFM_LABEL_AFTER);

where

- p_sensorDht22                       : ESPAsync_WMParameter class object reference that stores the new Custom Parameter
- id => SensorDht22_Label             : var ref to Json associative name and HTML element ID for the new Custom Paramerter you just defined in step 1
- placeholder => "DHT-22 Sensor"      : HTML input placeholder and/or label element text the user sees in the configuration interface for this Custom Parameter
- defaultValue => "T"                 : variable for storing the value of your Custom Parameter in the file system or default value when no data is entered ("T" means `true`)
- length  => 2                        : max allowed length you want for this Custom Parameter to have
- custom => customhtml                : custom HTML code to add element type, e.g. `checkbox`, and `checked` when `sensorDht22 == true`
- labelPlacement => WFM_LABEL_AFTER   : to place label after

and customhtml Code is:

char customhtml[24] = "type=\"checkbox\"";

if (sensorDht22)
{
  strcat(customhtml, " checked");
}

3. Add the variables to Config Portal (CP)

Adding those ESPAsync_WMParameter objects created in Step 2 using the function addParameter() of object ESPAsync_wifiManager

3.1 addParameter() function Prototype:

//adds a custom parameter
bool addParameter(ESPAsync_WMParameter *p);

3.2 Code to add variables to CP

Add parameter objects, previously created in Step 2, such as : p_thingspeakApiKey, p_sensorDht22, p_pinSda and p_pinScl

//add all parameters here

ESPAsync_wifiManager.addParameter(&p_thingspeakApiKey);
ESPAsync_wifiManager.addParameter(&p_sensorDht22);
ESPAsync_wifiManager.addParameter(&p_pinSda);
ESPAsync_wifiManager.addParameter(&p_pinScl);

4. Save the variables configured in Config Portal (CP)

When the CP exits, we have to store the parameters' values that users input via CP to use later.

For ESP32, that can be EEPROM or SPIFFS. While on ESP8266, LittleFS can be used besides EEPROM or deprecated SPIFFS.

We can write directly to a well-defined structure of our choice, but the current example is using JSON to be portable but much more complicated and not advised for new users.

4.1 Getting variables' data from CP

After users select Save, the CP ESPAsync_wifiManager object will save the user input data into related ESPAsync_WMParameter objects.

We can now retrieve the data, using getValue() function, for each ESPAsync_WMParameter object. Then we can utilize the data for our purpose, such as thingspeakApiKey to log in, sensorDht22 type to know how to handle the sensor, pinSda and pinSda to know which pins to use to communicate with the DHT sensor.

The code is as follows:

// Getting posted form values and overriding local variables parameters
// Config file is written regardless the connection state
strcpy(thingspeakApiKey, p_thingspeakApiKey.getValue());
sensorDht22 = (strncmp(p_sensorDht22.getValue(), "T", 1) == 0);
pinSda = atoi(p_pinSda.getValue());
pinScl = atoi(p_pinScl.getValue());

We can also save to FS file to use later in next boot.

// Writing JSON config file to flash for next boot
writeConfigFile();

5. Write to FS (SPIFFS, LittleFS, etc.) using JSON format

First, you have to familiarize yourself with ArduinoJson library, its functions, the disruptive differences between ArduinoJson version 5.x.x- and v6.0.0+. The best documentation can be found at The best JSON library for embedded C++.

This documentation will discuss only ArduinoJson v6.x.x+ (ARDUINOJSON_VERSION_MAJOR >= 6)

Then have a look at the code snippet of writeConfigFile() function and the following step-by-step explanations.

bool writeConfigFile()
{
  Serial.println("Saving config file");

#if (ARDUINOJSON_VERSION_MAJOR >= 6)
  DynamicJsonDocument json(1024);
#else
  DynamicJsonBuffer jsonBuffer;
  JsonObject& json = jsonBuffer.createObject();
#endif

  // JSONify local configuration parameters
  json[ThingSpeakAPI_Label] = thingspeakApiKey;
  json[SensorDht22_Label] = sensorDht22;
  json[PinSDA_Label] = pinSda;
  json[PinSCL_Label] = pinScl;

  // Open file for writing
  File f = FileFS.open(CONFIG_FILE, "w");

  if (!f)
  {
    Serial.println("Failed to open config file for writing");
    return false;
  }

#if (ARDUINOJSON_VERSION_MAJOR >= 6)
  serializeJsonPretty(json, Serial);
  // Write data to file and close it
  serializeJson(json, f);
#else
  json.prettyPrintTo(Serial);
  // Write data to file and close it
  json.printTo(f);
#endif

  f.close();

  Serial.println("\nConfig file was successfully saved");
  return true;
}

5.1 Create a DynamicJsonDocument Object

We'll create an object with size 1024 bytes, enough to hold our data:

DynamicJsonDocument json(1024);

5.2 Fill the DynamicJsonDocument Object with data got from Config Portal

Then JSONify all local parameters we've just received from CP and wish to store into FS by using the function prototype:

json[Unique_Label] = Value_For_Unique_Label;

as follows:

// JSONify local configuration parameters
json[ThingSpeakAPI_Label] = thingspeakApiKey;
json[SensorDht22_Label]   = sensorDht22;
json[PinSDA_Label]        = pinSda;
json[PinSCL_Label]        = pinScl;

5.3 Open file to write the Jsonified data

This is the CONFIG_FILE file name we already declared at the beginning of the sketch (for ESP32):

#include <SPIFFS.h>
FS* filesystem =      &SPIFFS;
#define FileFS        SPIFFS
    
const char* CONFIG_FILE = "/ConfigSW.json";

Now just open the file for writing, and abort if open-for-writing error:

// Open file for writing
File f = FileFS.open(CONFIG_FILE, "w");

if (!f)
{
  Serial.println("Failed to open config file for writing");
  return false;
}

5.4 Write the Jsonified data to CONFIG_FILE

As simple as this single command to write the whole json object we declared then filled with data in steps 5.1 and 5.2

// Write data to file and close it
serializeJson(json, f);

5.5 Close CONFIG_FILE to flush and save the data

Soooo simple !!! Now everybody can do it.

f.close();

But HOWTO use the saved data in the next startup ???? That's in next step 6.

6. Read from FS using JSON format

Now, you have familiarized yourself with ArduinoJson library, its functions. We'll discuss HOWTO read data from the CONFIG_FILE in Jsonified format, then HOWTO parse the to use.

The documentation will discuss only ArduinoJson v6.x.x+ (ARDUINOJSON_VERSION_MAJOR >= 6)

First, have a look at the code snippet of readConfigFile() function.

bool readConfigFile()
{
  // this opens the config file in read-mode
  File f = FileFS.open(CONFIG_FILE, "r");

  if (!f)
  {
    Serial.println("Configuration file not found");
    return false;
  }
  else
  {
    // we could open the file
    size_t size = f.size();
    // Allocate a buffer to store contents of the file.
    std::unique_ptr<char[]> buf(new char[size + 1]);

    // Read and store file contents in buf
    f.readBytes(buf.get(), size);
    // Closing file
    f.close();
    // Using dynamic JSON buffer which is not the recommended memory model, but anyway
    // See https://github.com/bblanchon/ArduinoJson/wiki/Memory%20model

#if (ARDUINOJSON_VERSION_MAJOR >= 6)
    DynamicJsonDocument json(1024);
    auto deserializeError = deserializeJson(json, buf.get());
    if ( deserializeError )
    {
      Serial.println("JSON parseObject() failed");
      return false;
    }
    serializeJson(json, Serial);
#else
    DynamicJsonBuffer jsonBuffer;
    // Parse JSON string
    JsonObject& json = jsonBuffer.parseObject(buf.get());
    // Test if parsing succeeds.
    if (!json.success())
    {
      Serial.println("JSON parseObject() failed");
      return false;
    }
    json.printTo(Serial);
#endif

    // Parse all config file parameters, override
    // local config variables with parsed values
    if (json.containsKey(ThingSpeakAPI_Label))
    {
      strcpy(thingspeakApiKey, json[ThingSpeakAPI_Label]);
    }

    if (json.containsKey(SensorDht22_Label))
    {
      sensorDht22 = json[SensorDht22_Label];
    }

    if (json.containsKey(PinSDA_Label))
    {
      pinSda = json[PinSDA_Label];
    }

    if (json.containsKey(PinSCL_Label))
    {
      pinScl = json[PinSCL_Label];
    }
  }
  Serial.println("\nConfig file was successfully parsed");
  return true;
}

and the following step-by-step explanations.

6.1 Open CONFIG_FILE to read

As simple as this

// this opens the config file in read-mode
File f = FileFS.open(CONFIG_FILE, "r");

We'll inform and abort if the CONFIG_FILE can't be opened (file not found, can't be opened, etc.)

if (!f)
{
  Serial.println("Configuration file not found");
  return false;
}

6.2 Open CONFIG_FILE to read

Now we have to determine the file size to create a buffer large enough to store the to-be-read data

// we could open the file
size_t size = f.size();
// Allocate a buffer to store contents of the file.
std::unique_ptr<char[]> buf(new char[size + 1]);

Remember always add 1 to the buffer length to store the terminating 0.

Then just read the file into the buffer, and close the file to be safe

// Read and store file contents in buf
f.readBytes(buf.get(), size);
// Closing file
f.close();

6.3 Populate the just-read Jsonified data into the DynamicJsonDocument json object

We again use the same DynamicJsonDocument json object to store the data we've just read from CONFIG_FILE.

Why the same complicated DynamicJsonDocument json object ?? Because in steps 5, we did store Jsonified data using the same DynamicJsonDocument json object. It's much easier we now use it again to facilitate the parsing of Jsonified data back to the data we can use easily.

We first create the object with enough size

DynamicJsonDocument json(1024);

then populate it with data from buffer we read from CONFIG_FILE in step 6.2, pre-parse and check for error. All is done just by one command deserializeJson()

auto deserializeError = deserializeJson(json, buf.get());

Abort if there is any data error in the process of writing, storing, reading back. If OK, just nicely print out to the Debug Terminal

if ( deserializeError )
{
  Serial.println("JSON parseObject() failed");
  return false;
}

serializeJson(json, Serial);

6.4 Parse the Jsonified data from the DynamicJsonDocument json object to store into corresponding parameters

This is as simple as in the step 5.2, but in reverse direction.

To be sure there is good corresponding data, not garbage, for each variable, we have to perform sanity checks by verifying the DynamicJsonDocument json object still contains the correct keys we passed to it when we wrote into CONFIG_FILE.

For example:

if (json.containsKey(ThingSpeakAPI_Label))

Then proceed to get every parameter we know we stored there from last CP Save.

// Parse all config file parameters, override
// local config variables with parsed values
if (json.containsKey(ThingSpeakAPI_Label))
{
  strcpy(thingspeakApiKey, json[ThingSpeakAPI_Label]);
}

if (json.containsKey(SensorDht22_Label))
{
  sensorDht22 = json[SensorDht22_Label];
}

if (json.containsKey(PinSDA_Label))
{
  pinSda = json[PinSDA_Label];
}

if (json.containsKey(PinSCL_Label))
{
  pinScl = json[PinSCL_Label];
}

6.5 Then what to do now

Just use those parameters for whatever purpose you designed them for in step 1:

The application will use DHT sensor (either DHT11 or DHT22) and need to connect to ThingSpeak with unique user's API Key. The DHT sensor is connected to the ESP boards using SDA/SCL pins which also need to be configurable.


So, how it works?

In ConfigPortal Mode, it starts an access point called ESP_XXXXXX. Connect to it using the configurable password you can define in the code. For example, your_password (see examples):

// SSID and PW for Config Portal
String ssid = "ESP_" + String(ESP_getChipId(), HEX);
const char* password = "your_password";

After you connected, please, go to http://192.168.4.1, you'll see this Main page:

Select Information to enter the Info page where the board info will be shown (long page)

or short page (default)

Select Configuration to enter this page where you can select an AP and specify its WiFi Credentials

Enter your credentials, then click Save. The WiFi Credentials will be saved and the board reboots to connect to the selected WiFi AP.

If you're already connected to a listed WiFi AP and don't want to change anything, just select Exit Portal from the Main page to reboot the board and connect to the previously-stored AP. The WiFi Credentials are still intact.



Documentation

Password protect the configuration Access Point

You can password protect the ConfigPortal AP. Simply add an SSID as the first parameter and the password as a second parameter to startConfigPortal. See the above examples.

A short password seems to have unpredictable results so use one that's around 8 characters or more in length. The guidelines are that a wifi password must consist of 8 to 63 ASCII-encoded characters in the range of 32 to 126 (decimal)

ESPAsync_wifiManager.startConfigPortal( SSID , password )

Callbacks

Save settings

This gets called when custom parameters have been set AND a connection has been established. Use it to set a flag, so when all the configuration finishes, you can save the extra parameters somewhere.

See Async_ConfigOnSwitchFS Example.

ESPAsync_wifiManager.setSaveConfigCallback(saveConfigCallback);

saveConfigCallback declaration and example

//flag for saving data
bool shouldSaveConfig = false;

//callback notifying us of the need to save config
void saveConfigCallback () 
{
  Serial.println("Should save config");
  shouldSaveConfig = true;
}

ConfigPortal Timeout

If you need to set a timeout so the ESP32 / ESP8266 doesn't hang waiting to be configured for ever.

ESPAsync_wifiManager.setConfigPortalTimeout(120);

which will wait 2 minutes (120 seconds). When the time passes, the startConfigPortal() function will return and continue the sketch, unless you're accessing the Config Portal. In this case, the startConfigPortal() function will stay until you save config data or exit the Config Portal.

On Demand ConfigPortal

Example usage

void loop()
{
  // is configuration portal requested?
  if ((digitalRead(TRIGGER_PIN) == LOW) || (digitalRead(TRIGGER_PIN2) == LOW))
  {
    Serial.println(F("\nConfiguration portal requested."));
    digitalWrite(LED_BUILTIN, LED_ON); // turn the LED on by making the voltage LOW to tell us we are in configuration mode.

    //Local initialization. Once its business is done, there is no need to keep it around
    ESPAsync_WiFiManager ESPAsync_wifiManager(&webServer, &dnsServer, "ConfigOnSwitch");

    ESPAsync_wifiManager.setMinimumSignalQuality(-1);

    // From v1.0.10 only
    // Set config portal channel, default = 1. Use 0 => random channel from 1-13
    ESPAsync_wifiManager.setConfigPortalChannel(0);
    //////

    //set custom ip for portal
    //ESPAsync_wifiManager.setAPStaticIPConfig(IPAddress(192, 168, 100, 1), IPAddress(192, 168, 100, 1), IPAddress(255, 255, 255, 0));

#if !USE_DHCP_IP    
  #if USE_CONFIGURABLE_DNS  
    // Set static IP, Gateway, Subnetmask, DNS1 and DNS2. New in v1.0.5
    ESPAsync_wifiManager.setSTAStaticIPConfig(stationIP, gatewayIP, netMask, dns1IP, dns2IP);  
  #else
    // Set static IP, Gateway, Subnetmask, Use auto DNS1 and DNS2.
    ESPAsync_wifiManager.setSTAStaticIPConfig(stationIP, gatewayIP, netMask);
  #endif 
#endif       

  // New from v1.1.1
#if USING_CORS_FEATURE
  ESPAsync_wifiManager.setCORSHeader("Your Access-Control-Allow-Origin");
#endif

    //Check if there is stored WiFi router/password credentials.
    //If not found, device will remain in configuration mode until switched off via webserver.
    Serial.println(F("Opening configuration portal. "));
    
    Router_SSID = ESPAsync_wifiManager.WiFi_SSID();
    Router_Pass = ESPAsync_wifiManager.WiFi_Pass();

    //Remove this line if you do not want to see WiFi password printed
    Serial.println("ESP Self-Stored: SSID = " + Router_SSID + ", Pass = " + Router_Pass);
   
    // From v1.1.0, Don't permit NULL password
    if ( (Router_SSID != "") && (Router_Pass != "") )
    {
      LOGERROR3(F("* Add SSID = "), Router_SSID, F(", PW = "), Router_Pass);
      wifiMulti.addAP(Router_SSID.c_str(), Router_Pass.c_str());
      
      ESPAsync_wifiManager.setConfigPortalTimeout(120); //If no access point name has been previously entered disable timeout.
      Serial.println(F("Got ESP Self-Stored Credentials. Timeout 120s for Config Portal"));
    }
    else if (loadConfigData())
    {      
      ESPAsync_wifiManager.setConfigPortalTimeout(120); //If no access point name has been previously entered disable timeout.
      Serial.println(F("Got stored Credentials. Timeout 120s for Config Portal")); 
    }
    else
    {
      // Enter CP only if no stored SSID on flash and file 
      Serial.println(F("Open Config Portal without Timeout: No stored Credentials."));
      initialConfig = true;
    }

    //Starts an access point
    //and goes into a blocking loop awaiting configuration
    if (!ESPAsync_wifiManager.startConfigPortal((const char *) ssid.c_str(), password))
    {
      Serial.println(F("Not connected to WiFi but continuing anyway."));
    }
    else
    {
      //if you get here you have connected to the WiFi
      Serial.println(F("connected...yeey :)"));
      Serial.print(F("Local IP: "));
      Serial.println(WiFi.localIP());
    }

    // Only clear then save data if CP entered and with new valid Credentials
    // No CP => stored getSSID() = ""
    if ( String(ESPAsync_wifiManager.getSSID(0)) != "" && String(ESPAsync_wifiManager.getSSID(1)) != "" )
    {
      // Stored  for later usage, from v1.1.0, but clear first
      memset(&WM_config, 0, sizeof(WM_config));
      
      for (uint8_t i = 0; i < NUM_WIFI_CREDENTIALS; i++)
      {
        String tempSSID = ESPAsync_wifiManager.getSSID(i);
        String tempPW   = ESPAsync_wifiManager.getPW(i);
    
        if (strlen(tempSSID.c_str()) < sizeof(WM_config.WiFi_Creds[i].wifi_ssid) - 1)
          strcpy(WM_config.WiFi_Creds[i].wifi_ssid, tempSSID.c_str());
        else
          strncpy(WM_config.WiFi_Creds[i].wifi_ssid, tempSSID.c_str(), sizeof(WM_config.WiFi_Creds[i].wifi_ssid) - 1);
    
        if (strlen(tempPW.c_str()) < sizeof(WM_config.WiFi_Creds[i].wifi_pw) - 1)
          strcpy(WM_config.WiFi_Creds[i].wifi_pw, tempPW.c_str());
        else
          strncpy(WM_config.WiFi_Creds[i].wifi_pw, tempPW.c_str(), sizeof(WM_config.WiFi_Creds[i].wifi_pw) - 1);  
    
        // Don't permit NULL SSID and password len < MIN_AP_PASSWORD_SIZE (8)
        if ( (String(WM_config.WiFi_Creds[i].wifi_ssid) != "") && (strlen(WM_config.WiFi_Creds[i].wifi_pw) >= MIN_AP_PASSWORD_SIZE) )
        {
          LOGERROR3(F("* Add SSID = "), WM_config.WiFi_Creds[i].wifi_ssid, F(", PW = "), WM_config.WiFi_Creds[i].wifi_pw );
          wifiMulti.addAP(WM_config.WiFi_Creds[i].wifi_ssid, WM_config.WiFi_Creds[i].wifi_pw);
        }
      }
    
      saveConfigData();
    }

    digitalWrite(LED_BUILTIN, LED_OFF); // Turn led off as we are not in configuration mode.
  }

  // put your main code here, to run repeatedly
  check_status();
}

See Async_ConfigOnSwitch example for a more complex version.



Custom Parameters

Many applications need configuration parameters like MQTT host and port, Blynk or emoncms tokens, etc. While it is possible to use ESPAsync_WiFiManager to collect additional parameters, it is better to read these parameters from a web service once ESPAsync_WiFiManager has been used to connect to the Internet.

To capture other parameters with ESPAsync_WiFiManager is a little bit more complicated than all the other features. This requires adding custom HTML to your form.

If you want to do it with ESPAsync_WiFiManager see the example Async_ConfigOnSwitchFS

Custom IP Configuration

You can set a custom IP for both AP (access point, config mode) and STA (station mode, client mode, normal project state)

Custom Access Point IP Configuration

This will set your captive portal to a specific IP should you need/want such a feature. Add the following snippet before startConfigPortal()

//set custom ip for portal
ESPAsync_wifiManager.setAPStaticIPConfig(IPAddress(10,0,1,1), IPAddress(10,0,1,1), IPAddress(255,255,255,0));
Custom Station (client) Static IP Configuration

This will use the specified IP configuration instead of using DHCP in station mode.

ESPAsync_wifiManager.setSTAStaticIPConfig(IPAddress(192,168,0,99), IPAddress(192,168,0,1), IPAddress(255,255,255,0));

Custom HTML, CSS, Javascript

There are various ways in which you can inject custom HTML, CSS or Javascript into the ConfigPortal.

The options are:

  • inject custom head element

You can use this to any html bit to the head of the ConfigPortal. If you add a <style> element, bare in mind it overwrites the included css, not replaces.

ESPAsync_wifiManager.setCustomHeadElement("<style>html{filter: invert(100%); -webkit-filter: invert(100%);}</style>");
  • inject a custom bit of html in the configuration form
ESPAsync_WMParameter custom_text("<p>This is just a text paragraph</p>");
ESPAsync_wifiManager.addParameter(&custom_text);
  • inject a custom bit of html in a configuration form element Just add the bit you want added as the last parameter to the custom parameter constructor.
ESPAsync_WMParameter custom_mqtt_server("server", "mqtt server", "iot.eclipse", 40, " readonly");

Filter Networks

You can filter networks based on signal quality and show/hide duplicate networks.

  • If you would like to filter low signal quality networks you can tell WiFiManager to not show networks below an arbitrary quality %;
ESPAsync_wifiManager.setMinimumSignalQuality(10);

will not show networks under 10% signal quality. If you omit the parameter it defaults to 8%;

  • You can also remove or show duplicate networks (default is remove). Use this function to show (or hide) all networks.
ESPAsync_wifiManager.setRemoveDuplicateAPs(false);


Examples

Medium Complexity

  1. Async_ConfigOnSwitch
  2. Async_ConfigOnSwitchFS
  3. Async_ConfigOnStartup
  4. Async_ConfigOnDoubleReset (now support ArduinoJson 6.0.0+ as well as 5.13.5-)
  5. Async_ConfigPortalParamsOnSwitch (now support ArduinoJson 6.0.0+ as well as 5.13.5-)
  6. Async_AutoConnect
  7. Async_AutoConnectWithFeedback
  8. Async_AutoConnectWithFeedbackLED
  9. Async_AutoConnectWithFSParameters
  10. Async_ConfigOnSwitchFS_MQTT_Ptr
  11. Async_AutoConnectWithFSParametersAndCustomIP
  12. Async_ESP32_FSWebServer
  13. Async_ESP32_FSWebServer_DRD
  14. Async_ESP_FSWebServer
  15. Async_ESP_FSWebServer_DRD
  16. Async_ConfigOnDRD_FS_MQTT_Ptr
  17. Async_ConfigOnDoubleReset_TZ (now support ArduinoJson 6.0.0+ as well as 5.13.5-)

High Complexity

  1. Async_ConfigOnDRD_FS_MQTT_Ptr_Complex
  2. Async_ConfigOnDRD_FS_MQTT_Ptr_Medium

Multiple-Definitions-Linker-Error demo

  1. Async_ConfigOnDoubleReset_Multi


Example Async_ConfigOnDRD_FS_MQTT_Ptr

/****************************************************************************************************************************
This example will open a Config Portal when there is no stored WiFi Credentials or when a DRD is detected.
You can reconfigure to use another pin, such as the convenience FLASH / BOOT button @ PIN_D0;.
A password is required to connect to the Config Portal so that only who know the password can access the Config Portal.
The Credentials, being input via Config Portal, will then be saved into LittleFS / SPIFFS file, and be used to connect to
Adafruit MQTT Server at "io.adafruit.com" and publish a Temperature Topic
Based on original sketch posted by "Marko"(https://github.com/wackoo-arduino) on https://forum.arduino.cc/index.php?topic=692108
*****************************************************************************************************************************/
#if !( defined(ESP8266) || defined(ESP32) )
#error This code is intended to run on the ESP8266 or ESP32 platform! Please check your Tools->Board setting.
#endif
#define ESP_ASYNC_WIFIMANAGER_VERSION_MIN_TARGET "ESPAsync_WiFiManager v1.15.0"
#define ESP_ASYNC_WIFIMANAGER_VERSION_MIN 1015000
// Use from 0 to 4. Higher number, more debugging messages and memory usage.
#define _ESPASYNC_WIFIMGR_LOGLEVEL_ 3
// To not display stored SSIDs and PWDs on Config Portal, select false. Default is true
// Even the stored Credentials are not display, just leave them all blank to reconnect and reuse the stored Credentials
//#define DISPLAY_STORED_CREDENTIALS_IN_CP false
#include <FS.h>
// Now support ArduinoJson 6.0.0+ ( tested with v6.15.2 to v6.16.1 )
#include <ArduinoJson.h> // get it from https://arduinojson.org/ or install via Arduino library manager
//For ESP32, To use ESP32 Dev Module, QIO, Flash 4MB/80MHz, Upload 921600
//Ported to ESP32
#ifdef ESP32
#include <esp_wifi.h>
#include <WiFi.h>
#include <WiFiClient.h>
// From v1.1.1
#include <WiFiMulti.h>
WiFiMulti wifiMulti;
// LittleFS has higher priority than SPIFFS
#if ( defined(ESP_ARDUINO_VERSION_MAJOR) && (ESP_ARDUINO_VERSION_MAJOR >= 2) )
#define USE_LITTLEFS true
#define USE_SPIFFS false
#elif defined(ARDUINO_ESP32C3_DEV)
// For core v1.0.6-, ESP32-C3 only supporting SPIFFS and EEPROM. To use v2.0.0+ for LittleFS
#define USE_LITTLEFS false
#define USE_SPIFFS true
#endif
#if USE_LITTLEFS
// Use LittleFS
#include "FS.h"
// Check cores/esp32/esp_arduino_version.h and cores/esp32/core_version.h
//#if ( ESP_ARDUINO_VERSION >= ESP_ARDUINO_VERSION_VAL(2, 0, 0) ) //(ESP_ARDUINO_VERSION_MAJOR >= 2)
#if ( defined(ESP_ARDUINO_VERSION_MAJOR) && (ESP_ARDUINO_VERSION_MAJOR >= 2) )
#if (_ESPASYNC_WIFIMGR_LOGLEVEL_ > 3)
#warning Using ESP32 Core 1.0.6 or 2.0.0+
#endif
// The library has been merged into esp32 core from release 1.0.6
#include <LittleFS.h> // https://github.com/espressif/arduino-esp32/tree/master/libraries/LittleFS
FS* filesystem = &LittleFS;
#define FileFS LittleFS
#define FS_Name "LittleFS"
#else
#if (_ESPASYNC_WIFIMGR_LOGLEVEL_ > 3)
#warning Using ESP32 Core 1.0.5-. You must install LITTLEFS library
#endif
// The library has been merged into esp32 core from release 1.0.6
#include <LITTLEFS.h> // https://github.com/lorol/LITTLEFS
FS* filesystem = &LITTLEFS;
#define FileFS LITTLEFS
#define FS_Name "LittleFS"
#endif
#elif USE_SPIFFS
#include <SPIFFS.h>
FS* filesystem = &SPIFFS;
#define FileFS SPIFFS
#define FS_Name "SPIFFS"
#else
// +Use FFat
#include <FFat.h>
FS* filesystem = &FFat;
#define FileFS FFat
#define FS_Name "FFat"
#endif
//////
#define LED_BUILTIN 2
#define LED_ON HIGH
#define LED_OFF LOW
#else
#include <ESP8266WiFi.h> //https://github.com/esp8266/Arduino
//needed for library
#include <ESPAsyncDNSServer.h>
// From v1.1.1
#include <ESP8266WiFiMulti.h>
ESP8266WiFiMulti wifiMulti;
#define USE_LITTLEFS true
#if USE_LITTLEFS
#include <LittleFS.h>
FS* filesystem = &LittleFS;
#define FileFS LittleFS
#define FS_Name "LittleFS"
#else
FS* filesystem = &SPIFFS;
#define FileFS SPIFFS
#define FS_Name "SPIFFS"
#endif
//////
#define ESP_getChipId() (ESP.getChipId())
#define LED_ON LOW
#define LED_OFF HIGH
#endif
// These defines must be put before #include <ESP_DoubleResetDetector.h>
// to select where to store DoubleResetDetector's variable.
// For ESP32, You must select one to be true (EEPROM or SPIFFS)
// For ESP8266, You must select one to be true (RTC, EEPROM, SPIFFS or LITTLEFS)
// Otherwise, library will use default EEPROM storage
#ifdef ESP32
// These defines must be put before #include <ESP_DoubleResetDetector.h>
// to select where to store DoubleResetDetector's variable.
// For ESP32, You must select one to be true (EEPROM or SPIFFS)
// Otherwise, library will use default EEPROM storage
#if USE_LITTLEFS
#define ESP_DRD_USE_LITTLEFS true
#define ESP_DRD_USE_SPIFFS false
#define ESP_DRD_USE_EEPROM false
#elif USE_SPIFFS
#define ESP_DRD_USE_LITTLEFS false
#define ESP_DRD_USE_SPIFFS true
#define ESP_DRD_USE_EEPROM false
#else
#define ESP_DRD_USE_LITTLEFS false
#define ESP_DRD_USE_SPIFFS false
#define ESP_DRD_USE_EEPROM true
#endif
#else //ESP8266
// For DRD
// These defines must be put before #include <ESP_DoubleResetDetector.h>
// to select where to store DoubleResetDetector's variable.
// For ESP8266, You must select one to be true (RTC, EEPROM, SPIFFS or LITTLEFS)
// Otherwise, library will use default EEPROM storage
#if USE_LITTLEFS
#define ESP_DRD_USE_LITTLEFS true
#define ESP_DRD_USE_SPIFFS false
#else
#define ESP_DRD_USE_LITTLEFS false
#define ESP_DRD_USE_SPIFFS true
#endif
#define ESP_DRD_USE_EEPROM false
#define ESP8266_DRD_USE_RTC false
#endif
#define DOUBLERESETDETECTOR_DEBUG true //false
#include <ESP_DoubleResetDetector.h> //https://github.com/khoih-prog/ESP_DoubleResetDetector
// Number of seconds after reset during which a
// subseqent reset will be considered a double reset.
#define DRD_TIMEOUT 10
// RTC Memory Address for the DoubleResetDetector to use
#define DRD_ADDRESS 0
DoubleResetDetector* drd = NULL;
#include "Adafruit_MQTT.h" //https://github.com/adafruit/Adafruit_MQTT_Library
#include "Adafruit_MQTT_Client.h" //https://github.com/adafruit/Adafruit_MQTT_Library
const char* CONFIG_FILE = "/ConfigMQTT.json";
// Default configuration values for Adafruit IO MQTT
// This actually works
#define AIO_SERVER "io.adafruit.com"
#define AIO_SERVERPORT "1883" //1883, or 8883 for SSL
#define AIO_USERNAME "private" //Adafruit IO
#define AIO_KEY "private"
// Labels for custom parameters in WiFi manager
#define AIO_SERVER_Label "AIO_SERVER_Label"
#define AIO_SERVERPORT_Label "AIO_SERVERPORT_Label"
#define AIO_USERNAME_Label "AIO_USERNAME_Label"
#define AIO_KEY_Label "AIO_KEY_Label"
// Just dummy topics. To be updated later when got valid data from FS or Config Portal
String MQTT_Pub_Topic = "private/feeds/Temperature";
// Variables to save custom parameters to...
// I would like to use these instead of #defines
#define custom_AIO_SERVER_LEN 20
#define custom_AIO_PORT_LEN 5
#define custom_AIO_USERNAME_LEN 20
#define custom_AIO_KEY_LEN 40
char custom_AIO_SERVER[custom_AIO_SERVER_LEN];
char custom_AIO_SERVERPORT[custom_AIO_PORT_LEN];
char custom_AIO_USERNAME[custom_AIO_USERNAME_LEN];
char custom_AIO_KEY[custom_AIO_KEY_LEN];
// Function Prototypes
void MQTT_connect();
bool readConfigFile();
bool writeConfigFile();
// From v1.1.1
// You only need to format the filesystem once
//#define FORMAT_FILESYSTEM true
#define FORMAT_FILESYSTEM false
#define MIN_AP_PASSWORD_SIZE 8
#define SSID_MAX_LEN 32
//From v1.0.10, WPA2 passwords can be up to 63 characters long.
#define PASS_MAX_LEN 64
typedef struct
{
char wifi_ssid[SSID_MAX_LEN];
char wifi_pw [PASS_MAX_LEN];
} WiFi_Credentials;
typedef struct
{
String wifi_ssid;
String wifi_pw;
} WiFi_Credentials_String;
#define NUM_WIFI_CREDENTIALS 2
// Assuming max 49 chars
#define TZNAME_MAX_LEN 50
#define TIMEZONE_MAX_LEN 50
typedef struct
{
WiFi_Credentials WiFi_Creds [NUM_WIFI_CREDENTIALS];
char TZ_Name[TZNAME_MAX_LEN]; // "America/Toronto"
char TZ[TIMEZONE_MAX_LEN]; // "EST5EDT,M3.2.0,M11.1.0"
uint16_t checksum;
} WM_Config;
WM_Config WM_config;
#define CONFIG_FILENAME F("/wifi_cred.dat")
//////
// Indicates whether ESP has WiFi credentials saved from previous session, or double reset detected
bool initialConfig = false;
// Use false if you don't like to display Available Pages in Information Page of Config Portal
// Comment out or use true to display Available Pages in Information Page of Config Portal
// Must be placed before #include <ESPAsync_WiFiManager.h>
#define USE_AVAILABLE_PAGES false
// From v1.0.10 to permit disable/enable StaticIP configuration in Config Portal from sketch. Valid only if DHCP is used.
// You'll loose the feature of dynamically changing from DHCP to static IP, or vice versa
// You have to explicitly specify false to disable the feature.
//#define USE_STATIC_IP_CONFIG_IN_CP false
// Use false to disable NTP config. Advisable when using Cellphone, Tablet to access Config Portal.
// See Issue 23: On Android phone ConfigPortal is unresponsive (https://github.com/khoih-prog/ESP_WiFiManager/issues/23)
#define USE_ESP_WIFIMANAGER_NTP true
// Just use enough to save memory. On ESP8266, can cause blank ConfigPortal screen
// if using too much memory
#define USING_AFRICA false
#define USING_AMERICA true
#define USING_ANTARCTICA false
#define USING_ASIA false
#define USING_ATLANTIC false
#define USING_AUSTRALIA false
#define USING_EUROPE false
#define USING_INDIAN false
#define USING_PACIFIC false
#define USING_ETC_GMT false
// Use true to enable CloudFlare NTP service. System can hang if you don't have Internet access while accessing CloudFlare
// See Issue #21: CloudFlare link in the default portal (https://github.com/khoih-prog/ESP_WiFiManager/issues/21)
#define USE_CLOUDFLARE_NTP false
// New in v1.0.11
#define USING_CORS_FEATURE true
////////////////////////////////////////////
// Use USE_DHCP_IP == true for dynamic DHCP IP, false to use static IP which you have to change accordingly to your network
#if (defined(USE_STATIC_IP_CONFIG_IN_CP) && !USE_STATIC_IP_CONFIG_IN_CP)
// Force DHCP to be true
#if defined(USE_DHCP_IP)
#undef USE_DHCP_IP
#endif
#define USE_DHCP_IP true
#else
// You can select DHCP or Static IP here
#define USE_DHCP_IP true
//#define USE_DHCP_IP false
#endif
#if ( USE_DHCP_IP )
// Use DHCP
#if (_ESPASYNC_WIFIMGR_LOGLEVEL_ > 3)
#warning Using DHCP IP
#endif
IPAddress stationIP = IPAddress(0, 0, 0, 0);
IPAddress gatewayIP = IPAddress(192, 168, 2, 1);
IPAddress netMask = IPAddress(255, 255, 255, 0);
#else
// Use static IP
#if (_ESPASYNC_WIFIMGR_LOGLEVEL_ > 3)
#warning Using static IP
#endif
#ifdef ESP32
IPAddress stationIP = IPAddress(192, 168, 2, 232);
#else
IPAddress stationIP = IPAddress(192, 168, 2, 186);
#endif
IPAddress gatewayIP = IPAddress(192, 168, 2, 1);
IPAddress netMask = IPAddress(255, 255, 255, 0);
#endif
////////////////////////////////////////////
#define USE_CONFIGURABLE_DNS true
IPAddress dns1IP = gatewayIP;
IPAddress dns2IP = IPAddress(8, 8, 8, 8);
#define USE_CUSTOM_AP_IP false
IPAddress APStaticIP = IPAddress(192, 168, 100, 1);
IPAddress APStaticGW = IPAddress(192, 168, 100, 1);
IPAddress APStaticSN = IPAddress(255, 255, 255, 0);
#include <ESPAsync_WiFiManager.h> //https://github.com/khoih-prog/ESPAsync_WiFiManager
// Redundant, for v1.10.0 only
//#include <ESPAsync_WiFiManager-Impl.h> //https://github.com/khoih-prog/ESPAsync_WiFiManager
// For Config Portal
// SSID and PW for Config Portal
String ssid = "ESP_" + String(ESP_getChipId(), HEX);
String password;
// SSID and PW for your Router
String Router_SSID;
String Router_Pass;
#define HTTP_PORT 80
// Create an ESP32 WiFiClient class to connect to the MQTT server
WiFiClient *client = NULL;
Adafruit_MQTT_Client *mqtt = NULL;
Adafruit_MQTT_Publish *Temperature = NULL;
// Forward Declaration
///////////////////////////////////////////
// New in v1.4.0
/******************************************
typedef struct
{
IPAddress _ap_static_ip;
IPAddress _ap_static_gw;
IPAddress _ap_static_sn;
} WiFi_AP_IPConfig;
typedef struct
{
IPAddress _sta_static_ip;
IPAddress _sta_static_gw;
IPAddress _sta_static_sn;
#if USE_CONFIGURABLE_DNS
IPAddress _sta_static_dns1;
IPAddress _sta_static_dns2;
#endif
} WiFi_STA_IPConfig;
******************************************/
WiFi_AP_IPConfig WM_AP_IPconfig;
WiFi_STA_IPConfig WM_STA_IPconfig;
void initAPIPConfigStruct(WiFi_AP_IPConfig &in_WM_AP_IPconfig)
{
in_WM_AP_IPconfig._ap_static_ip = APStaticIP;
in_WM_AP_IPconfig._ap_static_gw = APStaticGW;
in_WM_AP_IPconfig._ap_static_sn = APStaticSN;
}
void initSTAIPConfigStruct(WiFi_STA_IPConfig &in_WM_STA_IPconfig)
{
in_WM_STA_IPconfig._sta_static_ip = stationIP;
in_WM_STA_IPconfig._sta_static_gw = gatewayIP;
in_WM_STA_IPconfig._sta_static_sn = netMask;
#if USE_CONFIGURABLE_DNS
in_WM_STA_IPconfig._sta_static_dns1 = dns1IP;
in_WM_STA_IPconfig._sta_static_dns2 = dns2IP;
#endif
}
void displayIPConfigStruct(WiFi_STA_IPConfig in_WM_STA_IPconfig)
{
LOGERROR3(F("stationIP ="), in_WM_STA_IPconfig._sta_static_ip, ", gatewayIP =", in_WM_STA_IPconfig._sta_static_gw);
LOGERROR1(F("netMask ="), in_WM_STA_IPconfig._sta_static_sn);
#if USE_CONFIGURABLE_DNS
LOGERROR3(F("dns1IP ="), in_WM_STA_IPconfig._sta_static_dns1, ", dns2IP =", in_WM_STA_IPconfig._sta_static_dns2);
#endif
}
void configWiFi(WiFi_STA_IPConfig in_WM_STA_IPconfig)
{
#if USE_CONFIGURABLE_DNS
// Set static IP, Gateway, Subnetmask, DNS1 and DNS2. New in v1.0.5
WiFi.config(in_WM_STA_IPconfig._sta_static_ip, in_WM_STA_IPconfig._sta_static_gw, in_WM_STA_IPconfig._sta_static_sn, in_WM_STA_IPconfig._sta_static_dns1, in_WM_STA_IPconfig._sta_static_dns2);
#else
// Set static IP, Gateway, Subnetmask, Use auto DNS1 and DNS2.
WiFi.config(in_WM_STA_IPconfig._sta_static_ip, in_WM_STA_IPconfig._sta_static_gw, in_WM_STA_IPconfig._sta_static_sn);
#endif
}
///////////////////////////////////////////
uint8_t connectMultiWiFi()
{
#if ESP32
// For ESP32, this better be 0 to shorten the connect time.
// For ESP32-S2/C3, must be > 500
#if ( USING_ESP32_S2 || USING_ESP32_C3 )
#define WIFI_MULTI_1ST_CONNECT_WAITING_MS 500L
#else
// For ESP32 core v1.0.6, must be >= 500
#define WIFI_MULTI_1ST_CONNECT_WAITING_MS 800L
#endif
#else
// For ESP8266, this better be 2200 to enable connect the 1st time
#define WIFI_MULTI_1ST_CONNECT_WAITING_MS 2200L
#endif
#define WIFI_MULTI_CONNECT_WAITING_MS 500L
uint8_t status;
//WiFi.mode(WIFI_STA);
LOGERROR(F("ConnectMultiWiFi with :"));
if ( (Router_SSID != "") && (Router_Pass != "") )
{
LOGERROR3(F("* Flash-stored Router_SSID = "), Router_SSID, F(", Router_Pass = "), Router_Pass );
LOGERROR3(F("* Add SSID = "), Router_SSID, F(", PW = "), Router_Pass );
wifiMulti.addAP(Router_SSID.c_str(), Router_Pass.c_str());
}
for (uint8_t i = 0; i < NUM_WIFI_CREDENTIALS; i++)
{
// Don't permit NULL SSID and password len < MIN_AP_PASSWORD_SIZE (8)
if ( (String(WM_config.WiFi_Creds[i].wifi_ssid) != "") && (strlen(WM_config.WiFi_Creds[i].wifi_pw) >= MIN_AP_PASSWORD_SIZE) )
{
LOGERROR3(F("* Additional SSID = "), WM_config.WiFi_Creds[i].wifi_ssid, F(", PW = "), WM_config.WiFi_Creds[i].wifi_pw );
}
}
LOGERROR(F("Connecting MultiWifi..."));
//WiFi.mode(WIFI_STA);
#if !USE_DHCP_IP
// New in v1.4.0
configWiFi(WM_STA_IPconfig);
//////
#endif
int i = 0;
status = wifiMulti.run();
delay(WIFI_MULTI_1ST_CONNECT_WAITING_MS);
while ( ( i++ < 20 ) && ( status != WL_CONNECTED ) )
{
status = WiFi.status();
if ( status == WL_CONNECTED )
break;
else
delay(WIFI_MULTI_CONNECT_WAITING_MS);
}
if ( status == WL_CONNECTED )
{
LOGERROR1(F("WiFi connected after time: "), i);
LOGERROR3(F("SSID:"), WiFi.SSID(), F(",RSSI="), WiFi.RSSI());
LOGERROR3(F("Channel:"), WiFi.channel(), F(",IP address:"), WiFi.localIP() );
}
else
{
LOGERROR(F("WiFi not connected"));
// To avoid unnecessary DRD
drd->loop();
#if ESP8266
ESP.reset();
#else
ESP.restart();
#endif
}
return status;
}
void toggleLED()
{
//toggle state
digitalWrite(LED_BUILTIN, !digitalRead(LED_BUILTIN));
}
#if USE_ESP_WIFIMANAGER_NTP
void printLocalTime()
{
#if ESP8266
static time_t now;
now = time(nullptr);
if ( now > 1451602800 )
{
Serial.print("Local Date/Time: ");
Serial.print(ctime(&now));
}
#else
struct tm timeinfo;
getLocalTime( &timeinfo );
// Valid only if year > 2000.
// You can get from timeinfo : tm_year, tm_mon, tm_mday, tm_hour, tm_min, tm_sec
if (timeinfo.tm_year > 100 )
{
Serial.print("Local Date/Time: ");
Serial.print( asctime( &timeinfo ) );
}
#endif
}
#endif
void heartBeatPrint()
{
#if USE_ESP_WIFIMANAGER_NTP
printLocalTime();
#else
static int num = 1;
if (WiFi.status() == WL_CONNECTED)
Serial.print(F("H")); // H means connected to WiFi
else
Serial.print(F("F")); // F means not connected to WiFi
if (num == 80)
{
Serial.println();
num = 1;
}
else if (num++ % 10 == 0)
{
Serial.print(F(" "));
}
#endif
}
void publishMQTT()
{
float some_number = 25.0 + (float) ( millis() % 100 ) / 100;
// For debug only
//Serial.print(F("Published Temp = "));
//Serial.println(some_number);
MQTT_connect();
if (Temperature->publish(some_number))
{
Serial.print(F("T")); // T means publishing OK
}
else
{
Serial.print(F("F")); // F means publishing failure
}
}
void check_WiFi()
{
if ( (WiFi.status() != WL_CONNECTED) )
{
Serial.println(F("\nWiFi lost. Call connectMultiWiFi in loop"));
connectMultiWiFi();
}
}
void check_status()
{
static ulong checkstatus_timeout = 0;
static ulong LEDstatus_timeout = 0;
static ulong checkwifi_timeout = 0;
static ulong mqtt_publish_timeout = 0;
ulong current_millis = millis();
#define WIFICHECK_INTERVAL 1000L
#if USE_ESP_WIFIMANAGER_NTP
#define HEARTBEAT_INTERVAL 60000L
#else
#define HEARTBEAT_INTERVAL 10000L
#endif
#define LED_INTERVAL 2000L
#define PUBLISH_INTERVAL 70000L
// Check WiFi every WIFICHECK_INTERVAL (1) seconds.
if ((current_millis > checkwifi_timeout) || (checkwifi_timeout == 0))
{
check_WiFi();
checkwifi_timeout = current_millis + WIFICHECK_INTERVAL;
}
if ((current_millis > LEDstatus_timeout) || (LEDstatus_timeout == 0))
{
// Toggle LED at LED_INTERVAL = 2s
toggleLED();
LEDstatus_timeout = current_millis + LED_INTERVAL;
}
// Print hearbeat every HEARTBEAT_INTERVAL (10) seconds.
if ((current_millis > checkstatus_timeout) || (checkstatus_timeout == 0))
{
heartBeatPrint();
checkstatus_timeout = current_millis + HEARTBEAT_INTERVAL;
}
// Check every PUBLISH_INTERVAL (60) seconds.
if ((current_millis > mqtt_publish_timeout) || (mqtt_publish_timeout == 0))
{
if (WiFi.status() == WL_CONNECTED)
{
publishMQTT();
}
mqtt_publish_timeout = current_millis + PUBLISH_INTERVAL;
}
}
int calcChecksum(uint8_t* address, uint16_t sizeToCalc)
{
uint16_t checkSum = 0;
for (uint16_t index = 0; index < sizeToCalc; index++)
{
checkSum += * ( ( (byte*) address ) + index);
}
return checkSum;
}
bool loadConfigData()
{
File file = FileFS.open(CONFIG_FILENAME, "r");
LOGERROR(F("LoadWiFiCfgFile "));
memset((void *) &WM_config, 0, sizeof(WM_config));
// New in v1.4.0
memset((void *) &WM_STA_IPconfig, 0, sizeof(WM_STA_IPconfig));
//////
if (file)
{
file.readBytes((char *) &WM_config, sizeof(WM_config));
// New in v1.4.0
file.readBytes((char *) &WM_STA_IPconfig, sizeof(WM_STA_IPconfig));
//////
file.close();
LOGERROR(F("OK"));
if ( WM_config.checksum != calcChecksum( (uint8_t*) &WM_config, sizeof(WM_config) - sizeof(WM_config.checksum) ) )
{
LOGERROR(F("WM_config checksum wrong"));
return false;
}
// New in v1.4.0
displayIPConfigStruct(WM_STA_IPconfig);
//////
return true;
}
else
{
LOGERROR(F("failed"));
return false;
}
}
void saveConfigData()
{
File file = FileFS.open(CONFIG_FILENAME, "w");
LOGERROR(F("SaveWiFiCfgFile "));
if (file)
{
WM_config.checksum = calcChecksum( (uint8_t*) &WM_config, sizeof(WM_config) - sizeof(WM_config.checksum) );
file.write((uint8_t*) &WM_config, sizeof(WM_config));
displayIPConfigStruct(WM_STA_IPconfig);
// New in v1.4.0
file.write((uint8_t*) &WM_STA_IPconfig, sizeof(WM_STA_IPconfig));
//////
file.close();
LOGERROR(F("OK"));
}
else
{
LOGERROR(F("failed"));
}
}
void deleteOldInstances()
{
// Delete previous instances
if (mqtt)
{
delete mqtt;
mqtt = NULL;
Serial.println(F("Deleting old MQTT object"));
}
if (Temperature)
{
delete Temperature;
Temperature = NULL;
Serial.println(F("Deleting old Temperature object"));
}
}
void createNewInstances()
{
if (!client)
{
client = new WiFiClient;
Serial.print(F("\nCreating new WiFi client object : "));
Serial.println(client? F("OK") : F("failed"));
}
// Create new instances from new data
if (!mqtt)
{
// Setup the MQTT client class by passing in the WiFi client and MQTT server and login details.
mqtt = new Adafruit_MQTT_Client(client, custom_AIO_SERVER, atoi(custom_AIO_SERVERPORT), custom_AIO_USERNAME, custom_AIO_KEY);
Serial.print(F("Creating new MQTT object : "));
if (mqtt)
{
Serial.println(F("OK"));
Serial.println(String("AIO_SERVER = ") + custom_AIO_SERVER + ", AIO_SERVERPORT = " + custom_AIO_SERVERPORT);
Serial.println(String("AIO_USERNAME = ") + custom_AIO_USERNAME + ", AIO_KEY = " + custom_AIO_KEY);
}
else
Serial.println(F("Failed"));
}
if (!Temperature)
{
Serial.print(F("Creating new MQTT_Pub_Topic, Temperature = "));
Serial.println(MQTT_Pub_Topic);
Temperature = new Adafruit_MQTT_Publish(mqtt, MQTT_Pub_Topic.c_str());
Serial.print(F("Creating new Temperature object : "));
if (Temperature)
{
Serial.println(F("OK"));
Serial.println(String("Temperature MQTT_Pub_Topic = ") + MQTT_Pub_Topic);
}
else
Serial.println(F("Failed"));
}
}
void wifi_manager()
{
Serial.println(F("\nConfig Portal requested."));
digitalWrite(LED_BUILTIN, LED_ON); // turn the LED on by making the voltage LOW to tell us we are in configuration mode.
//Local intialization. Once its business is done, there is no need to keep it around
// Use this to default DHCP hostname to ESP8266-XXXXXX or ESP32-XXXXXX
//ESPAsync_WiFiManager ESPAsync_wifiManager(&webServer, &dnsServer);
// Use this to personalize DHCP hostname (RFC952 conformed)
AsyncWebServer webServer(HTTP_PORT);
#if ( USING_ESP32_S2 || USING_ESP32_C3 )
ESPAsync_WiFiManager ESPAsync_wifiManager(&webServer, NULL, "ConfigOnDRD-FS-MQTT");
#else
AsyncDNSServer dnsServer;
ESPAsync_WiFiManager ESPAsync_wifiManager(&webServer, &dnsServer, "ConfigOnDRD-FS-MQTT");
#endif
//Check if there is stored WiFi router/password credentials.
//If not found, device will remain in configuration mode until switched off via webserver.
Serial.print(F("Opening Configuration Portal. "));
Router_SSID = ESPAsync_wifiManager.WiFi_SSID();
Router_Pass = ESPAsync_wifiManager.WiFi_Pass();
// From v1.1.1, Don't permit NULL password
if ( !initialConfig && (Router_SSID != "") && (Router_Pass != "") )
{
//If valid AP credential and not DRD, set timeout 120s.
ESPAsync_wifiManager.setConfigPortalTimeout(120);
Serial.println("Got stored Credentials. Timeout 120s");
}
else
{
ESPAsync_wifiManager.setConfigPortalTimeout(0);
Serial.print(F("No timeout : "));
if (initialConfig)
{
Serial.println(F("DRD or No stored Credentials.."));
}
else
{
Serial.println(F("No stored Credentials."));
}
}
// Extra parameters to be configured
// After connecting, parameter.getValue() will get you the configured value
// Format: <ID> <Placeholder text> <default value> <length> <custom HTML> <label placement>
// (*** we are not using <custom HTML> and <label placement> ***)
// AIO_SERVER
ESPAsync_WMParameter AIO_SERVER_FIELD(AIO_SERVER_Label, "AIO SERVER", custom_AIO_SERVER, custom_AIO_SERVER_LEN + 1);
// AIO_SERVERPORT
ESPAsync_WMParameter AIO_SERVERPORT_FIELD(AIO_SERVERPORT_Label, "AIO SERVER PORT", custom_AIO_SERVERPORT, custom_AIO_PORT_LEN + 1);
// AIO_USERNAME
ESPAsync_WMParameter AIO_USERNAME_FIELD(AIO_USERNAME_Label, "AIO USERNAME", custom_AIO_USERNAME, custom_AIO_USERNAME_LEN + 1);
// AIO_KEY
ESPAsync_WMParameter AIO_KEY_FIELD(AIO_KEY_Label, "AIO KEY", custom_AIO_KEY, custom_AIO_KEY_LEN + 1);
// add all parameters here
// order of adding is not important
ESPAsync_wifiManager.addParameter(&AIO_SERVER_FIELD);
ESPAsync_wifiManager.addParameter(&AIO_SERVERPORT_FIELD);
ESPAsync_wifiManager.addParameter(&AIO_USERNAME_FIELD);
ESPAsync_wifiManager.addParameter(&AIO_KEY_FIELD);
// Sets timeout in seconds until configuration portal gets turned off.
// If not specified device will remain in configuration mode until
// switched off via webserver or device is restarted.
//ESPAsync_wifiManager.setConfigPortalTimeout(120);
ESPAsync_wifiManager.setMinimumSignalQuality(-1);
// From v1.0.10 only
// Set config portal channel, default = 1. Use 0 => random channel from 1-13
ESPAsync_wifiManager.setConfigPortalChannel(0);
//////
#if USE_CUSTOM_AP_IP
//set custom ip for portal
// New in v1.4.0
ESPAsync_wifiManager.setAPStaticIPConfig(WM_AP_IPconfig);
//////
#endif
#if !USE_DHCP_IP
// Set (static IP, Gateway, Subnetmask, DNS1 and DNS2) or (IP, Gateway, Subnetmask). New in v1.0.5
// New in v1.4.0
ESPAsync_wifiManager.setSTAStaticIPConfig(WM_STA_IPconfig);
//////
#endif
// New from v1.1.1
#if USING_CORS_FEATURE
ESPAsync_wifiManager.setCORSHeader("Your Access-Control-Allow-Origin");
#endif
// Start an access point
// and goes into a blocking loop awaiting configuration.
// Once the user leaves the portal with the exit button
// processing will continue
// SSID to uppercase
ssid.toUpperCase();
password = "My" + ssid;
Serial.print(F("Starting configuration portal @ "));
#if USE_CUSTOM_AP_IP
Serial.print(APStaticIP);
#else
Serial.print(F("192.168.4.1"));
#endif
Serial.print(F(", SSID = "));
Serial.print(ssid);
Serial.print(F(", PWD = "));
Serial.println(password);
#if DISPLAY_STORED_CREDENTIALS_IN_CP
// New. Update Credentials, got from loadConfigData(), to display on CP
ESPAsync_wifiManager.setCredentials(WM_config.WiFi_Creds[0].wifi_ssid, WM_config.WiFi_Creds[0].wifi_pw,
WM_config.WiFi_Creds[1].wifi_ssid, WM_config.WiFi_Creds[1].wifi_pw);
#endif
if (!ESPAsync_wifiManager.startConfigPortal((const char *) ssid.c_str(), password.c_str()))
{
Serial.println(F("Not connected to WiFi but continuing anyway."));
}
else
{
// If you get here you have connected to the WiFi
Serial.println(F("Connected...yeey :)"));
Serial.print(F("Local IP: "));
Serial.println(WiFi.localIP());
}
// Only clear then save data if CP entered and with new valid Credentials
// No CP => stored getSSID() = ""
if ( String(ESPAsync_wifiManager.getSSID(0)) != "" && String(ESPAsync_wifiManager.getSSID(1)) != "" )
{
// Stored for later usage, from v1.1.0, but clear first
memset(&WM_config, 0, sizeof(WM_config));
for (uint8_t i = 0; i < NUM_WIFI_CREDENTIALS; i++)
{
String tempSSID = ESPAsync_wifiManager.getSSID(i);
String tempPW = ESPAsync_wifiManager.getPW(i);
if (strlen(tempSSID.c_str()) < sizeof(WM_config.WiFi_Creds[i].wifi_ssid) - 1)
strcpy(WM_config.WiFi_Creds[i].wifi_ssid, tempSSID.c_str());
else
strncpy(WM_config.WiFi_Creds[i].wifi_ssid, tempSSID.c_str(), sizeof(WM_config.WiFi_Creds[i].wifi_ssid) - 1);
if (strlen(tempPW.c_str()) < sizeof(WM_config.WiFi_Creds[i].wifi_pw) - 1)
strcpy(WM_config.WiFi_Creds[i].wifi_pw, tempPW.c_str());
else
strncpy(WM_config.WiFi_Creds[i].wifi_pw, tempPW.c_str(), sizeof(WM_config.WiFi_Creds[i].wifi_pw) - 1);
// Don't permit NULL SSID and password len < MIN_AP_PASSWORD_SIZE (8)
if ( (String(WM_config.WiFi_Creds[i].wifi_ssid) != "") && (strlen(WM_config.WiFi_Creds[i].wifi_pw) >= MIN_AP_PASSWORD_SIZE) )
{
LOGERROR3(F("* Add SSID = "), WM_config.WiFi_Creds[i].wifi_ssid, F(", PW = "), WM_config.WiFi_Creds[i].wifi_pw );
wifiMulti.addAP(WM_config.WiFi_Creds[i].wifi_ssid, WM_config.WiFi_Creds[i].wifi_pw);
}
}
#if USE_ESP_WIFIMANAGER_NTP
String tempTZ = ESPAsync_wifiManager.getTimezoneName();
if (strlen(tempTZ.c_str()) < sizeof(WM_config.TZ_Name) - 1)
strcpy(WM_config.TZ_Name, tempTZ.c_str());
else
strncpy(WM_config.TZ_Name, tempTZ.c_str(), sizeof(WM_config.TZ_Name) - 1);
const char * TZ_Result = ESPAsync_wifiManager.getTZ(WM_config.TZ_Name);
if (strlen(TZ_Result) < sizeof(WM_config.TZ) - 1)
strcpy(WM_config.TZ, TZ_Result);
else
strncpy(WM_config.TZ, TZ_Result, sizeof(WM_config.TZ_Name) - 1);
if ( strlen(WM_config.TZ_Name) > 0 )
{
LOGERROR3(F("Saving current TZ_Name ="), WM_config.TZ_Name, F(", TZ = "), WM_config.TZ);
#if ESP8266
configTime(WM_config.TZ, "pool.ntp.org");
#else
//configTzTime(WM_config.TZ, "pool.ntp.org" );
configTzTime(WM_config.TZ, "time.nist.gov", "0.pool.ntp.org", "1.pool.ntp.org");
#endif
}
else
{
LOGERROR(F("Current Timezone Name is not set. Enter Config Portal to set."));
}
#endif
// New in v1.4.0
ESPAsync_wifiManager.getSTAStaticIPConfig(WM_STA_IPconfig);
//////
saveConfigData();
}
// Getting posted form values and overriding local variables parameters
// Config file is written regardless the connection state
strcpy(custom_AIO_SERVER, AIO_SERVER_FIELD.getValue());
strcpy(custom_AIO_SERVERPORT, AIO_SERVERPORT_FIELD.getValue());
strcpy(custom_AIO_USERNAME, AIO_USERNAME_FIELD.getValue());
strcpy(custom_AIO_KEY, AIO_KEY_FIELD.getValue());
// Writing JSON config file to flash for next boot
writeConfigFile();
digitalWrite(LED_BUILTIN, LED_OFF); // Turn LED off as we are not in configuration mode.
deleteOldInstances();
MQTT_Pub_Topic = String(custom_AIO_USERNAME) + "/feeds/Temperature";
createNewInstances();
}
bool readConfigFile()
{
// this opens the config file in read-mode
File f = FileFS.open(CONFIG_FILE, "r");
if (!f)
{
Serial.println(F("Config File not found"));
return false;
}
else
{
// we could open the file
size_t size = f.size();
// Allocate a buffer to store contents of the file.
std::unique_ptr<char[]> buf(new char[size + 1]);
// Read and store file contents in buf
f.readBytes(buf.get(), size);
// Closing file
f.close();
// Using dynamic JSON buffer which is not the recommended memory model, but anyway
// See https://github.com/bblanchon/ArduinoJson/wiki/Memory%20model
#if (ARDUINOJSON_VERSION_MAJOR >= 6)
DynamicJsonDocument json(1024);
auto deserializeError = deserializeJson(json, buf.get());
if ( deserializeError )
{
Serial.println(F("JSON parseObject() failed"));
return false;
}
serializeJson(json, Serial);
#else
DynamicJsonBuffer jsonBuffer;
// Parse JSON string
JsonObject& json = jsonBuffer.parseObject(buf.get());
// Test if parsing succeeds.
if (!json.success())
{
Serial.println(F("JSON parseObject() failed"));
return false;
}
json.printTo(Serial);
#endif
// Parse all config file parameters, override
// local config variables with parsed values
if (json.containsKey(AIO_SERVER_Label))
{
strcpy(custom_AIO_SERVER, json[AIO_SERVER_Label]);
}
if (json.containsKey(AIO_SERVERPORT_Label))
{
strcpy(custom_AIO_SERVERPORT, json[AIO_SERVERPORT_Label]);
}
if (json.containsKey(AIO_USERNAME_Label))
{
strcpy(custom_AIO_USERNAME, json[AIO_USERNAME_Label]);
}
if (json.containsKey(AIO_KEY_Label))
{
strcpy(custom_AIO_KEY, json[AIO_KEY_Label]);
}
}
Serial.println(F("\nConfig File successfully parsed"));
return true;
}
bool writeConfigFile()
{
Serial.println(F("Saving Config File"));
#if (ARDUINOJSON_VERSION_MAJOR >= 6)
DynamicJsonDocument json(1024);
#else
DynamicJsonBuffer jsonBuffer;
JsonObject& json = jsonBuffer.createObject();
#endif
// JSONify local configuration parameters
json[AIO_SERVER_Label] = custom_AIO_SERVER;
json[AIO_SERVERPORT_Label] = custom_AIO_SERVERPORT;
json[AIO_USERNAME_Label] = custom_AIO_USERNAME;
json[AIO_KEY_Label] = custom_AIO_KEY;
// Open file for writing
File f = FileFS.open(CONFIG_FILE, "w");
if (!f)
{
Serial.println(F("Failed to open Config File for writing"));
return false;
}
#if (ARDUINOJSON_VERSION_MAJOR >= 6)
serializeJsonPretty(json, Serial);
// Write data to file and close it
serializeJson(json, f);
#else
json.prettyPrintTo(Serial);
// Write data to file and close it
json.printTo(f);
#endif
f.close();
Serial.println(F("\nConfig File successfully saved"));
return true;
}
// this function is just to display newly saved data,
// it is not necessary though, because data is displayed
// after WiFi manager resets ESP32
void newConfigData()
{
Serial.println();
Serial.print(F("custom_AIO_SERVER: "));
Serial.println(custom_AIO_SERVER);
Serial.print(F("custom_SERVERPORT: "));
Serial.println(custom_AIO_SERVERPORT);
Serial.print(F("custom_USERNAME_KEY: "));
Serial.println(custom_AIO_USERNAME);
Serial.print(F("custom_KEY: "));
Serial.println(custom_AIO_KEY);
Serial.println();
}
void MQTT_connect()
{
int8_t ret;
MQTT_Pub_Topic = String(custom_AIO_USERNAME) + "/feeds/Temperature";
createNewInstances();
// Return if already connected
if (mqtt->connected())
{
return;
}
Serial.println(F("Connecting to MQTT (3 attempts)..."));
uint8_t attempt = 3;
while ((ret = mqtt->connect()) != 0)
{
// connect will return 0 for connected
Serial.println(mqtt->connectErrorString(ret));
Serial.println(F("Another attemtpt to connect to MQTT in 2 seconds..."));
mqtt->disconnect();
delay(2000); // wait 2 seconds
attempt--;
if (attempt == 0)
{
Serial.println(F("MQTT connection failed. Continuing with program..."));
return;
}
}
Serial.println(F("MQTT connection successful!"));
}
// Setup function
void setup()
{
// Initialize the LED digital pin as an output.
pinMode(LED_BUILTIN, OUTPUT);
// Put your setup code here, to run once
Serial.begin(115200);
while (!Serial);
delay(200);
Serial.print(F("\nStarting Async_ConfigOnDRD_FS_MQTT_Ptr using ")); Serial.print(FS_Name);
Serial.print(F(" on ")); Serial.println(ARDUINO_BOARD);
Serial.println(ESP_ASYNC_WIFIMANAGER_VERSION);
Serial.println(ESP_DOUBLE_RESET_DETECTOR_VERSION);
#if defined(ESP_ASYNC_WIFIMANAGER_VERSION_INT)
if (ESP_ASYNC_WIFIMANAGER_VERSION_INT < ESP_ASYNC_WIFIMANAGER_VERSION_MIN)
{
Serial.print("Warning. Must use this example on Version later than : ");
Serial.println(ESP_ASYNC_WIFIMANAGER_VERSION_MIN_TARGET);
}
#endif
Serial.setDebugOutput(false);
// Mount the filesystem
if (FORMAT_FILESYSTEM)
{
Serial.println(F("Forced Formatting."));
FileFS.format();
}
// Format FileFS if not yet
#ifdef ESP32
if (!FileFS.begin(true))
#else
if (!FileFS.begin())
#endif
{
#ifdef ESP8266
FileFS.format();
#endif
Serial.println(F("SPIFFS/LittleFS failed! Already tried formatting."));
if (!FileFS.begin())
{
// prevents debug info from the library to hide err message.
delay(100);
#if USE_LITTLEFS
Serial.println(F("LittleFS failed!. Please use SPIFFS or EEPROM. Stay forever"));
#else
Serial.println(F("SPIFFS failed!. Please use LittleFS or EEPROM. Stay forever"));
#endif
while (true)
{
delay(1);
}
}
}
// New in v1.4.0
initAPIPConfigStruct(WM_AP_IPconfig);
initSTAIPConfigStruct(WM_STA_IPconfig);
//////
if (!readConfigFile())
{
Serial.println(F("Can't read Config File, using default values"));
}
drd = new DoubleResetDetector(DRD_TIMEOUT, DRD_ADDRESS);
if (!drd)
{
Serial.println(F("Can't instantiate. Disable DRD feature"));
}
else if (drd->detectDoubleReset())
{
// DRD, disable timeout.
//ESPAsync_wifiManager.setConfigPortalTimeout(0);
Serial.println(F("Open Config Portal without Timeout: Double Reset Detected"));
initialConfig = true;
}
if (initialConfig)
{
loadConfigData();
wifi_manager();
}
else
{
// Pretend CP is necessary as we have no AP Credentials
initialConfig = true;
// Load stored data, the addAP ready for MultiWiFi reconnection
if (loadConfigData())
{
#if USE_ESP_WIFIMANAGER_NTP
if ( strlen(WM_config.TZ_Name) > 0 )
{
LOGERROR3(F("Current TZ_Name ="), WM_config.TZ_Name, F(", TZ = "), WM_config.TZ);
#if ESP8266
configTime(WM_config.TZ, "pool.ntp.org");
#else
//configTzTime(WM_config.TZ, "pool.ntp.org" );
configTzTime(WM_config.TZ, "time.nist.gov", "0.pool.ntp.org", "1.pool.ntp.org");
#endif
}
else
{
Serial.println(F("Current Timezone is not set. Enter Config Portal to set."));
}
#endif
for (uint8_t i = 0; i < NUM_WIFI_CREDENTIALS; i++)
{
// Don't permit NULL SSID and password len < MIN_AP_PASSWORD_SIZE (8)
if ( (String(WM_config.WiFi_Creds[i].wifi_ssid) != "") && (strlen(WM_config.WiFi_Creds[i].wifi_pw) >= MIN_AP_PASSWORD_SIZE) )
{
LOGERROR3(F("* Add SSID = "), WM_config.WiFi_Creds[i].wifi_ssid, F(", PW = "), WM_config.WiFi_Creds[i].wifi_pw );
wifiMulti.addAP(WM_config.WiFi_Creds[i].wifi_ssid, WM_config.WiFi_Creds[i].wifi_pw);
initialConfig = false;
}
}
}
if (initialConfig)
{
Serial.println(F("Open Config Portal without Timeout: No stored WiFi Credentials"));
wifi_manager();
}
else if ( WiFi.status() != WL_CONNECTED )
{
Serial.println("ConnectMultiWiFi in setup");
connectMultiWiFi();
}
}
digitalWrite(LED_BUILTIN, LED_OFF); // Turn led off as we are not in configuration mode.
}
// Loop function
void loop()
{
// Call the double reset detector loop method every so often,
// so that it can recognise when the timeout expires.
// You can also call drd.stop() when you wish to no longer
// consider the next reset as a double reset.
if (drd)
drd->loop();
// this is just for checking if we are connected to WiFi
check_status();
}



Debug Terminal Output Samples

1. Async_ConfigOnDRD_FS_MQTT_Ptr_Medium on ESP32_DEV

1.1 No Config Data => Config Portal

This is terminal debug output when running Async_ConfigOnDRD_FS_MQTT_Ptr_Medium on ESP32 ESP32_DEV.. Config Portal was requested by DRD to input and save MQTT Credentials. The boards then connected to Adafruit MQTT Server successfully.

Starting Async_ConfigOnDRD_FS_MQTT_Ptr_Medium using LittleFS on ESP32_DEV
ESPAsync_WiFiManager v1.15.1
ESP_DoubleResetDetector v1.3.2
Config File not found
Can't read Config File, using default values
LittleFS Flag read = 0xd0d01234
doubleResetDetected
Saving config file...
Saving config file OK
Open Config Portal without Timeout: Double Reset Detected

Config Portal requested.
Opening Configuration Portal. No timeout : DRD or No stored Credentials..
[WM] Set CORS Header to :  Your Access-Control-Allow-Origin
1.2. Config Portal Done
Starting Async_ConfigOnDRD_FS_MQTT_Ptr_Medium using LittleFS on ESP32_DEV
ESPAsync_WiFiManager v1.15.1
ESP_DoubleResetDetector v1.3.2
Config File not found
Can't read Config File, using default values
LittleFS Flag read = 0xd0d04321
No doubleResetDetected
Saving config file...
Saving config file OK
[WM] LoadWiFiCfgFile 
[WM] failed
Open Config Portal without Timeout: No stored WiFi Credentials

Config Portal requested.
[WM] RFC925 Hostname = ConfigOnSwichFS-MQTT
Opening Configuration Portal. No timeout : DRD or No stored Credentials..
[WM] Adding parameter AIO_SERVER_Label
[WM] Adding parameter AIO_SERVERPORT_Label
[WM] Adding parameter AIO_USERNAME_Label
[WM] Adding parameter AIO_KEY_Label
[WM] setAPStaticIPConfig
[WM] setSTAStaticIPConfig
[WM] Set CORS Header to :  Your Access-Control-Allow-Origin
[WM] WiFi.waitForConnectResult Done
[WM] SET AP
[WM] 
Configuring AP SSID = ESP_85288
[WM] AP PWD = your_password
[WM] AP Channel = 9
[WM] Custom AP IP/GW/Subnet =  192.168.100.1 192.168.100.1 255.255.255.0
[WM] AP IP address = 192.168.100.1
[WM] HTTP server started
[WM] ESPAsync_WiFiManager::startConfigPortal : Enter loop
[WM] Connecting to new AP
[WM] Previous settings invalidated
[WM] Custom STA IP/GW/Subnet
[WM] DNS1 and DNS2 set
[WM] setWifiStaticIP IP = 192.168.2.235
[WM] Connect to new WiFi using new IP parameters
[WM] Connected after waiting (s) : 0.60
[WM] Local ip = 192.168.2.235
[WM] Connection result:  WL_CONNECTED
Connected...yeey :)
Local IP: 192.168.2.235
[WM] * Add SSID =  HueNet1 , PW =  12345678
[WM] * Add SSID =  HueNet2 , PW =  12345678
[WM] getSTAStaticIPConfig
[WM] stationIP = 192.168.2.235 , gatewayIP = 192.168.2.1
[WM] netMask = 255.255.255.0
[WM] dns1IP = 192.168.2.1 , dns2IP = 8.8.8.8
[WM] SaveWiFiCfgFile 
[WM] OK
Saving Config File
{
  "AIO_SERVER_Label": "io.adafruit.com",
  "AIO_SERVERPORT_Label": "1883",
  "AIO_USERNAME_Label": "user_name",
  "AIO_KEY_Label": "aio_key"
}
Config File successfully saved

Creating new WiFi client object : OK
Creating new MQTT object : OK
AIO_SERVER = io.adafruit.com, AIO_SERVERPORT = 1883
AIO_USERNAME = user_name, AIO_KEY = aio_key
Creating new MQTT_Pub_Topic,  Temperature = user_name/feeds/Temperature
Creating new Temperature object : OK
Temperature MQTT_Pub_Topic = user_name/feeds/Temperature
[WM] freeing allocated params!
Stop doubleResetDetecting
Saving config file...
Saving config file OK
WConnecting to MQTT (3 attempts)...
MQTT connection successful!
TWWWW 

2. Async_ConfigOnDRD_FS_MQTT_Ptr_Complex on ESP8266_NODEMCU_ESP12E

This is terminal debug output when running Async_ConfigOnDRD_FS_MQTT_Ptr_Complex on ESP8266_NODEMCU_ESP12E 1.0.. Config Portal was requested to input and save MQTT Credentials. The boards then connected to Adafruit MQTT Server successfully.

2.1 With Config Data => Run normally
Starting Async_ConfigOnDRD_FS_MQTT_Ptr_Complex using LittleFS on ESP8266_NODEMCU_ESP12E
ESPAsync_WiFiManager v1.15.1
ESP_DoubleResetDetector v1.3.2
{"AIO_SERVER_Label":"io.adafruit.com","AIO_SERVERPORT_Label":"1883","AIO_USERNAME_Label":"user_name","AIO_KEY_Label":"aio_key"}
Config File successfully parsed
LittleFS Flag read = 0xd0d04321
No doubleResetDetected
Saving config file...
Saving config file OK
[WM] LoadWiFiCfgFile 
[WM] OK
[WM] stationIP = 192.168.2.188 , gatewayIP = 192.168.2.1
[WM] netMask = 255.255.255.0
[WM] dns1IP = 192.168.2.1 , dns2IP = 8.8.8.8
[WM] * Add SSID =  HueNet1 , PW =  12345678
[WM] * Add SSID =  HueNet2 , PW =  12345678
ConnectMultiWiFi in setup
[WM] ConnectMultiWiFi with :
[WM] * Additional SSID =  HueNet1 , PW =  12345678
[WM] * Additional SSID =  HueNet2 , PW =  12345678
[WM] Connecting MultiWifi...
[WM] WiFi connected after time:  1
[WM] SSID: HueNet1 ,RSSI= -32
[WM] Channel: 2 ,IP address: 192.168.2.188
W
Creating new WiFi client object : OK
Creating new MQTT object : OK
AIO_SERVER = io.adafruit.com, AIO_SERVERPORT = 1883
AIO_USERNAME = user_name, AIO_KEY = aio_key
Creating new MQTT_Pub_Topic,  Temperature = user_name/feeds/Temperature
Creating new Temperature object : OK
Temperature MQTT_Pub_Topic = user_name/feeds/Temperature
Connecting to MQTT (3 attempts)...
MQTT connection successful!
TWWWW WTWWW
2.2. DRD => Config Portal
Starting Async_ConfigOnDRD_FS_MQTT_Ptr_Complex using LittleFS on ESP8266_NODEMCU_ESP12E
ESPAsync_WiFiManager v1.15.1
ESP_DoubleResetDetector v1.3.2
{"AIO_SERVER_Label":"io.adafruit.com","AIO_SERVERPORT_Label":"1883","AIO_USERNAME_Label":"user_name","AIO_KEY_Label":"aio_key"}
Config File successfully parsed
LittleFS Flag read = 0xd0d01234
doubleResetDetected
Saving config file...
Saving config file OK
Open Config Portal without Timeout: Double Reset Detected

Config Portal requested.
[WM] RFC925 Hostname = ConfigOnSwichFS-MQTT
Opening Configuration Portal. No timeout : DRD or No stored Credentials..
[WM] Adding parameter AIO_KEY_Label
[WM] Adding parameter AIO_SERVER_Label
[WM] Adding parameter AIO_SERVERPORT_Label
[WM] Adding parameter AIO_USERNAME_Label
[WM] setAPStaticIPConfig
[WM] setSTAStaticIPConfig
[WM] Set CORS Header to :  Your Access-Control-Allow-Origin
[WM] WiFi.waitForConnectResult Done
[WM] SET AP
[WM] 
Configuring AP SSID = ESP_702FF3
[WM] AP PWD = your_password
[WM] AP Channel = 1
[WM] Custom AP IP/GW/Subnet =  192.168.100.1 192.168.100.1 255.255.255.0
[WM] AP IP address = 192.168.100.1
[WM] HTTP server started
[WM] ESPAsync_WiFiManager::startConfigPortal : Enter loop
2.3. Config Portal Done
[WM] Custom STA IP/GW/Subnet
[WM] DNS1 and DNS2 set
[WM] setWifiStaticIP IP = 192.168.2.188
[WM] Connected after waiting (s) : 0.00
[WM] Local ip = 192.168.2.188
[WM] Timed out connection result: WL_IDLE_STATUS
Not connected to WiFi but continuing anyway.
[WM] * Add SSID =  HueNet1 , PW =  12345678
[WM] * Add SSID =  HueNet2 , PW =  12345678
[WM] getSTAStaticIPConfig
[WM] stationIP = 192.168.2.188 , gatewayIP = 192.168.2.1
[WM] netMask = 255.255.255.0
[WM] dns1IP = 192.168.2.1 , dns2IP = 8.8.8.8
[WM] SaveWiFiCfgFile 
[WM] OK
Saving Config File
{
  "AIO_KEY_Label": "aio_key",
  "AIO_SERVER_Label": "io.adafruit.com",
  "AIO_SERVERPORT_Label": "1883",
  "AIO_USERNAME_Label": "user_name"
}
Config File successfully saved

Creating new WiFi client object : OK
Creating new MQTT object : OK
AIO_SERVER = io.adafruit.com, AIO_SERVERPORT = 1883
AIO_USERNAME = user_name, AIO_KEY = aio_key
Creating new MQTT_Pub_Topic,  Temperature = user_name/feeds/Temperature
Creating new Temperature object : OK
Temperature MQTT_Pub_Topic = user_name/feeds/Temperature
[WM] freeing allocated params!

WiFi lost. Call connectMultiWiFi in loop
[WM] ConnectMultiWiFi with :
[WM] * Additional SSID =  HueNet1 , PW =  12345678
[WM] * Additional SSID =  HueNet2 , PW =  12345678
[WM] Connecting MultiWifi...
[WM] WiFi connected after time:  1
[WM] SSID: HueNet1 ,RSSI= -34
[WM] Channel: 2 ,IP address: 192.168.2.188
WConnecting to MQTT (3 attempts)...
MQTT connection successful!
TWW

3. Async_ConfigOnDoubleReset on ESP32_DEV

This is terminal debug output when running Async_ConfigOnDoubleReset on ESP32 ESP32_DEV.. Config Portal was requested by DRD to input and save Credentials. The boards then connected to WiFi using new Static IP successfully. WiFi AP HueNet1 is then lost, and board autoreconnects itself to backup WiFi AP HueNet2.

Starting Async_ConfigOnDoubleReset with DoubleResetDetect using SPIFFS on ESP32_DEV
ESPAsync_WiFiManager v1.15.1
ESP_DoubleResetDetector v1.3.2
[WM] RFC925 Hostname = ConfigOnDoubleReset
[WM] setSTAStaticIPConfig for USE_CONFIGURABLE_DNS
[WM] Set CORS Header to :  Your Access-Control-Allow-Origin
Stored: SSID = HueNet1, Pass = 12345678
[WM] * Add SSID =  HueNet1 , PW =  12345678
Got stored Credentials. Timeout 120s for Config Portal
SPIFFS Flag read = 0xd0d01234
doubleResetDetected
Saving config file...
Saving config file OK
Open Config Portal without Timeout: Double Reset Detected
Starting configuration portal.
[WM] WiFi.waitForConnectResult Done
[WM] SET AP
[WM] 
Configuring AP SSID = ESP_E92DE6B4
[WM] AP PWD = your_password
[WM] AP Channel = 3
[WM] AP IP address = 192.168.4.1
[WM] HTTP server started
[WM] ESPAsync_WiFiManager::startConfigPortal : Enter loop
[WM] Connecting to new AP
[WM] Previous settings invalidated
[WM] Custom STA IP/GW/Subnet
[WM] DNS1 and DNS2 set
[WM] setWifiStaticIP IP = 192.168.2.232
[WM] Connect to new WiFi using new IP parameters
[WM] Connected after waiting (s) : 0.60
[WM] Local ip = 192.168.2.232
[WM] Connection result:  WL_CONNECTED
WiFi connected...yeey :)
[WM] * Add SSID =  HueNet1 , PW =  12345678
[WM] * Add SSID =  HueNet2 , PW =  12345678
[WM] SaveWiFiCfgFile 
[WM] OK
After waiting 0.00 secs more in setup(), connection result is connected. Local IP: 192.168.2.232
[WM] freeing allocated params!
HH
WiFi lost. Call connectMultiWiFi in loop
[WM] ConnectMultiWiFi with :
[WM] * Flash-stored Router_SSID =  HueNet1 , Router_Pass =  12345678
[WM] * Additional SSID =  HueNet1 , PW =  12345678
[WM] * Additional SSID =  HueNet2 , PW =  12345678
[WM] Connecting MultiWifi...
[WM] WiFi connected after time:  2
[WM] SSID: HueNet2 ,RSSI= -51
[WM] Channel: 4 ,IP address: 192.168.2.232
HHHHHHHHHH HHHHHHHHHH HHHHHHHHHH HHHHHHHHHH

4. Async_ConfigOnDoubleReset on ESP8266_NODEMCU_ESP12E

This is terminal debug output when running Async_ConfigOnDoubleReset on ESP8266_NODEMCU_ESP12E.. Config Portal was requested by DRD to input and save Credentials. The boards then connected to WiFi using new Static IP successfully. WiFi AP HueNet1 is then lost, and board autoreconnects itself to backup WiFi AP HueNet2.

Starting Async_ConfigOnDoubleReset with DoubleResetDetect using LittleFS on ESP8266_NODEMCU_ESP12E
ESPAsync_WiFiManager v1.15.1
ESP_DoubleResetDetector v1.3.2
[WM] RFC925 Hostname = ConfigOnDoubleReset
[WM] setSTAStaticIPConfig for USE_CONFIGURABLE_DNS
[WM] Set CORS Header to :  Your Access-Control-Allow-Origin
Stored: SSID = HueNet1, Pass = 12345678
[WM] * Add SSID =  HueNet1 , PW =  12345678
Got stored Credentials. Timeout 120s for Config Portal
LittleFS Flag read = 0xd0d01234
doubleResetDetected
Saving config file...
Saving config file OK
Open Config Portal without Timeout: Double Reset Detected
Starting configuration portal.
[WM] WiFi.waitForConnectResult Done
[WM] SET AP_STA
[WM] 
Configuring AP SSID = ESP_119055
[WM] AP PWD = your_password
[WM] AP Channel = 5
[WM] AP IP address = 192.168.4.1
[WM] HTTP server started
[WM] ESPAsync_WiFiManager::startConfigPortal : Enter loop
[WM] Connecting to new AP
[WM] Previous settings invalidated
[WM] Custom STA IP/GW/Subnet
[WM] DNS1 and DNS2 set
[WM] setWifiStaticIP IP = 192.168.2.186
[WM] Connect to new WiFi using new IP parameters
[WM] Connected after waiting (s) : 3.23
[WM] Local ip = 192.168.2.186
[WM] Connection result:  WL_CONNECTED
WiFi connected...yeey :)
[WM] * Add SSID =  HueNet1 , PW =  12345678
[WM] * Add SSID =  HueNet2 , PW =  12345678
[WM] SaveWiFiCfgFile 
[WM] OK
After waiting 0.00 secs more in setup(), connection result is connected. Local IP: 192.168.2.186
[WM] freeing allocated params!
HHH
WiFi lost. Call connectMultiWiFi in loop
[WM] ConnectMultiWiFi with :
[WM] * Flash-stored Router_SSID =  HueNet1 , Router_Pass =  12345678
[WM] * Additional SSID =  HueNet1 , PW =  12345678
[WM] * Additional SSID =  HueNet2 , PW =  12345678
[WM] Connecting MultiWifi...
[WM] WiFi connected after time:  1
[WM] SSID: HueNet2 ,RSSI= -50
[WM] Channel: 4 ,IP address: 192.168.2.186
HHHHHHHHHH HHHHHHHHHH HHH

5. Async_ESP_FSWebServer_DRD on ESP8266_NODEMCU_ESP12E

This is terminal debug output when running Async_ESP_FSWebServer_DRD on ESP8266_NODEMCU_ESP12E.. Config Portal was requested by DRD to input and save Credentials. The boards then connected to WiFi using new Static IP successfully.

Starting Async_ESP_FSWebServer_DRD using LittleFS on ESP8266_NODEMCU_ESP12E
ESPAsync_WiFiManager v1.15.1
ESP_DoubleResetDetector v1.3.2
Opening / directory
FS File: CanadaFlag_1.png, size: 40.25KB
FS File: CanadaFlag_2.png, size: 8.12KB
FS File: CanadaFlag_3.jpg, size: 10.89KB
FS File: ConfigMQTT.json, size: 151B
FS File: ConfigSW.json, size: 53B
FS File: drd.dat, size: 4B
FS File: edit.htm.gz, size: 4.02KB
FS File: favicon.ico, size: 1.12KB
FS File: graphs.js.gz, size: 1.92KB
FS File: index.htm, size: 3.63KB
FS File: wifi_cred.dat, size: 192B

[WM] RFC925 Hostname = AsyncESP-FSWebServer
[WM] setAPStaticIPConfig
[WM] setSTAStaticIPConfig for USE_CONFIGURABLE_DNS
[WM] Set CORS Header to :  Your Access-Control-Allow-Origin
Stored: SSID = HueNet1, Pass = 12345678
[WM] * Add SSID =  HueNet1 , PW =  12345678
Got stored Credentials. Timeout 120s for Config Portal
LittleFS Flag read = 0xd0d01234
doubleResetDetected
Saving config file...
Saving config file OK
Open Config Portal without Timeout: Double Reset Detected
[WM] WiFi.waitForConnectResult Done
[WM] SET AP_STA
[WM] 
Configuring AP SSID = ESP_119055
[WM] AP PWD = your_password
[WM] AP Channel = 11
[WM] Custom AP IP/GW/Subnet =  192.168.100.1 192.168.100.1 255.255.255.0
[WM] AP IP address = 192.168.100.1
[WM] HTTP server started
[WM] ESPAsync_WiFiManager::startConfigPortal : Enter loop
[WM] Custom STA IP/GW/Subnet
[WM] DNS1 and DNS2 set
[WM] setWifiStaticIP IP = 192.168.2.186
[WM] Connected after waiting (s) : 0.19
[WM] Local ip = 192.168.2.186
[WM] Timed out connection result: WL_CONNECTED
WiFi connected...yeey :)
[WM] * Add SSID =  HueNet1 , PW =  12345678
[WM] * Add SSID =  HueNet2 , PW =  12345678
[WM] SaveWiFiCfgFile 
[WM] OK
After waiting 0.00 secs more in setup(), connection result is connected. Local IP: 192.168.2.186
HTTP server started @ 192.168.2.186
===============================================================
Open http://async-esp8266fs.local/edit to see the file browser
Using username = admin and password = admin
===============================================================
[WM] freeing allocated params!
HHHHHH

You can access using the HTTP server IP (http://192.168.2.186) or its mDNS hostname (http://async-esp8266fs.local)

By going to http://192.168.2.186/edit or http://async-esp8266fs.local/edit, you can edit / delete / upload / download any file in the folder


6. Async_ESP32_FSWebServer_DRD on ESP32_DEV

This is terminal debug output when running Async_ESP32_FSWebServer_DRD on ESP32_DEV using newly-supported LittleFS.. Config Portal was requested by DRD (also using LittleFS) to input and save Credentials. The boards then connected to WiFi successfully.

Starting Async_ESP32_FSWebServer_DRD using LittleFS on ESP32_DEV
ESPAsync_WiFiManager v1.15.1
ESP_DoubleResetDetector v1.3.2
FS File: /CanadaFlag_1.png, size: 40.25KB
FS File: /CanadaFlag_2.png, size: 8.12KB
FS File: /CanadaFlag_3.jpg, size: 10.89KB
FS File: /Credentials.txt, size: 192B
FS File: /drd.dat, size: 4B
FS File: /edit.htm.gz, size: 4.02KB
FS File: /favicon.ico, size: 1.12KB
FS File: /graphs.js.gz, size: 1.92KB
FS File: /index.htm, size: 3.63KB
FS File: /wifi_cred.dat, size: 192B

[WM] RFC925 Hostname = AsyncESP32-FSWebServer
[WM] setAPStaticIPConfig
[WM] Set CORS Header to :  Your Access-Control-Allow-Origin
Stored: SSID = HueNet1, Pass = 12345678
[WM] * Add SSID =  HueNet1 , PW =  12345678
Got stored Credentials. Timeout 120s for Config Portal
LittleFS Flag read = 0xd0d04321
No doubleResetDetected
Saving config file...
Saving config file OK
[WM] LoadWiFiCfgFile 
[WM] OK
[WM] * Add SSID =  HueNet1 , PW =  12345678
[WM] * Add SSID =  HueNet2 , PW =  12345678
ConnectMultiWiFi in setup
[WM] ConnectMultiWiFi with :
[WM] * Flash-stored Router_SSID =  HueNet1 , Router_Pass =  12345678
[WM] * Additional SSID =  HueNet1 , PW =  12345678
[WM] * Additional SSID =  HueNet2 , PW =  12345678
[WM] Connecting MultiWifi...
[WM] WiFi connected after time:  1
[WM] SSID: HueNet1 ,RSSI= -39
[WM] Channel: 2 ,IP address: 192.168.2.101
After waiting 3.75 secs more in setup(), connection result is connected. Local IP: 192.168.2.101
HTTP server started @ 192.168.2.101
===============================================================
Open http://async-esp32fs.local/edit to see the file browser
Using username = admin and password = admin
===============================================================
[WM] freeing allocated params!
HStop doubleResetDetecting
Saving config file...
Saving config file OK
HHHHHHHHH HHHHHHHHHH HHHHHHHHHH HHHHHHHHHH HHHHHHHHHH HHHHHHHHHH HHHHHHHHHH HHHHHHHHHH
...
Starting ESP32_FSWebServer_DRD using LittleFS on ESP32_DEV
ESPAsync_WiFiManager Version v1.3.0
ESP_DoubleResetDetector Version v1.1.0
FS File: /CanadaFlag_1.png, size: 40.25KB
FS File: /CanadaFlag_2.png, size: 8.12KB
FS File: /CanadaFlag_3.jpg, size: 10.89KB
FS File: /Credentials.txt, size: 192B
FS File: /drd.dat, size: 4B
FS File: /edit.htm.gz, size: 4.02KB
FS File: /favicon.ico, size: 1.12KB
FS File: /graphs.js.gz, size: 1.92KB
FS File: /index.htm, size: 3.63KB
FS File: /wifi_cred.dat, size: 192B

[WM] RFC925 Hostname = AsyncESP32-FSWebServer
[WM] setAPStaticIPConfig
[WM] Set CORS Header to :  Your Access-Control-Allow-Origin
Stored: SSID = HueNet1, Pass = 12345678
[WM] * Add SSID =  HueNet1 , PW =  87654321
Got stored Credentials. Timeout 120s for Config Portal
LittleFS Flag read = 0xd0d01234
doubleResetDetected
Saving config file...
Saving config file OK
Open Config Portal without Timeout: Double Reset Detected
[WM] WiFi.waitForConnectResult Done
[WM] SET AP
[WM] 
Configuring AP SSID = ESP_85288
[WM] AP PWD = your_password
[WM] AP Channel = 8
[WM] Custom AP IP/GW/Subnet =  192.168.100.1 192.168.100.1 255.255.255.0
[WM] AP IP address = 192.168.100.1
[WM] HTTP server started
[WM] ESPAsync_WiFiManager::startConfigPortal : Enter loop
[WM] Can't use Custom STA IP/GW/Subnet
[WM] Connected after waiting (s) : 1.50
[WM] Local ip = 192.168.2.101
[WM] Timed out connection result: WL_CONNECTED
WiFi connected...yeey :)
[WM] * Add SSID =  HueNet1 , PW =  12345678
[WM] * Add SSID =  HueNet2 , PW =  12345678
[WM] SaveWiFiCfgFile 
[WM] OK
After waiting 0.00 secs more in setup(), connection result is connected. Local IP: 192.168.2.101
HTTP server started @ 192.168.2.101
===============================================================
Open http://async-esp32fs.local/edit to see the file browser
Using username = admin and password = admin
===============================================================
[WM] freeing allocated params!
HH

7. Async_ConfigOnDoubleReset on ESP32S2_DEV

This is terminal debug output when running Async_ConfigOnDoubleReset on ESP32S2_DEV.. Config Portal was requested by DRD to input and save Credentials. The boards then connected to WiFi using new Static IP successfully.

Starting Async_ConfigOnDoubleReset using LittleFS on ESP32S2_DEV
ESPAsync_WiFiManager v1.15.1
ESP_DoubleResetDetector v1.3.2
ESP Self-Stored: SSID = HueNet1, Pass = 12345678
[WM] * Add SSID =  HueNet1 , PW =  12345678
Got ESP Self-Stored Credentials. Timeout 120s for Config Portal
LittleFS Flag read = 0xD0D01234
doubleResetDetected
Saving config file...
Saving config file OK
Open Config Portal without Timeout: Double Reset Detected
Starting configuration portal.
[WM] Connecting to new AP
WiFi connected...yeey :)
[WM] * Add SSID =  HueNet1 , PW =  12345678
[WM] * Add SSID =  HueNet2 , PW =  12345678
[WM] SaveWiFiCfgFile 
[WM] stationIP = 192.168.2.232 , gatewayIP = 192.168.2.1
[WM] netMask = 255.255.255.0
[WM] dns1IP = 192.168.2.1 , dns2IP = 8.8.8.8
[WM] OK
After waiting 0.00 secs more in setup(), connection result is connected. Local IP: 192.168.2.232
HHHHHHHHHH HHHHHHHHHH HHHHHHHHHH HHHHHHHHHH HHHHHHHHHH HHHHHHHHHH HHHHHHHHHH HHHHHHHHHH
HHHHHHHHHH HHHHHHHHHH HHHHHHHHHH HHHHHHHHHH HHHHH

8. Async_ConfigOnDoubleReset_TZ on ESP32_DEV

This is terminal debug output when running Async_ConfigOnDoubleReset_TZ on ESP32_DEV.. Config Portal was requested by DRD to input and save Credentials. The boards then connected to WiFi using new Static IP successfully, with correct local time, TZ set and using NTP

8.1 DRD => Config Portal

Starting Async_ConfigOnDoubleReset_TZ using LittleFS on ESP32_DEV
ESPAsync_WiFiManager v1.15.1
ESP_DoubleResetDetector v1.3.2
ESP Self-Stored: SSID = HueNet1, Pass = password
[WM] * Add SSID =  HueNet1 , PW =  password
Got ESP Self-Stored Credentials. Timeout 120s for Config Portal
[WM] LoadWiFiCfgFile 
[WM] OK
[WM] stationIP = 192.168.2.232 , gatewayIP = 192.168.2.1
[WM] netMask = 255.255.255.0
[WM] dns1IP = 192.168.2.1 , dns2IP = 8.8.8.8
Got stored Credentials. Timeout 120s for Config Portal
[WM] Current TZ_Name = America/New_York , TZ =  EST5EDT,M3.2.0,M11.1.0   <======= TZ set
LittleFS Flag read = 0xD0D01234
doubleResetDetected
Saving config file...
Saving config file OK
Open Config Portal without Timeout: Double Reset Detected
Starting configuration portal @ 192.168.4.1, SSID = ESP_85288, PWD = MyESP_85288

8.2 Data Saved => Connect to WiFi with correct local time, TZ set and using NTP

[WM] Connecting to new AP
WiFi connected...yeey :)
[WM] * Add SSID =  HueNet1 , PW =  password
[WM] * Add SSID =  HueNet2 , PW =  password
[WM] Saving current TZ_Name = America/New_York , TZ =  EST5EDT,M3.2.0,M11.1.0   <======= TZ set
[WM] SaveWiFiCfgFile 
[WM] stationIP = 192.168.2.232 , gatewayIP = 192.168.2.1
[WM] netMask = 255.255.255.0
[WM] dns1IP = 192.168.2.1 , dns2IP = 8.8.8.8
[WM] OK
After waiting 0.00 secs more in setup(), connection result is connected. Local IP: 192.168.2.232
Local Date/Time: Fri Oct  7 16:16:03 2022
Local Date/Time: Fri Oct  7 16:17:03 2022
Local Date/Time: Fri Oct  7 16:18:03 2022
Local Date/Time: Fri Oct  7 16:19:03 2022

8.3 Normal running with correct local time, TZ set and using NTP

Starting Async_ConfigOnDoubleReset_TZ using LittleFS on ESP32_DEV
ESPAsync_WiFiManager v1.15.1
ESP_DoubleResetDetector v1.3.2
ESP Self-Stored: SSID = HueNet1, Pass = password
[WM] * Add SSID =  HueNet1 , PW =  password
Got ESP Self-Stored Credentials. Timeout 120s for Config Portal
[WM] LoadWiFiCfgFile 
[WM] OK
[WM] stationIP = 192.168.2.232 , gatewayIP = 192.168.2.1
[WM] netMask = 255.255.255.0
[WM] dns1IP = 192.168.2.1 , dns2IP = 8.8.8.8
Got stored Credentials. Timeout 120s for Config Portal
[WM] Current TZ_Name = America/New_York , TZ =  EST5EDT,M3.2.0,M11.1.0   <======= TZ set
LittleFS Flag read = 0xD0D04321
No doubleResetDetected
Saving config file...
Saving config file OK
[WM] * Add SSID =  HueNet1 , PW =  password
[WM] * Add SSID =  HueNet2 , PW =  password
ConnectMultiWiFi in setup
[WM] ConnectMultiWiFi with :
[WM] * Flash-stored Router_SSID =  HueNet1 , Router_Pass =  password
[WM] * Add SSID =  HueNet1 , PW =  password
[WM] * Additional SSID =  HueNet1 , PW =  password
[WM] * Additional SSID =  HueNet2 , PW =  password
[WM] Connecting MultiWifi...
[WM] WiFi connected after time:  1
[WM] SSID: HueNet1 ,RSSI= -40
[WM] Channel: 2 ,IP address: 192.168.2.232
After waiting 10.95 secs more in setup(), connection result is connected. Local IP: 192.168.2.232
Stop doubleResetDetecting
Saving config file...
Saving config file OK
Local Date/Time: Fri Oct  7 16:20:03 2022
Local Date/Time: Fri Oct  7 16:21:03 2022
Local Date/Time: Fri Oct  7 16:22:03 2022

9. Async_ESP_FSWebServer_DRD on ESP8266_NODEMCU_ESP12E

This is terminal debug output when running Async_ESP_FSWebServer_DRD on ESP8266_NODEMCU_ESP12E.. Config Portal was requested by DRD to input and save Credentials. The boards then connected to WiFi using new Static IP successfully, with correct local time, TZ set and using NTP

9.1 DRD => Config Portal

Starting Async_ESP_FSWebServer_DRD using LittleFS on ESP8266_NODEMCU_ESP12E
ESPAsync_WiFiManager v1.15.1
ESP_DoubleResetDetector v1.3.2
Opening / directory
FS File: drd.dat, size: 4B
FS File: wifi_cred.dat, size: 334B

[WM] RFC925 Hostname = AsyncESP-FSWebServer
[WM] setSTAStaticIPConfig
[WM] Set CORS Header to :  Your Access-Control-Allow-Origin
ESP Self-Stored: SSID = HueNet1, Pass = password
[WM] * Add SSID =  HueNet1 , PW =  password
Got ESP Self-Stored Credentials. Timeout 120s for Config Portal
[WM] LoadWiFiCfgFile 
[WM] OK
[WM] stationIP = 192.168.2.188 , gatewayIP = 192.168.2.1
[WM] netMask = 255.255.255.0
[WM] dns1IP = 192.168.2.1 , dns2IP = 8.8.8.8
Got stored Credentials. Timeout 120s for Config Portal
[WM] Current TZ_Name = America/Toronto , TZ =  EST5EDT,M3.2.0,M11.1.0   <======= TZ set
LittleFS Flag read = 0xD0D01234
doubleResetDetected
Saving config file...
Saving config file OK
Open Config Portal without Timeout: Double Reset Detected
Starting configuration portal @ 192.168.4.1, SSID = ESP_AB1481, PWD = MyESP_AB1481
[WM] 
Configuring AP SSID = ESP_AB1481
[WM] AP PWD = MyESP_AB1481
[WM] AP Channel = 5
[WM] AP IP address = 192.168.4.1
[WM] HTTP server started
[WM] startConfigPortal : Enter loop

9.2 Data Saved => Connect to WiFi with correct local time, TZ set and using NTP

[WM] Connecting to new AP
[WM] Previous settings invalidated
[WM] Custom STA IP/GW/Subnet
[WM] DNS1 and DNS2 set
[WM] setWifiStaticIP IP = 192.168.2.186
[WM] Connect to new WiFi using new IP parameters
[WM] Connected after waiting (s) : 3.18
[WM] Local ip = 192.168.2.186
[WM] Connection result:  WL_CONNECTED
WiFi connected...yeey :)
[WM] * Add SSID =  HueNet1 , PW =  password
[WM] * Add SSID =  HueNet2 , PW =  password
[WM] Saving current TZ_Name = America/Toronto , TZ =  EST5EDT,M3.2.0,M11.1.0   <======= TZ set
[WM] getSTAStaticIPConfig
[WM] SaveWiFiCfgFile 
[WM] stationIP = 192.168.2.186 , gatewayIP = 192.168.2.1
[WM] netMask = 255.255.255.0
[WM] dns1IP = 192.168.2.1 , dns2IP = 8.8.8.8
[WM] OK
After waiting 0.00 secs more in setup(), connection result is connected. Local IP: 192.168.2.186
HTTP server started @ 192.168.2.186
===============================================================
Open http://192.168.2.186/edit to see the file browser
Using username = admin and password = admin
===============================================================
[WM] freeing allocated params!
Local Date/Time: Fri Oct  7 16:16:03 2022
Local Date/Time: Fri Oct  7 16:17:03 2022
Local Date/Time: Fri Oct  7 16:18:03 2022

9.3 Normal running with correct local time, TZ set and using NTP

Starting Async_ESP_FSWebServer_DRD using LittleFS on ESP8266_NODEMCU_ESP12E
ESPAsync_WiFiManager v1.15.1
ESP_DoubleResetDetector v1.3.2
Opening / directory
FS File: drd.dat, size: 4B
FS File: wifi_cred.dat, size: 334B

[WM] RFC925 Hostname = AsyncESP-FSWebServer
[WM] setSTAStaticIPConfig
[WM] Set CORS Header to :  Your Access-Control-Allow-Origin
ESP Self-Stored: SSID = HueNet1, Pass = password
[WM] * Add SSID =  HueNet1 , PW =  password
Got ESP Self-Stored Credentials. Timeout 120s for Config Portal
[WM] LoadWiFiCfgFile 
[WM] OK
[WM] stationIP = 192.168.2.186 , gatewayIP = 192.168.2.1
[WM] netMask = 255.255.255.0
[WM] dns1IP = 192.168.2.1 , dns2IP = 8.8.8.8
Got stored Credentials. Timeout 120s for Config Portal
[WM] Current TZ_Name = America/Toronto , TZ =  EST5EDT,M3.2.0,M11.1.0   <======= TZ set
LittleFS Flag read = 0xD0D04321
No doubleResetDetected
Saving config file...
Saving config file OK
[WM] * Add SSID =  HueNet1 , PW =  password
[WM] * Add SSID =  HueNet2 , PW =  password
ConnectMultiWiFi in setup
[WM] ConnectMultiWiFi with :
[WM] * Flash-stored Router_SSID =  HueNet1 , Router_Pass =  password
[WM] * Add SSID =  HueNet1 , PW =  password
[WM] * Additional SSID =  HueNet1 , PW =  password
[WM] * Additional SSID =  HueNet2 , PW =  password
[WM] Connecting MultiWifi...
[WM] WiFi connected after time:  1
[WM] SSID: HueNet1 ,RSSI= -36
[WM] Channel: 2 ,IP address: 192.168.2.186
After waiting 3.48 secs more in setup(), connection result is connected. Local IP: 192.168.2.186
HTTP server started @ 192.168.2.186
===============================================================
Open http://192.168.2.186/edit to see the file browser
Using username = admin and password = admin
===============================================================
[WM] freeing allocated params!
Stop doubleResetDetecting
Saving config file...
Saving config file OK
Local Date/Time: Fri Oct  7 16:19:03 2022
Local Date/Time: Fri Oct  7 16:20:03 2022
Local Date/Time: Fri Oct  7 16:21:03 2022
Local Date/Time: Fri Oct  7 16:22:03 2022

10. Async_ConfigOnDoubleReset_TZ on ESP32C3_DEV using SPIFFS

This is terminal debug output when running Async_ConfigOnDoubleReset_TZ on ESP32C3_DEV using SPIFFS and ESP32 core v2.0.0.

Starting Async_ConfigOnDoubleReset_TZ using SPIFFS on ESP32C3_DEV
ESPAsync_WiFiManager v1.15.1
ESP_DoubleResetDetector v1.3.2
ESP Self-Stored: SSID = HueNet1, Pass = 12345678
[WM] * Add SSID =  HueNet1 , PW =  12345678
Got ESP Self-Stored Credentials. Timeout 120s for Config Portal
[WM] LoadWiFiCfgFile 
[WM] OK
[WM] stationIP = 0.0.0.0 , gatewayIP = 192.168.2.1
[WM] netMask = 255.255.255.0
[WM] dns1IP = 192.168.2.1 , dns2IP = 8.8.8.8
Got stored Credentials. Timeout 120s for Config Portal
[WM] Current TZ_Name = America/New_York , TZ =  EST5EDT,M3.2.0,M11.1.0
SPIFFS Flag read = 0xD0D04321
No doubleResetDetected
Saving config file...
Saving config file OK
[WM] * Add SSID =  HueNet1 , PW =  12345678
[WM] * Add SSID =  HueNet , PW =  12345678
ConnectMultiWiFi in setup
[WM] ConnectMultiWiFi with :
[WM] * Flash-stored Router_SSID =  HueNet1 , Router_Pass =  12345678
[WM] * Add SSID =  HueNet1 , PW =  12345678
[WM] * Additional SSID =  HueNet1 , PW =  12345678
[WM] * Additional SSID =  HueNet , PW =  12345678
[WM] Connecting MultiWifi...
[WM] WiFi connected after time:  3
[WM] SSID: HueNet ,RSSI= -27
[WM] Channel: 10 ,IP address: 192.168.2.99
After waiting 11.85 secs more in setup(), connection result is connected. Local IP: 192.168.2.99
Stop doubleResetDetecting
Saving config file...
Saving config file OK
Local Date/Time: Fri Oct  7 16:19:03 2022
Local Date/Time: Fri Oct  7 16:20:03 2022
Local Date/Time: Fri Oct  7 16:21:03 2022
Local Date/Time: Fri Oct  7 16:22:03 2022

11. Async_ConfigOnDoubleReset on ESP32S3_DEV using LittleFS

This is terminal debug output when running Async_ConfigOnDoubleReset on ESP32S3_DEV using LittleFS and ESP32 core v2.0.2.

Starting Async_ConfigOnDoubleReset using LittleFS on ESP32S3_DEV
ESPAsync_WiFiManager v1.15.1
ESP_DoubleResetDetector v1.3.2
ESP Self-Stored: SSID = HueNet1, Pass = password
[WM] * Add SSID =  HueNet1 , PW =  password
Got ESP Self-Stored Credentials. Timeout 120s for Config Portal
[WM] LoadWiFiCfgFile 
[WM] OK
[WM] stationIP = 0.0.0.0 , gatewayIP = 192.168.2.1
[WM] netMask = 255.255.255.0
[WM] dns1IP = 192.168.2.1 , dns2IP = 8.8.8.8
Got stored Credentials. Timeout 120s for Config Portal
LittleFS Flag read = 0xD0D04321
No doubleResetDetected
Saving config file...
Saving config file OK
[WM] * Add SSID =  HueNet1 , PW =  password
[WM] * Add SSID =  HueNet , PW =  password
ConnectMultiWiFi in setup
[WM] ConnectMultiWiFi with :
[WM] * Flash-stored Router_SSID =  HueNet1 , Router_Pass =  password
[WM] * Add SSID =  HueNet1 , PW =  password
[WM] * Additional SSID =  HueNet1 , PW =  password
[WM] * Additional SSID =  HueNet , PW =  password
[WM] Connecting MultiWifi...
[WM] WiFi connected after time:  1
[WM] SSID: HueNet1 ,RSSI= -22
[WM] Channel: 2 ,IP address: 192.168.2.83
After waiting 7.70 secs more in setup(), connection result is connected. Local IP: 192.168.2.83
HStop doubleResetDetecting
Saving config file...
Saving config file OK
HHHHHHHHH HHHHHHHHHH HHHHHHHHHH HHHHHHHHHH HHHHHHHHHH HHHHHHHHHH HHHHHHHHHH HHHHHHHHHH
HHHHHHHHHH HHHHHHHHHH HHH

12. Async_ConfigOnDoubleReset on ESP32C3_DEV using LittleFS

This is terminal debug output when running Async_ConfigOnDoubleReset on ESP32C3_DEV using LittleFS and ESP32 core v2.0.2.

Starting Async_ConfigOnDoubleReset using LittleFS on ESP32C3_DEV
ESPAsync_WiFiManager v1.15.1
ESP_DoubleResetDetector v1.3.2
ESP Self-Stored: SSID = HueNet1, Pass = password
[WM] * Add SSID =  HueNet1 , PW =  password
Got ESP Self-Stored Credentials. Timeout 120s for Config Portal
[WM] LoadWiFiCfgFile 
[WM] OK
[WM] stationIP = 0.0.0.0 , gatewayIP = 192.168.2.1
[WM] netMask = 255.255.255.0
[WM] dns1IP = 192.168.2.1 , dns2IP = 8.8.8.8
Got stored Credentials. Timeout 120s for Config Portal
LittleFS Flag read = 0xD0D04321
No doubleResetDetected
Saving config file...
Saving config file OK
[WM] * Add SSID =  HueNet1 , PW =  password
[WM] * Add SSID =  HueNet2 , PW =  password
ConnectMultiWiFi in setup
[WM] ConnectMultiWiFi with :
[WM] * Flash-stored Router_SSID =  HueNet1 , Router_Pass =  password
[WM] * Add SSID =  HueNet1 , PW =  password
[WM] * Additional SSID =  HueNet1 , PW =  password
[WM] * Additional SSID =  HueNet2 , PW =  password
[WM] Connecting MultiWifi...
[WM] WiFi connected after time:  1
[WM] SSID: HueNet1 ,RSSI= -19
[WM] Channel: 2 ,IP address: 192.168.2.85
After waiting 8.41 secs more in setup(), connection result is connected. Local IP: 192.168.2.85
HStop doubleResetDetecting
Saving config file...
Saving config file OK
HHH


Debug

Debug is enabled by default on Serial. To disable, add before startConfigPortal()

ESPAsync_wifiManager.setDebugOutput(false);

You can also change the debugging level from 0 to 4

// Use from 0 to 4. Higher number, more debugging messages and memory usage.
#define _ESPASYNC_WIFIMGR_LOGLEVEL_    3

Troubleshooting

If you get compilation errors, more often than not, you may need to install a newer version of the ESP32 / ESP8266 core for Arduino.

Sometimes, the library will only work if you update the ESP32 / ESP8266 core to the latest version because I am using some newly added function.

If you connect to the created configuration Access Point but the ConfigPortal does not show up, just open a browser and type in the IP of the web portal, by default 192.168.4.1.


Issues

Submit issues to: ESPAsync_WiFiManager issues



Contributions and Thanks

  1. Based on and modified from Tzapu, KenTaylor's version, Alan Steremberg's ESPAsyncWiFiManager and Khoi Hoang's ESP_WiFiManager.
  2. Thanks to Hristo Gochkov for great ESPAsyncWebServer Library
  3. Thanks to good work of Miguel Alexandre Wisintainer for working with, developing, debugging and testing.
  4. Thanks to cancodr for requesting an enhancement in Issue #29: Is it possible to use AsyncWebServer.h instead of WebServer.h?, leading to this ESPAsync_WiFiManager Library.
  5. Thanks to Marcel Stör for reporting /close does not close the config portal bug which is fixed in v1.2.0.
  6. Thanks to Vague Rabbit for requesting, collarborating in creating the HOWTO Add Dynamic Parameters.
  7. Thanks to krupis for reporting ESP32 static IP not saved after restarting the device bug which is fixed in v1.4.0.
  8. Thanks to Roshan to report the issue in Error esp_littlefs.c 'utime_p' to fix PIO error in using ESP32 LittleFS with old LittleFS_esp32 v1.0
  9. Thanks to Manuel Capilla for reporting ESP8266 Clear SSID and Pass bug which is fixed and leading to v1.4.2.
  10. Thanks to David Gunzinger for creating merged PR It should be possible to start the ConfigPortal without connecting to WiFI #38.
  11. Thanks to Russell Jahn for reporting ESPAsync_WiFiManager::startConfigPortal() will cause a watchdog timeout when called from a higher-priority task. #39 leading to v1.5.0 and v1.6.0
  12. Thanks to robcazzaro for reporting Minor: examples/Async_ESP32_FSWebServer/ wrongly uses FileFS.begin(true) #47 leading to v1.6.2
  13. Thanks to mattbradford83 for identify, impressively locate, fix the bug and issue PR Allow captive portal to run more than once by closing dnsServer cleanly. #49 leading to v1.6.3
  14. Thanks to yiancar to report the issue and propose a fix in In AP, DNS server always redirects to 192.168.4.1 no matter what APStaticIP is set to. #58 leading to v1.7.1
  15. Thanks to Stephen Lavelle and Ben Peart for requesting enhancement in _timezoneName never getting set? #51 and How to retrieve timezone? #51 leading to new v1.8.0
  16. Thanks to eth0up to make the PR Add support for Wifi hidden SSID scanning. #66 leading to v1.7.4
  17. Thanks to Francisco Trillo for reporting Not working with ESP32 and Core 2.0.1 (or 2.0.0+) #74 leading to v1.9.5
  18. Thanks to Dean Ott for reporting WiFiManager works only on port 80 #75 and providing the solution leading to v1.9.7
  19. Thanks to Twaste for initiate the discussion in Different behaviour using the src_cpp or src_h lib #80 and providing the idea to the solution, to fix multiple-definitions linker error, leading to v1.10.0
  20. Thanks to Zongyi Yang for creating merged PR Fixes Captive Portal hanging depending on active core for AsyncTCP #100 #104.
  21. Thanks to MattiaCC93 for open discussion Help for storing variables in memory (non-volatile) #87 and report the ESP32 chipID bug, leading to v1.14.0
  22. Thanks to slaesh for creating merged PRs
me-no-dev
⭐️⭐️ Hristo Gochkov

Tzapu
⭐️ Tzapu

kentaylor
⭐️ Ken Taylor

alanswx
⭐️ Alan Steremberg

tcpipchip
Miguel Wisintainer

cancodr
cancodr

marcelstoer
Marcel Stör

thewhiterabbit
Vague Rabbit

krupis
krupis

solroshan
Roshan

molillo
Manuel Capilla

pfy
David Gunzinger

russelljahn
Russell Jahn

robcazzaro
robcazzaro

mattbradford83
Matt Bradford

yiancar
yiancar

increpare
Stephen Lavelle

benpeart
Ben Peart

eth0up
eth0up

Frtrillo
Francisco Trillo

deanjott
Dean Ott

Twaste
Twaste

ZongyiYang
Zongyi Yang

MattiaCC93
MattiaCC93

slaesh
slaesh


Contributing

If you want to contribute to this project:

  • Report bugs and errors
  • Ask for enhancements
  • Create issues and pull requests
  • Tell other people about this library

License and credits

  • The library is licensed under MIT

Copyright

Copyright (c) 2020- Khoi Hoang

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3

EthernetWebServer

This is simple yet complete WebServer library for AVR, AVR Dx, Portenta_H7, Teensy, SAM DUE, SAMD21/SAMD51, nRF52, STM32, RP2040-based, etc. boards running Ethernet shields. The functions are similar and compatible to ESP8266/ESP32 WebServer libraries to make life much easier to port sketches from ESP8266/ESP32. Coexisting now with `ESP32 WebServer` and `ESP8266 ESP8266WebServer` libraries. Ethernet_Generic library is used as default for W5x00 with custom SPI
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154
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4

WiFiWebServer

This is simple yet complete WebServer library for AVR, Portenta_H7, Teensy, SAM DUE, SAMD, STM32, RP2040-based, etc. boards running WiFi modules/shields (WiFiNINA, CYW43439, U-Blox W101, W102, etc.). The functions are similar and compatible to ESP8266/ESP32 WebServer libraries to make life much easier to port sketches from ESP8266/ESP32. Now using WiFiMulti_Generic library
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91
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5

ESP8266TimerInterrupt

This library enables you to use Interrupt from Hardware Timers on an ESP8266-based board. It now supports 16 ISR-based timers, while consuming only 1 hardware Timer. Timers' interval is very long (ulong millisecs). The most important feature is they're ISR-based timers. Therefore, their executions are not blocked by bad-behaving functions or tasks. This important feature is absolutely necessary for mission-critical tasks.
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86
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6

AsyncHTTPRequest_Generic

Simple Async HTTP Request library, supporting GET, POST, PUT, PATCH, DELETE and HEAD, on top of AsyncTCP libraries, such as AsyncTCP, ESPAsyncTCP, AsyncTCP_STM32, etc.. for ESP32 (including ESP32_S2, ESP32_S3 and ESP32_C3), WT32_ETH01 (ESP32 + LAN8720), ESP8266 (WiFi or W5x00) and currently STM32 with built-in LAN8742A Ethernet.
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81
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7

TimerInterrupt

This library enables you to use Interrupt from Hardware Timers on an Arduino, such as Nano, UNO, Mega, etc. It now supports 16 ISR-based timers, while consuming only 1 hardware Timer. Timers' interval is very long (ulong millisecs). The most important feature is they're ISR-based timers. Therefore, their executions are not blocked by bad-behaving functions or tasks. This important feature is absolutely necessary for mission-critical tasks.
C
81
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8

WebSockets_Generic

WebSocket / Socket.IO Server and Client for Arduino based on RFC6455. Now supporting Adafruit nRF52, Portenta_H7, STM32F/L/H/G/WB/MP1, Teensy, SAM DUE, SAMD21, SAMD51, Arduino SAMD21 (Nano 33 IoT), MKR1000 / MKR1010WiFi, RP2040-based boards using WiFi101, WiFiNINA, WiFi, Ethernet, WT32_ETH01, Teensy 4.1 NativeEthernet/QNEthernet or Portenta_H7 WiFi/Ethernet, etc. so that those boards can be voice-controlled by Alexa. Now supporting websocket only mode for Socket.IO. Ethernet_Generic library is used as default for W5x00
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73
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9

EthernetWebServer_STM32

This is simple yet complete WebServer library for STM32 boards running built-in Ethernet LAN8742A (Nucleo-144, Discovery), ENC28J60 or W5x00 Ethernet shields. The functions are similar and compatible to ESP8266/ESP32 WebServer libraries to make life much easier to port sketches from ESP8266/ESP32. Ethernet_Generic library is used as default for W5x00. Now W5x00 can use any custom hardware / software SPI
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72
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10

WebSockets2_Generic

A WebSocket Server and Client library for Arduino, based on RFC6455, for writing modern Websockets applications. Now support ESP8266, ESP32 (including ESP32-S2 Saola, AI-Thinker ESP-12K, WT32_ETH01, etc.), nRF52, SAMD21, SAMD51, SAM DUE, STM32F/L/H/G/WB/MP1, Teensy, RP2040-based, etc. boards, with WiFiNINA, Teensy 4.1 NativeEthernet/QNEthernet, Ethernet W5x00 / ENC28J60 / LAN8742A / LAN8720, ESP8266 / ESP32-AT modules/shields, as well as SINRIC / Alexa / Google Home
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72
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11

ESPAsync_WiFiManager_Lite

Library using AsyncWebServer to configure MultiWiFi/Credentials at runtime for ESP32 (including ESP32-S2 and ESP32-C3) and ESP8266 boards. You can also specify DHCP HostName, static AP and STA IP. Use much less memory compared to full-fledge WiFiManager. Config Portal will be auto-adjusted to match the number of dynamic custom parameters. Optional default Credentials to be autoloaded into Config Portal to use or change instead of manually input. Credentials are saved in LittleFS, SPIFFS or EEPROM. New powerful-yet-simple-to-use feature to enable adding dynamic custom parameters from sketch and input using the same Config Portal. Double or MultiDetectDetector as well as Virtual Switches feature permits entering Config Portal as requested.
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51
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12

WebServer_WT32_ETH01

Simple Ethernet WebServer, HTTP/HTTPS Client wrapper library for WT32_ETH01 boards using LAN8720 Ethernet. The WebServer supports HTTP(S) GET and POST requests, provides argument parsing, handles one client at a time. It provides HTTP(S), MQTT(S) Client and supports WebServer serving from LittleFS/SPIFFS. Now supporting ESP32 core v2.0.0+
C
48
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13

ESP_DoubleResetDetector

ESP_DoubleResetDetector is a library for the ESP32/ESP8266 Arduino platform to enable trigger configure mode by resetting twice.
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46
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14

AsyncMQTT_Generic

Arduino Arduino Library for ESP8266, ESP32, Portenta_H7, STM32 and RP2040W asynchronous MQTT client implementation. This library, ported to support ESP32, WT32_ETH01 (ESP32 + LAN8720), ESP8266, Portenta_H7 (Ethernet or WiFi) and STM32 (LAN8742A or LAN8720 Ethernet), Teensy 4.1 using QNEthernet, RASPBERRY_PI_PICO_W with CYW43439 WiFi. Currently supporting TLS/SSL for ESP32 only
C
46
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15

Blynk_WM

Blynk and WiFiManager Library for configuring/auto(re)connecting ESP8266/ESP32 modules to the best or available MultiWiFi APs and MultiBlynk servers at runtime, with or without SSL. Configuration data saved in either SPIFFS or EEPROM.
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46
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16

MySQL_MariaDB_Generic

This MySQL_MariaDB_Generic library helps you connect your boards directly to a MySQL / MariaDB server, either local or cloud-based, so that you can store / retrieve data to / from the server. Supported boards are ESP8266/ESP32, WT32_ETH01 (ESP32 + LAN8720A), nRF52, SAMD21/SAMD51, STM32F/L/H/G/WB/MP1, Teensy, SAM DUE, Mega, RP2040-based boards, Portenta_H7, etc. with Teensy 4.1 NativeEthernet/QNEthernet, W5x00 or ENC28J60 Ethernet, WiFiNINA modules/shields or Portenta_H7 WiFi/Ethernet. Ethernet_Generic library is used as default for W5x00
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45
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17

ESP8266_AT_WebServer

This is simple yet complete WebServer library for AVR, Teensy, SAM DUE, SAMD, STM32, nRF52, etc. boards running ESP8266 AT-command shields. The functions are similar and compatible to ESP8266/ESP32 WebServer libraries to make life much easier to port sketches from ESP8266/ESP32. Now with fix of severe limitation to permit sending much larger data
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44
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18

EthernetWebServer_SSL

Simple TLS/SSL Ethernet WebServer, HTTP Client and WebSocket Client library for for AVR, Portenta_H7, Teensy, SAM DUE, SAMD21, SAMD51, STM32F/L/H/G/WB/MP1, nRF52 and RASPBERRY_PI_PICO boards using Ethernet shields W5100, W5200, W5500, ENC28J60 or Teensy 4.1 NativeEthernet/QNEthernet. It now supports Ethernet TLS/SSL Client. The library supports HTTP/HTTPS GET and POST requests, provides argument parsing, handles one client at a time. It supports Arduino boards (SAM DUE, Atmel SAM3X8E ARM Cortex-M3, SAMD21, SAMD51, ESP8266, ESP32, Adafruit nRF52, Teensy boards) using Wiznet W5x00 or ENC28J60 network shields. Ethernet_Generic library is used as default for W5x00 with custom SPI
C
40
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19

ESP_WiFiManager_Lite

Light-Weight MultiWiFi/Credentials Manager for ESP32 (including ESP32-S2 and ESP32-C3) and ESP8266 boards boards. Powerful-yet-simple-to-use feature to enable adding dynamic custom parameters. paragraph=Library to configure MultiWiFi/Credentials at runtime for ESP32/ESP8266 boards. You can also specify DHCP HostName, static AP and STA IP. Use much less memory compared to full-fledge WiFiManager. Config Portal will be auto-adjusted to match the number of dynamic custom parameters. Optional default Credentials to be autoloaded into Config Portal to use or change instead of manually input. Credentials are saved in LittleFS, SPIFFS or EEPROM. New powerful-yet-simple-to-use feature to enable adding dynamic custom parameters from sketch and input using the same Config Portal. Double or MultiDetectDetector as well as Virtual Switches feature permits entering Config Portal as requested.
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40
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20

RP2040_PWM

This library enables you to use Hardware-based PWM channels on RP2040-based boards, such as Nano_RP2040_Connect, RASPBERRY_PI_PICO, with either Arduino-mbed (mbed_nano or mbed_rp2040) or arduino-pico core to create and output PWM any GPIO pin. The most important feature is they're purely hardware-based PWM channels, supporting very high PWM frequencies. Therefore, their executions are not blocked by bad-behaving functions or tasks. This important feature is absolutely necessary for mission-critical tasks. These hardware-based PWMs, still work even if other software functions are blocking. Moreover, they are much more precise (certainly depending on clock frequency accuracy) than other software-based PWM using ISR, millis() or micros(). That's necessary if you need to control devices requiring high precision. New efficient setPWM_manual function to facilitate waveform creation using PWM
C++
39
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21

WiFiManager_NINA_Lite

Light-Weight WiFi/Credentials Manager for AVR Mega, Teensy, SAM DUE, SAMD, STM32, etc. boards running U-Blox WiFiNINA modules/shields. Powerful-yet-simple-to-use feature to enable adding dynamic custom parameters. Now using WiFiMulti_Generic library
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33
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22

WiFiNINA_Generic

Enables WiFiNINA network connection (local and Internet) for SAM DUE, SAMD21, SAMD51, Teensy, AVR Mega, STM32, RP2040-based boards, etc. in addition to Arduino MKR WiFi 1010, Arduino MKR VIDOR 4000, Arduino UNO WiFi Rev.2 , Nano 33 IoT, Nano_RP2040_Connect. Now with fix of severe limitation to permit sending much larger data than total 4K
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33
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23

Ethernet_Generic

Simple Ethernet library for AVR, AVR Dx, Portenta_H7, Teensy, SAM DUE, SAMD21, SAMD51, STM32F/L/H/G/WB/MP1, nRF52 and RASPBERRY_PI_PICO boards using Ethernet shields W5100, W5200, W5500, W5100S, W6100. With this library you can use the Arduino Ethernet (shield or board) to connect to Internet to provides both Client and server functionalities.
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32
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24

TimerInterrupt_Generic

This library enables you to use Interrupt from Hardware Timers on supported Arduino boards such as AVR, ESP8266, ESP32, SAMD, SAM DUE, nRF52, Teensy, etc. These Hardware Timers, using Interrupt, still work even if other functions are blocking. Moreover, they are much more precise (certainly depending on clock frequency accuracy) than other software timers using millis() or micros(). That's mandatory if you need to measure some data requiring better accuracy. It now supports 16 ISR-based Timers, while consuming only 1 Hardware Timer. Timers' interval is very long (ulong millisecs). The most important feature is they're ISR-based Timers. Therefore, their executions are not blocked by bad-behaving functions or tasks. This important feature is absolutely necessary for mission-critical tasks.
C++
32
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25

MDNS_Generic

mDNS Library for nRF52, SAMD21, SAMD51, SAM DUE, STM32F/L/H/G/WB/MP1, AVR Mega, RP2040-based boards, etc. using Ethernet W5x00. Supports mDNS (Registering Services) and DNS-SD (Service Discovery). Ethernet_Generic library is used as default for W5x00
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29
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26

SAMD_TimerInterrupt

This library enables you to use Interrupt from Hardware Timers on an SAMD-based board. These SAMD Hardware Timers, using Interrupt, still work even if other functions are blocking. Moreover, they are much more precise (certainly depending on clock frequency accuracy) than other software timers using millis() or micros(). That's mandatory if you need to measure some data requiring better accuracy. It now supports 16 ISR-based Timers, while consuming only 1 Hardware Timer. Timers' interval is very long (ulong millisecs). The most important feature is they're ISR-based Timers. Therefore, their executions are not blocked by bad-behaving functions or tasks. This important feature is absolutely necessary for mission-critical tasks. SAMD21 now can use 6 Timers
C++
29
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27

STM32_TimerInterrupt

This library enables you to use Interrupt from Hardware Timers on an STM32F/L/H/G/WB/MP1-based board. These STM32F/L/H/G/WB/MP1 Hardware Timers, using Interrupt, still work even if other functions are blocking. Moreover, they are much more precise (certainly depending on clock frequency accuracy) than other software timers using millis() or micros(). That's mandatory if you need to measure some data requiring better accuracy. It now supports 16 ISR-based Timers, while consuming only 1 Hardware Timer. Timers' interval is very long (ulong millisecs). The most important feature is they're ISR-based Timers. Therefore, their executions are not blocked by bad-behaving functions or tasks. This important feature is absolutely necessary for mission-critical tasks.
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28
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28

FlashStorage_SAMD

The FlashStorage_SAMD library provides a convenient way to store and retrieve user's data using the non-volatile flash memory
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27
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29

FlashStorage_STM32

The FlashStorage_STM32 library aims to provide a convenient way to store and retrieve user's data using the non-volatile flash memory of STM32F/L/H/G/WB/MP1. It's using the buffered read and write to minimize the access to Flash. It now supports writing and reading the whole object, not just byte-and-byte. New STM32 core v2.0.0 is also supported now. Useful if the EEPROM is not available or too small. Currently, STM32F/L/H/G/WB/MP1 are supported.
C
27
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30

SinricPro_Generic

Simple way to control your IOT development boards like ESP8226, ESP32, Arduino SAMD21, Adafruit SAMD21, SAMD51, nRF52, STM32, Teensy, SAM DUE with Amazon Alexa or Google Home
C++
24
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31

ESP32_ISR_Servo

This library enables you to use 1 Hardware Timer on ESP32-based board to control 16 or more servo motors. Now supporting ESP32, ESP32_S2, ESP32_S3, ESP32_C3-based boards. Tested OK with ESP32 core v2.0.5
C++
24
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32

RP2040_SD

This library enables you to use SPI SD cards with RP2040-based boards such as Nano_RP2040_Connect, RASPBERRY_PI_PICO using either RP2040 Arduino-mbed or arduino-pico core. This SD-Fat v2 can support FAT16, FAT32, exFAT file systems. exFAT supports files larger than 4GB by using uint64_t as file offset.
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22
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33

NTPClient_Generic

Library for NTPClient to connect to an NTP time-server. Get time from a NTP time-server and keep it in sync. For ESP8266/ESP32, nRF52, SAMD21/SAMD51, STM32F/L/H/G/WB/MP1, Teensy, etc. besides AVR, using ESP WiFi, WiFiNINA, Ethernet W5x00, ENC28J60, LAN8742A, ESP8266/ESP32 AT-command WiFi.
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22
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34

BlynkGSM_Manager

Simple GSM shield Manager for Blynk and ESP32 / ESP8266 boards, with or without SSL, configuration data saved in SPIFFS / EEPROM. This library enables user to include both Blynk GSM/GPRS and WiFi libraries in one sketch, run both WiFi and GSM/GPRS simultaneously, or select one to use at runtime after reboot.
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21
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35

NB_Generic

Enables NB-IoT/LTE-M/GRPS network connection using the NB-IoT/LTE-M/GRPS modules. Use this library to send and receive SMS using Generic NB-IoT/LTE-M/GRPS modules, such as u-blox SARA-R410M module.This library also allows you to connect to internet through the GPRS networks. You can also use Web Clients to connect to Blynk, MQTT.
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20
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36

Blynk_Async_WM

Simple WiFiManager for Blynk and ESP8266/ESP32 (including ESP32-S2, ESP32-C3) with or without SSL, configuration data saved in either LittleFS, SPIFFS or EEPROM. This library, using AsyncWebServer instead of (ESP8266)WebServer, for configuring/auto(re)connecting ESP8266/ESP32 modules to best or available MultiWiFi APs and MultiBlynk servers at runtime. Enable adding dynamic custom parameters from sketch and input using the same Config Portal. Config Portal will be auto-adjusted to match the number of dynamic parameters. Optional default Credentials to be autoloaded into Config Portal to use or change instead of manually input. Static STA IP and DHCP Hostname as well as Config Portal AP channel, IP, SSID, Password can be configured. Multi or Double DetectDetector feature permits entering Config Portal as requested.
C++
20
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37

RPI_PICO_TimerInterrupt

This library enables you to use Interrupt from Hardware Timers on RP2040-based boards such as RASPBERRY_PI_PICO. These RPI_PICO_TimerInterrupt Hardware Timers, using Interrupt, still work even if other functions are blocking. Moreover, they are much more precise (certainly depending on clock frequency accuracy) than other software timers using millis() or micros(). That's mandatory if you need to measure some data requiring better accuracy. It now supports 16 ISR-based Timers, while consuming only 1 Hardware Timer. Timers' interval is very long (ulong millisecs). The most important feature is they're ISR-based Timers. Therefore, their executions are not blocked by bad-behaving functions or tasks. This important feature is absolutely necessary for mission-critical tasks.
C++
18
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38

ESP_AT_Lib

WizFi360/ESP8266/ESP32 wrapper library for Arduino providing an easy-to-use way to manipulate ESP8266/ESP32-AT shields.
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17
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39

GSM_Generic

Enables GSM/GRPS network connection using the GSM/GPRS modules. Use this library to make/receive voice calls, to send and receive SMS using Generic GSM/GPRS modules, such as u-blox SARA-U201 module.This library also allows you to connect to internet through the GPRS networks. You can either use Web Clients and Servers.
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17
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40

AsyncWebServer_RP2040W

Asynchronous WebServer Library for RASPBERRY_PI_PICO_W using CYW43439 WiFi with arduino-pico core. This library, which is relied on AsyncTCP_RP2040W, is part of a series of advanced Async libraries for RP2040W, such as AsyncTCP_RP2040W, AsyncUDP_RP2040W, AsyncWebServer_RP2040W, AsyncHTTPRequest_RP2040W, AsyncHTTPSRequest_RP2040W, etc. Now can display programmed WiFi country-code and support using CString to save heap to send very large data
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17
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41

MQTTPubSubClient_Generic

MQTT, MQTT_over_WebSockets and Secured MQTT_over_WebSockets Client for Arduino. Supporting nRF52, SAMD21, SAMD51, STM32F/L/H/G/WB/MP1, Teensy, SAM DUE, RP2040-based boards, besides ESP8266, ESP32 (ESP32, ESP32_S2, ESP32_S3 and ESP32_C3) and WT32_ETH01. Ethernet shields W5100, W5200, W5500, ENC28J60, Teensy 4.1 NativeEthernet/QNEthernet.
C++
17
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42

ESP32_PWM

This library enables you to use Interrupt from Hardware Timers on an ESP32, ESP32_S2 or ESP32_C3-based board to create and output PWM to pins. It now supports 16 ISR-based synchronized PWM channels, while consuming only 1 Hardware Timer. PWM interval can be very long (uint32_t millisecs). The most important feature is they're ISR-based PWM channels. Therefore, their executions are not blocked by bad-behaving functions or tasks. This important feature is absolutely necessary for mission-critical tasks. These hardware PWM channels, using interrupt, still work even if other functions are blocking. Moreover, they are much more precise (certainly depending on clock frequency accuracy) than other software timers using millis() or micros(). That's necessary if you need to measure some data requiring better accuracy.
C
17
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43

Ethernet_Manager

Simple Ethernet Manager for Teensy, SAM DUE, SAMD21, SAMD51, nRF52, ESP32, ESP8266, etc. boards, with or without SSL, configuration data saved in ESP8266 LittleFS, SPIFFS, nRF52 LittleFS/InternalFS, EEPROM, DueFlashStorage or SAMD FlashStorage.
C++
15
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44

UPnP_Generic

A simple library that implements port mappings to router using UPnP SSDP for Arduino boards, running on nRF52, SAMD21/SAMD51, STM32F/L/H/G/WB/MP1, Teensy, RP2040-based boards, WT32_ETH01, Portenta_H7, etc. besides ESP8266/ESP32, using ESP WiFi, WiFiNINA, Ethernet W5x00, ESP8266/ESP32 AT-command WiFi, Portenta_H7 Murata WiFi or Vision-shield Ethernet.. It is designed to be light-weight and can run only on Ethernet or WiFi hardware/library supporting UDP Multicast. Supporting Teensy 4.1 QNEthernet now.
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15
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45

AsyncTCP_SSL

Asynchronous SSL TCP Library for ESP32, ESP32_C3, ESP32_S2, ESP32_S3. This library is the base for future and more advanced Async SSL libraries, such as AsyncSSLWebServer, AsyncHTTPSRequest
C
14
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46

AsyncUDP_WT32_ETH01

Fully Asynchronous UDP Library for WT32_ETH01 (ESP32 + LAN8720). The library is easy to use and includes support for Unicast, Broadcast and Multicast environments.
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14
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47

AsyncWebServer_STM32

AsyncWebServer for STM32 using builtin LAN8742A Ethernet. This AsyncWebServer Library for STM32 is currently working on STM32 boards, such as Nucleo-144 F767ZI, etc., using builtin LAN8742A Ethernet. Now support using CString to save heap to send very large data
C
14
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48

ESP_AT_WiFiManager

Library to configure WiFi/Credentials at runtime for Teensy, SAM DUE, STM32F/L/H/G/WB/MP1, SAMD21/SAMD51, RP2040-based boards, etc. using WizFi360 /ESP8266 /ESP32-AT-command shields. You can also specify static AP and STA IP.
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13
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49

AsyncWebServer_WT32_ETH01

This is Asynchronous HTTP and WebSocket Server Library for WT32_ETH01 (ESP32 + LAN8720). Now supporting using CString to save heap to send very large data and with examples to demo how to use beginChunkedResponse() to send large html in chunks
C++
13
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50

AsyncHTTPSRequest_Generic

Simple Async HTTPS Request library, supporting GET, POST, PUT, PATCH, DELETE and HEAD, on top of AsyncTCP_SSL library for ESP32 (including ESP32_S2, ESP32_S3 and ESP32_C3), WT32_ETH01 (ESP32 + LAN8720). Supporting in the future for RP2040W, ESP8266, Portenta_H7, STM32 with built-in LAN8742A Ethernet, etc. Now you can send HTTP / HTTPS requests to multiple addresses and receive responses from them
C++
13
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51

Timezone_Generic

Library to facilitate time zone conversions and automatic daylight saving (summer) time adjustments. For ESP8266, ESP32, WT32-ETH01 (ESP32 + LAN8720), SAMD21, SAMD51, nRF52, STM32F/L/H/G/WB/MP1, Teensy, SAM DUE, RTL8720DN, RP2040-based (Nano_RP2040_Connect, RASPBERRY_PI_PICO), Portenta_H7 (Ethernet or WiFi) boards, etc. using W5x00/ENC28J60/LAN8742A Ethernet, ESP or ESP-AT WiFi or WiFiNINA. Ethernet_Generic library is used as default for W5x00.
C++
13
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52

RP2040_RTC

This library enables you to use RTC from RP2040-based boards such as Nano_RP2040_Connect, RASPBERRY_PI_PICO. This RP2040-based RTC, using Interrupt, has no battery backup. Time will be lost when powered down. To need NTP-client to update RTC every start-up.
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13
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53

WiFiManager_RTL8720

Library to configure MultiWiFi/Credentials at runtime for Realtek RTL8720DN, RTL8722DM, RTM8722CSM, etc. boards.
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12
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54

EthernetWebServer_SSL_STM32

EthernetWebServer_STM32 is a library for STM32F/L/H/G/WB/MP1 boards running WebServer using built-in Ethernet LAN8742A, Ethernet LAN8720, W5x00 or ENC28J60 shields. It now supports Ethernet TLS/SSL Client. The library supports HTTP/HTTPS GET and POST requests, provides argument parsing, handles one client at a time. It supports Arduino STM32F/L/H/G/WB/MP1 series with 32+ Kbytes of Flash, using built-in Ethernet (Nucleo-144: F429ZI, F767ZI, Discovery: STM32F746G-DISCOVERY), or ENC28J60, W5x00 Ethernet shields. Ethernet_Generic library is used as default for W5x00. Now W5x00 can use any custom hardware / software SPI
C
12
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55

Portenta_H7_TimerInterrupt

This library enables you to use Interrupt from Hardware Timers on an STM32H7-based Portenta_H7 board. It now supports 16 ISR-based timers, while consuming only 1 Hardware Timer. Timers' interval is very long (ulong millisecs). The most important feature is they're ISR-based timers. Therefore, their executions are not blocked by bad-behaving functions or tasks. This important feature is absolutely necessary for mission-critical tasks. These hardware timers, using interrupt, still work even if other functions are blocking. Moreover, they are much more precise (certainly depending on clock frequency accuracy) than other software timers using millis() or micros(). That's necessary if you need to measure some data requiring better accuracy
C
12
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56

RP2040_ISR_Servo

This library enables you to use 1 Hardware Timer on RP2040-based board, such as Nano_RP2040_Connect, RASPBERRY_PI_PICO, to control up to 16 or more servo motors. Now permitting using servos with different pulse ranges simultaneously.
C
11
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57

BlynkESP32_BT_WF

Enable inclusion of both ESP32 Blynk BT / BLE and WiFi libraries. Then run both WiFi and BT/BLE simultaneously, or select one to use at runtime after reboot. Eliminate hardcoding your Wifi and Blynk credentials and configuration data saved in either SPIFFS or EEPROM.
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11
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58

ESP32_C3_ISR_Servo

This library enables you to use 1 Hardware Timer on an ESP32_C3-based board to control 16 or more servo motors. Tested OK with ESP32 core v2.0.5
C++
11
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59

NRF52_MBED_TimerInterrupt

This library enables you to use Interrupt from Hardware Timers on an NRF52-based board using mbed-RTOS such as Nano-33-BLE. These nRF52 Hardware Timers, using Interrupt, still work even if other functions are blocking. Moreover, they are much more precise (certainly depending on clock frequency accuracy) than other software timers using millis() or micros(). That's mandatory if you need to measure some data requiring better accuracy. It now supports 16 ISR-based Timers, while consuming only 1 Hardware Timer. Timers' interval is very long (ulong millisecs). The most important feature is they're ISR-based Timers. Therefore, their executions are not blocked by bad-behaving functions or tasks. This important feature is absolutely necessary for mission-critical tasks.
C++
11
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60

NRF52_TimerInterrupt

This library enables you to use Interrupt from Hardware Timers on an nRF52-based board. These nRF52 Hardware Timers, using Interrupt, still work even if other functions are blocking. Moreover, they are much more precise than other software timers using millis() or micros(). Now supports `Sparkfun Pro nRF52840 Mini`
C++
11
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61

DDNS_Generic

A simple library that implements an automatic DDNS Update Client for SAM DUE, nRF52, SAMD21/SAMD51, STM32F/L/H/G/WB/MP1, RP2040-based RASPBERRY_PI_PICO, Portenta_H7, etc. besides ESP8266/ESP32, using ESP8266-AT/ESP32-AT WiFi, WiFiNINA, Ethernet W5x00, ENC28J60 or LAN8742A. It is designed to be light-weight and currently supports DuckDNS, No-ip, DynDNS, Dynu, enom, all-inkl, selfhost.de, dyndns.it, strato, freemyip, afraid.org.
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11
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62

LittleFS_Mbed_RP2040

Wrapper of LittleFS for Arduino MBED RP2040 boards. This library facilitates your usage of LittleFS for the onboard flash. LittleFS supports power fail safety and high performance
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11
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63

ESP8266_PWM

This library enables you to use Interrupt from Hardware Timers on an ESP8266-based board to create and output PWM to pins. It now supports 16 ISR-based synchronized PWM channels, while consuming only 1 Hardware Timer. PWM interval can be very long (uint32_t millisecs). The most important feature is they're ISR-based PWM channels. Therefore, their executions are not blocked by bad-behaving functions or tasks. This important feature is absolutely necessary for mission-critical tasks. These hardware PWM channels, using interrupt, still work even if other functions are blocking. Moreover, they are much more precise (certainly depending on clock frequency accuracy) than other software timers using millis() or micros(). That's necessary if you need to measure some data requiring better accuracy
C
11
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64

WiFiWebServer_RTL8720

Simple WiFiWebServer, HTTP Client, MQTT and WebSocket Client library for Realtek RTL8720DN, RTL8722DM, RTM8722CSM boards using WiFi. Supporting WiFi at 2.4GHz and 5GHz
C++
10
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65

DS323x_Generic

Library for DS3231/DS3232 Extremely Accurate I2C-Integrated RTC/TCXO/Crystal. For nRF52, SAMD21/SAMD51, STM32F/L/H/G/WB/MP1, Teensy, Portenta_H7 boards, RP2040-based, etc. besides ESP8266/ESP32, using ESP WiFi, Portenta_H7 WiFi, WiFiNINA, Portenta_H7 Ethernet, Ethernet W5x00, ENC28J60, LAN8742A, ESP8266/ESP32 AT-command WiFi. Ethernet_Generic library is used as default for W5x00 Ethernet
C++
10
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66

HTTPS_Server_Generic

This is HTTPS/HTTP Server Library for ESP32, WT32_ETH01, ESP32 + LwIP W5500, ESP32 + LwIP W6100, ESP32 + LwIP ENC28J60. In the future, this library will support powerful-enough boards using LwIP WiFi/Ethernet, such as ESP8266, Portenta_H7, RP2040W, Teensy 4.1, etc.
C++
10
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67

Teensy_TimerInterrupt

This library enables you to use Interrupt from Hardware Timers on an Teensy-based board such as Teensy 4.x, 3.x, LC, 2.0, etc. These Teensy Hardware Timers, using Interrupt, still work even if other functions are blocking. Moreover, they are much more precise (certainly depending on clock frequency accuracy) than other software timers using millis() or micros(). That's mandatory if you need to measure some data requiring better accuracy. It now supports 16 ISR-based Timers, while consuming only 1 Hardware Timer. Timers' interval is very long (ulong millisecs). The most important feature is they're ISR-based Timers. Therefore, their executions are not blocked by bad-behaving functions or tasks. This important feature is absolutely necessary for mission-critical tasks.
C++
9
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68

ESP8266_ISR_Servo

This library enables you to use 1 Hardware Timer on an ESP8266-based board to control up to 16 servo motors.
C
9
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69

FTPClient_Generic

FTP Client for Generic boards such as AVR Mega, megaAVR, Portenta_H7, Teensy, SAM DUE, SAMD21, SAMD51, STM32F/L/H/G/WB/MP1, nRF52, RP2040-based (Nano-RP2040-Connect, RASPBERRY_PI_PICO, ESP32/ESP8266, etc.). FTP Client can use WiFi (ESP_WiFi, Portenta_H7 WiFi, WiFiNINA, WiFi101, U-Blox W101, W102, ESP8266/ESP32-AT), Ethernet W6100, W5100S, W5200,,..
C++
9
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70

WiFiMulti_Generic

Simple MultiWiFi library to adapt ESP32/ESP8266 MultiWiFi of WiFi libraries to all other WiFi modules and libraries. Currently supporting ESP32, ESP8266, Teensy, SAM DUE, SAMD21, SAMD51, STM32F/L/H/G/WB/MP1, nRF52, RP2040-based (Nano-RP2040-Connect, RASPBERRY_PI_PICO, RASPBERRY_PI_PICO_W, etc.) boards using WiFi, such as WiFiNINA, WiFi101, CYW43439, U-Blox W101, W102, ESP8266/ESP32-AT modules/shields, with functions similar to those of ESP8266/ESP32 MultiWiFi of WiFi libraries
C++
9
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71

WiFiManager_Generic_Lite

"Library to configure MultiWiFi/Credentials at runtime for Teensy, SAM DUE, SAMD21, SAMD51, STM32F/L/H/G/WB/MP1, nRF52, RP2040-based (Nano RP2040 Connect, RASPBERRY_PI_PICO), AmebaD RTL8720DN, etc. boards, using Generic WiFi (WiFiNINA, WiFi101, ESP8266-AT, ESP32-AT, etc.) modules/shields. You can also specify DHCP HostName, static AP and STA IP. Use much less memory compared to full-fledge WiFiManager. Config Portal will be auto-adjusted to match the number of dynamic custom parameters. Optional default Credentials to be autoloaded into Config Portal to use or change instead of manually input. Credentials are saved in LittleFS/InternalFS, (emulated-)EEPROM, FlashStorage_SAMD, FlashStorage_STM32, FlashStorage_RTL8720 or DueFlashStorage. New powerful-yet-simple-to-use feature to enable adding dynamic custom parameters from sketch and input using the same Config Portal. DoubleDetectDetector as well as Virtual Switches feature permits entering Config Portal as requested. Now using WiFiMulti_Generic library
C++
8
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72

MBED_RPI_PICO_TimerInterrupt

This library enables you to use Interrupt from Hardware Timers on RP2040-based boards such as Nano_RP2040_Connect, RASPBERRY_PI_PICO. These MBED_RPI_PICO_TimerInterrupt Hardware Timers, using Interrupt, still work even if other functions are blocking. Moreover, they are much more precise (certainly depending on clock frequency accuracy) than other software timers using millis() or micros(). That's mandatory if you need to measure some data requiring better accuracy. It now supports 16 ISR-based Timers, while consuming only 1 Hardware Timer. Timers' interval is very long (ulong millisecs). The most important feature is they're ISR-based Timers. Therefore, their executions are not blocked by bad-behaving functions or tasks. This important feature is absolutely necessary for mission-critical tasks.
C
8
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73

WebServer_ESP32_W5500

Simple Ethernet WebServer, HTTP/HTTPS Client wrapper library for ESP32 boards using W5500 with LwIP Ethernet library. The WebServer supports HTTP(S) GET and POST requests, provides argument parsing, handles one client at a time. It provides HTTP(S), MQTT(S) Client and supports WebServer serving from LittleFS/SPIFFS
C
8
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74

Blynk_Async_ESP32_BT_WF

Simple WiFiManager for Blynk and ESP32 with or without SSL, configuration data saved in either SPIFFS or EEPROM. Enable inclusion of both ESP32 Blynk BT/BLE and WiFi libraries. Then select one at reboot or run both. Eliminate hardcoding your Wifi and Blynk credentials and configuration data saved in either SPIFFS or EEPROM. Using AsyncWebServer instead of (ESP8266)WebServer.
C++
8
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75

ESP32_New_TimerInterrupt

This library enables you to use Interrupt from Hardware Timers on an ESP32, ESP32_S2, ESP32_S3 or ESP32_C3-based board. It now supports 16 ISR-based timers, while consuming only 1 Hardware Timer. Timers' interval is very long (ulong millisecs). The most important feature is they're ISR-based timers. Therefore, their executions are not blocked by bad-behaving functions or tasks. This important feature is absolutely necessary for mission-critical tasks. These hardware timers, using interrupt, still work even if other functions are blocking. Moreover, they are much more precise (certainly depending on clock frequency accuracy) than other software timers using millis() or micros(). That's necessary if you need to measure some data requiring better accuracy.
C++
8
star
76

AVR_PWM

This library enables you to use Hardware-based PWM channels on AVR-based boards, such as Nano, UNO, Mega, Leonardo, 32u4, etc., to create and output PWM. Using the same functions as other FastPWM libraries to enable you to port PWM code easily between platforms.
C++
7
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77

AsyncMQTT_ESP32

Arduino Library for ESP32/S2/S3/C3 asynchronous MQTT client implementation. This library, ported to support ESP32/S2/S3/C3, WT32_ETH01 (ESP32 + LAN8720), ESP32 using LwIP ENC28J60, W5500, W6100 or LAN8720. Supporting TLS/SSL for MQTTS Client
C++
7
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78

FlashStorage_STM32F1

The FlashStorage_STM32F1 library aims to provide a convenient way to store and retrieve user's data using the non-volatile flash memory of STM32F1/F3. It's using the buffered read and write to minimize the access to Flash. It now supports writing and reading the whole object, not just byte-and-byte. New STM32 core v2.0.0 is supported now. Useful if the EEPROM is not available or too small. Currently, STM32F1/F3 are supported.
C
7
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79

FS_Nano33BLE

Wrapper of FS (LittleFS or not-advisable FATFS) for Arduino MBED nRF52840-based boards, such as Nano_33_BLE boards. This library facilitates your usage of FS (LittleFS or FATFS) for the onboard flash. FS supports power fail safety and high performance
C++
7
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80

Portenta_H7_AsyncWebServer

Asynchronous WebServer Library for STM32H7-based Portenta_H7 using mbed_portenta core. This library, which is relied on Portenta_H7_AsyncTCP, is part of a series of advanced Async libraries, such as AsyncTCP, AsyncUDP, AsyncWebSockets, AsyncHTTPRequest, AsyncHTTPSRequest, etc. Now supporting using CString in optional SDRAM to save heap to send very large data
C++
7
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81

Blynk_Async_GSM_Manager

Library, now using AsyncWebServer instead of (ESP8266)WebServer, for enabling GSM/GPRS and WiFi running simultaneously as well as configuring/auto(re)connecting at runtime GSM shields to Internet and Blynk and ESP8266/ESP32 WiFi modules to best or available MultiWiFi APs and MultiBlynk servers. Enable adding dynamic custom parameters from sketch and input using the same Config Portal. Config Portal will be auto-adjusted to match the number of dynamic parameters. Optional default Credentials to be autoloaded into Config Portal to use or change instead of manually input. Static STA IP and DHCP Hostname as well as Config Portal AP channel, IP, SSID, Password can be configured. DoubleDetectDetector feature permits entering Config Portal as requested.
C++
7
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82

AsyncWebServer_Ethernet

Asynchronous HTTP and WebSocket Server Library for many boards besides ESP8266, using W5x00 or ENC28J60 Ethernet. Currently supporting only ESP8266. This is Asynchronous HTTP and WebSocket Server Library for ESP8266 using W5x00 or ENC28J60 Ethernet with lwIP_5100, lwIP_5500 or lwIP_enc28j60 library. Now supporting using CString to save heap to send very large data
C++
7
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83

AsyncUDP_STM32

Asynchronous UDP Library for STM32 using built-in LAN8742A Ethernet
C
6
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84

AsyncESP32_W5500_Manager

ESP32 + LwIP W5500, including ESP32-S2, ESP32-S3 and ESP32-C3, Connection and Credentials Manager using AsyncWebServer, with enhanced GUI and fallback Web ConfigPortal
C
6
star
85

AsyncESP32_ENC_Manager

ESP32 + LwIP ENC28J60, including ESP32-S2, ESP32-S3 and ESP32-C3, Connection and Credentials Manager using AsyncWebServer, with enhanced GUI and fallback Web ConfigPortal
C
6
star
86

STM32_PWM

This wrapper library enables you to use Hardware-based PWM on STM32F/L/H/G/WB/MP1 boards to create and output PWM to pins. The most important feature is they're purely hardware-based PWM channels. Therefore, their executions are very precise and not blocked by bad-behaving functions or tasks. This important feature is absolutely necessary for mission-critical tasks. These hardware PWM channels still work even if other functions are blocking. Moreover, they are much more precise (certainly depending on clock frequency accuracy) than other ISR-based or software-based PWM using millis() or micros(). That's necessary if you need to measure some data requiring very high frequency and much better accuracy. PWM feature can now be used.
C
6
star
87

ESP32_FastPWM

This library, a wrapper around ESP32 ledc library, enables you to use Hardware-based PWM channels on ESP32, ESP32_S2, ESP32_S3 or ESP32_C3-based boards to create and output PWM to pins. Using similar functions as some other FastPWM libraries, it enables you to port PWM code easily between platforms.
C++
6
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88

ESP_AT_WM_Lite

Light-Weight WiFi/Credentials Manager for AVR Mega, SAM DUE, SAMD21, SAMD51, nRF52, STM32, RP2040-based RASPBERRY_PI_PICO, etc. boards running WizFi360ESP8266/ESP32-AT-command shields with web configuration portal. Powerful-yet-simple-to-use feature to enable adding dynamic custom parameters. You can also specify static AP and STA IP
C++
6
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89

ESP_MultiResetDetector

Library to detect a multi reset within a predetermined time, using RTC Memory, EEPROM, LittleFS or SPIFFS for ESP8266 and ESP32, ESP32_C3, ESP32_S2, ESP32_S3. An alternative start-up mode can be used. One example use is to allow re-configuration of device WiFi credentials
C++
6
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90

React_Generic

Asynchronous programming library for the generic microcontrollers compatible with the Arduino framework. Currently supporting ESP32, ESP8266, SAMD21/SAMD51, RP2040, STM32, nRF52, Teensy 4.x
C++
5
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91

RTL8720_RTC

This library enables you to use RTC from RTL8720-based boards such as RTL8720DN, RTL8722DM, RTL8722CSM. This RTL8720-based RTC, using Interrupt, has no battery backup. Time will be lost when powered down. To need NTP-client to update RTC every start-up.
C
5
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92

SmallProjects

ISR-based projects demonstrate how to use ESP8266TimerInterrupt, ESP32TimerInterrupt and TimerInterrupt Library
C++
5
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93

Portenta_H7_AsyncTCP

Asynchronous TCP Library for STM32H7-based Portenta_H7 using mbed_portenta core. This library is the base for future and more advanced Async libraries, such as AsyncWebServer, AsyncHTTPRequest and AsyncHTTPSRequest
C++
5
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94

WiFiManager_Portenta_H7_Lite

Library to configure MultiWiFi/Credentials at runtime for Portenta_H7 boards, using built-in WiFi (Murata) modules/shields. You can also specify DHCP HostName, static AP and STA IP. Use much less memory compared to full-fledge WiFiManager. Config Portal will be auto-adjusted to match the number of dynamic custom parameters. Optional default Credentials to be autoloaded into Config Portal to use or change instead of manually input. Credentials are saved in LittleFS. New powerful-yet-simple-to-use feature to enable adding dynamic custom parameters from sketch and input using the same Config Portal. DoubleDetectDetector as well as Virtual Switches feature permits entering Config Portal as requested. Now using WiFiMulti_Generic library
C++
5
star
95

AsyncDNSServer_RP2040W

Fully Asynchronous DNS Server Library for RASPBERRY_PI_PICO_W using CYW43439 WiFi with arduino-pico core. This library is one of the current or future and more advanced Async libraries, such as AsyncWebServer_RP2040W, AsyncHTTPRequest_RP2040W, AsyncHTTPSRequest_RP2040W
C
5
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96

AsyncWebServer_Teensy41

Asynchronous HTTP and WebSocket Server Library for Teensy 4.1 using QNEthernet. This library is one of the current or future Async libraries to support Teensy 4.1 using QNEthernet, such as AsyncHTTPRequest_Generic, AsyncHTTPSRequest_Generic, AsyncMQTT_Generic, Teensy41_AsyncWebServer, Teensy41_AsyncUDP, Teensy41_AsyncDNSServer, AsyncWebServer_Teensy41_SSL, etc. Now supporting using CString to save heap to send very large data
C++
5
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97

RP2040_Slow_PWM

This library enables you to use ISR-based PWM channels on RP2040-based boards, such as ADAFRUIT_FEATHER_RP2040, RASPBERRY_PI_PICO, with arduino-pico core to create and output PWM any GPIO pin. The most important feature is they're ISR-based PWM channels, supporting lower PWM frequencies with suitable accuracy. Their executions are not blocked by bad-behaving functions or tasks. This important feature is absolutely necessary for mission-critical tasks. These ISR-based PWMs, still work even if other software functions are blocking. Moreover, they are much more precise (certainly depending on clock frequency accuracy) than other software-based PWM using millis() or micros(). That's necessary if you need to control devices requiring high precision
C
5
star
98

FTP_Server_Teensy41

FTP Server for Teensy 4.x using SD, LittleFS, etc. with QNEthernet, NativeEthernet, W5x00 with Ethernet_Generic Library or Adafruit Airlift Featherwing using WiFiNINA_Generic Library
C++
4
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99

LittleFS_Portenta_H7

Wrapper of LittleFS for Arduino MBED Portenta_H7 boards. This library facilitates your usage of LittleFS for the onboard flash. LittleFS supports power fail safety and high performance
C
4
star
100

Portenta_H7_AsyncUDP

Asynchronous UDP Library for STM32H7-based Portenta_H7 using mbed_portenta core. This library is the base for future and more advanced Async libraries, such as AsyncWebServer, AsyncHTTPRequest, AsyncHTTPSRequest
C
4
star