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Fully Asynchronous UDP Library for ESP32 boards using LwIP W6100 Ethernet. The library is easy to use and includes support for Unicast, Broadcast and Multicast environments

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AsyncUDP_ESP32_W6100

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Table of Contents



Why do we need this AsyncUDP_ESP32_W6100 library

Features

This AsyncUDP_ESP32_W6100 library is a fully asynchronous UDP library, designed for a trouble-free, multi-connection network environment, for ESP32 boards using LwIP W6100 Ethernet. The library is easy to use and includes support for Unicast, Broadcast and Multicast environments.

This library is based on, modified from:

  1. Hristo Gochkov's AsyncUDP

to apply the better and faster asynchronous feature of the powerful AsyncUDP into ESP32 boards using LwIP W6100 Ethernet.

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
  • After connecting to a UDP server as an Async Client, you are immediately ready to handle other connections while the Client is taking care of receiving the UDP responding packets in the background.
  • You are not required to check in a tight loop() the arrival of the UDP responding packets to process them.

Currently supported Boards

  1. ESP32-based boards using LwIP W6100 Ethernet

W6100

FULL_DUPLEX, 100Mbps



Prerequisites

  1. Arduino IDE 1.8.19+ for Arduino.

  2. ESP32 Core 2.0.6+ for ESP32-based boards. Latest release

  3. WebServer_ESP32_W6100 library 1.5.2+. To install, check arduino-library-badge



Installation

The suggested way to install is to:

Use Arduino Library Manager

The best way is to use Arduino Library Manager. Search for AsyncUDP_ESP32_W6100, then select / install the latest version. You can also use this link arduino-library-badge for more detailed instructions.

Manual Install

  1. Navigate to AsyncUDP_ESP32_W6100 page.
  2. Download the latest release AsyncUDP_ESP32_W6100-main.zip.
  3. Extract the zip file to AsyncUDP_ESP32_W6100-main directory
  4. Copy the whole AsyncUDP_ESP32_W6100-main folder to Arduino libraries' directory such as ~/Arduino/libraries/.

VS Code & PlatformIO:

  1. Install VS Code
  2. Install PlatformIO
  3. Install AsyncUDP_ESP32_W6100 library by using Library Manager. Search for AsyncUDP_ESP32_W6100 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 fixing ESP32 compile error

To fix ESP32 compile error, just copy the following file into the ESP32 cores/esp32 directory (e.g. ./arduino-1.8.19/hardware/espressif/cores/esp32) to overwrite the old file:



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 include this .hpp file

// Can be included as many times as necessary, without `Multiple Definitions` Linker Error
#include "AsyncUDP_ESP32_W6100.hpp"     //https://github.com/khoih-prog/AsyncUDP_ESP32_W6100

in many files. But be sure to use the following .h file 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 "AsyncUDP_ESP32_W6100.h"       //https://github.com/khoih-prog/AsyncUDP_ESP32_W6100

Check the new multiFileProject example for a HOWTO demo.



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).


HOWTO Setting up the Async UDP Client

#if !( defined(ESP32) )
  #error This code is designed for (ESP32 + W6100) to run on ESP32 platform! Please check your Tools->Board setting.
#endif

#include <Arduino.h>

#define ASYNC_UDP_ESP32_W6100_DEBUG_PORT      Serial

// Use from 0 to 4. Higher number, more debugging messages and memory usage.
#define _ASYNC_UDP_ESP32_W6100_LOGLEVEL_      1

////////////////////////////////////////////////////////////////////////////////////////////////////////////////////

// Optional values to override default settings
// Don't change unless you know what you're doing
//#define ETH_SPI_HOST        SPI3_HOST
//#define SPI_CLOCK_MHZ       25

// Must connect INT to GPIOxx or not working
//#define INT_GPIO            4

//#define MISO_GPIO           19
//#define MOSI_GPIO           23
//#define SCK_GPIO            18
//#define CS_GPIO             5

//////////////////////////////////////////////////////////

#include <AsyncUDP_ESP32_W6100.h>

/////////////////////////////////////////////

// Enter a MAC address and IP address for your controller below.
#define NUMBER_OF_MAC      20

byte mac[][NUMBER_OF_MAC] =
{
  { 0xDE, 0xAD, 0xBE, 0xEF, 0xFE, 0x01 },
  { 0xDE, 0xAD, 0xBE, 0xEF, 0xBE, 0x02 },
  { 0xDE, 0xAD, 0xBE, 0xEF, 0xFE, 0x03 },
  { 0xDE, 0xAD, 0xBE, 0xEF, 0xBE, 0x04 },
  { 0xDE, 0xAD, 0xBE, 0xEF, 0xFE, 0x05 },
  { 0xDE, 0xAD, 0xBE, 0xEF, 0xBE, 0x06 },
  { 0xDE, 0xAD, 0xBE, 0xEF, 0xFE, 0x07 },
  { 0xDE, 0xAD, 0xBE, 0xEF, 0xBE, 0x08 },
  { 0xDE, 0xAD, 0xBE, 0xEF, 0xFE, 0x09 },
  { 0xDE, 0xAD, 0xBE, 0xEF, 0xBE, 0x0A },
  { 0xDE, 0xAD, 0xBE, 0xEF, 0xFE, 0x0B },
  { 0xDE, 0xAD, 0xBE, 0xEF, 0xBE, 0x0C },
  { 0xDE, 0xAD, 0xBE, 0xEF, 0xFE, 0x0D },
  { 0xDE, 0xAD, 0xBE, 0xEF, 0xBE, 0x0E },
  { 0xDE, 0xAD, 0xBE, 0xEF, 0xFE, 0x0F },
  { 0xDE, 0xAD, 0xBE, 0xEF, 0xBE, 0x10 },
  { 0xDE, 0xAD, 0xBE, 0xEF, 0xFE, 0x11 },
  { 0xDE, 0xAD, 0xBE, 0xEF, 0xBE, 0x12 },
  { 0xDE, 0xAD, 0xBE, 0xEF, 0xFE, 0x13 },
  { 0xDE, 0xAD, 0xBE, 0xEF, 0xBE, 0x14 },
};

// Select the IP address according to your local network
IPAddress myIP(192, 168, 2, 232);
IPAddress myGW(192, 168, 2, 1);
IPAddress mySN(255, 255, 255, 0);

// Google DNS Server IP
IPAddress myDNS(8, 8, 8, 8);

/////////////////////////////////////////////

#include <time.h>

// 0.ca.pool.ntp.org
IPAddress timeServerIP = IPAddress(208, 81, 1, 244);
// time.nist.gov
//IPAddress timeServerIP = IPAddress(132, 163, 96, 1);

#define NTP_REQUEST_PORT      123

char ReplyBuffer[] = "ACK";      // a string to send back

char timeServer[]         = "time.nist.gov";  // NTP server

const int NTP_PACKET_SIZE = 48;       // NTP timestamp is in the first 48 bytes of the message

byte packetBuffer[NTP_PACKET_SIZE];   // buffer to hold incoming and outgoing packets

// A UDP instance to let us send and receive packets over UDP
AsyncUDP Udp;

void sendACKPacket(void)
{
  Serial.println("============= sendACKPacket =============");

  // Send unicast ACK to the same remoteIP and remotePort we received the packet
  // The AsyncUDP_STM32 library will take care of the correct IP and port based on pcb
  Udp.write((uint8_t *) ReplyBuffer, sizeof(ReplyBuffer));
}

// send an NTP request to the time server at the given address
void createNTPpacket(void)
{
  Serial.println("============= createNTPpacket =============");

  // set all bytes in the buffer to 0
  memset(packetBuffer, 0, NTP_PACKET_SIZE);
  // Initialize values needed to form NTP request
  // (see URL above for details on the packets)

  packetBuffer[0]   = 0b11100011;   // LI, Version, Mode
  packetBuffer[1]   = 0;     // Stratum, or type of clock
  packetBuffer[2]   = 6;     // Polling Interval
  packetBuffer[3]   = 0xEC;  // Peer Clock Precision

  // 8 bytes of zero for Root Delay & Root Dispersion
  packetBuffer[12]  = 49;
  packetBuffer[13]  = 0x4E;
  packetBuffer[14]  = 49;
  packetBuffer[15]  = 52;
}

void sendNTPPacket(void)
{
  createNTPpacket();
  //Send unicast
  Udp.write(packetBuffer, sizeof(packetBuffer));
}

void parsePacket(AsyncUDPPacket packet)
{
  struct tm  ts;
  char       buf[80];

  memcpy(packetBuffer, packet.data(), sizeof(packetBuffer));

  Serial.print("Received UDP Packet Type: ");
  Serial.println(packet.isBroadcast() ? "Broadcast" : packet.isMulticast() ? "Multicast" : "Unicast");
  Serial.print("From: ");
  Serial.print(packet.remoteIP());
  Serial.print(":");
  Serial.print(packet.remotePort());
  Serial.print(", To: ");
  Serial.print(packet.localIP());
  Serial.print(":");
  Serial.print(packet.localPort());
  Serial.print(", Length: ");
  Serial.print(packet.length());
  Serial.println();

  unsigned long highWord = word(packetBuffer[40], packetBuffer[41]);
  unsigned long lowWord = word(packetBuffer[42], packetBuffer[43]);

  // combine the four bytes (two words) into a long integer
  // this is NTP time (seconds since Jan 1 1900):
  unsigned long secsSince1900 = highWord << 16 | lowWord;

  Serial.print(F("Seconds since Jan 1 1900 = "));
  Serial.println(secsSince1900);

  // now convert NTP time into )everyday time:
  Serial.print(F("Epoch/Unix time = "));

  // Unix time starts on Jan 1 1970. In seconds, that's 2208988800:
  const unsigned long seventyYears = 2208988800UL;

  // subtract seventy years:
  unsigned long epoch = secsSince1900 - seventyYears;
  time_t epoch_t = epoch;   //secsSince1900 - seventyYears;

  // print Unix time:
  Serial.println(epoch);

  // print the hour, minute and second:
  Serial.print(F("The UTC/GMT time is "));       // UTC is the time at Greenwich Meridian (GMT)

  ts = *localtime(&epoch_t);
  strftime(buf, sizeof(buf), "%a %Y-%m-%d %H:%M:%S %Z", &ts);
  Serial.println(buf);

  // send a reply, to the IP address and port that sent us the packet we received
  sendACKPacket();
}

void setup()
{
  Serial.begin(115200);

  while (!Serial && (millis() < 5000));

  Serial.print(F("\nStart AsyncUDPSendReceive on "));
  Serial.print(ARDUINO_BOARD);
  Serial.print(F(" with "));
  Serial.println(SHIELD_TYPE);
  Serial.println(WEBSERVER_ESP32_W6100_VERSION);
  Serial.println(ASYNC_UDP_ESP32_W6100_VERSION);

  Serial.setDebugOutput(true);

  UDP_LOGWARN(F("Default SPI pinout:"));
  UDP_LOGWARN1(F("SPI_HOST:"), ETH_SPI_HOST);
  UDP_LOGWARN1(F("MOSI:"), MOSI_GPIO);
  UDP_LOGWARN1(F("MISO:"), MISO_GPIO);
  UDP_LOGWARN1(F("SCK:"),  SCK_GPIO);
  UDP_LOGWARN1(F("CS:"),   CS_GPIO);
  UDP_LOGWARN1(F("INT:"),  INT_GPIO);
  UDP_LOGWARN1(F("SPI Clock (MHz):"), SPI_CLOCK_MHZ);
  UDP_LOGWARN(F("========================="));

  ///////////////////////////////////

  // To be called before ETH.begin()
  ESP32_W6100_onEvent();

  // start the ethernet connection and the server:
  // Use DHCP dynamic IP and random mac
  //bool begin(int MISO_GPIO, int MOSI_GPIO, int SCLK_GPIO, int CS_GPIO, int INT_GPIO, int SPI_CLOCK_MHZ,
  //           int SPI_HOST, uint8_t *W6100_Mac = W6100_Default_Mac);
  ETH.begin( MISO_GPIO, MOSI_GPIO, SCK_GPIO, CS_GPIO, INT_GPIO, SPI_CLOCK_MHZ, ETH_SPI_HOST );
  //ETH.begin( MISO_GPIO, MOSI_GPIO, SCK_GPIO, CS_GPIO, INT_GPIO, SPI_CLOCK_MHZ, ETH_SPI_HOST, mac[millis() % NUMBER_OF_MAC] );

  // Static IP, leave without this line to get IP via DHCP
  //bool config(IPAddress local_ip, IPAddress gateway, IPAddress subnet, IPAddress dns1 = 0, IPAddress dns2 = 0);
  //ETH.config(myIP, myGW, mySN, myDNS);

  ESP32_W6100_waitForConnect();

  ///////////////////////////////////

  // Client address
  Serial.print("AsyncUDPSendReceive started @ IP address: ");
  Serial.println(ETH.localIP());

  Serial.println(F("\nStarting connection to server..."));

  //NTP requests are to port NTP_REQUEST_PORT = 123
  if (Udp.connect(timeServerIP, NTP_REQUEST_PORT))
  {
    Serial.println("UDP connected");

    Udp.onPacket([](AsyncUDPPacket packet)
    {
      parsePacket(packet);
    });
  }
}

void loop()
{
  sendNTPPacket();

  // wait 60 seconds before asking for the time again
  delay(60000);
}


How to connect W6100 to ESP32

You can change the INT pin to another one. Default is GPIO4

// Must connect INT to GPIOxx or not working
#define INT_GPIO            4

W6100

FULL_DUPLEX, 100Mbps


W6100 <---> ESP32
MOSI <---> GPIO23
MISO <---> GPIO19
SCK <---> GPIO18
CS/SS <---> GPIO5
INT <---> GPIO4
RST <---> RST
GND <---> GND
3.3V <---> 3.3V


Examples

  1. AsyncUDPClient
  2. AsyncUdpNTPClient
  3. AsyncUdpSendReceive
  4. AsyncUDPServer
  5. AsyncUDPMulticastServer
  6. multiFileProject

#if !( defined(ESP32) )
#error This code is designed for (ESP32 + W6100) to run on ESP32 platform! Please check your Tools->Board setting.
#endif
#include <Arduino.h>
#define ASYNC_UDP_ESP32_W6100_DEBUG_PORT Serial
// Use from 0 to 4. Higher number, more debugging messages and memory usage.
#define _ASYNC_UDP_ESP32_W6100_LOGLEVEL_ 1
//////////////////////////////////////////////////////////
// Optional values to override default settings
// Don't change unless you know what you're doing
//#define ETH_SPI_HOST SPI3_HOST
//#define SPI_CLOCK_MHZ 25
// Must connect INT to GPIOxx or not working
//#define INT_GPIO 4
//#define MISO_GPIO 19
//#define MOSI_GPIO 23
//#define SCK_GPIO 18
//#define CS_GPIO 5
//////////////////////////////////////////////////////////
#include <AsyncUDP_ESP32_W6100.h>
/////////////////////////////////////////////
// Enter a MAC address and IP address for your controller below.
#define NUMBER_OF_MAC 20
byte mac[][NUMBER_OF_MAC] =
{
{ 0xDE, 0xAD, 0xBE, 0xEF, 0xFE, 0x01 },
{ 0xDE, 0xAD, 0xBE, 0xEF, 0xBE, 0x02 },
{ 0xDE, 0xAD, 0xBE, 0xEF, 0xFE, 0x03 },
{ 0xDE, 0xAD, 0xBE, 0xEF, 0xBE, 0x04 },
{ 0xDE, 0xAD, 0xBE, 0xEF, 0xFE, 0x05 },
{ 0xDE, 0xAD, 0xBE, 0xEF, 0xBE, 0x06 },
{ 0xDE, 0xAD, 0xBE, 0xEF, 0xFE, 0x07 },
{ 0xDE, 0xAD, 0xBE, 0xEF, 0xBE, 0x08 },
{ 0xDE, 0xAD, 0xBE, 0xEF, 0xFE, 0x09 },
{ 0xDE, 0xAD, 0xBE, 0xEF, 0xBE, 0x0A },
{ 0xDE, 0xAD, 0xBE, 0xEF, 0xFE, 0x0B },
{ 0xDE, 0xAD, 0xBE, 0xEF, 0xBE, 0x0C },
{ 0xDE, 0xAD, 0xBE, 0xEF, 0xFE, 0x0D },
{ 0xDE, 0xAD, 0xBE, 0xEF, 0xBE, 0x0E },
{ 0xDE, 0xAD, 0xBE, 0xEF, 0xFE, 0x0F },
{ 0xDE, 0xAD, 0xBE, 0xEF, 0xBE, 0x10 },
{ 0xDE, 0xAD, 0xBE, 0xEF, 0xFE, 0x11 },
{ 0xDE, 0xAD, 0xBE, 0xEF, 0xBE, 0x12 },
{ 0xDE, 0xAD, 0xBE, 0xEF, 0xFE, 0x13 },
{ 0xDE, 0xAD, 0xBE, 0xEF, 0xBE, 0x14 },
};
// Select the IP address according to your local network
IPAddress myIP(192, 168, 2, 232);
IPAddress myGW(192, 168, 2, 1);
IPAddress mySN(255, 255, 255, 0);
// Google DNS Server IP
IPAddress myDNS(8, 8, 8, 8);
/////////////////////////////////////////////
#include <time.h>
// 0.ca.pool.ntp.org
IPAddress timeServerIP = IPAddress(208, 81, 1, 244);
// time.nist.gov
//IPAddress timeServerIP = IPAddress(132, 163, 96, 1);
#define NTP_REQUEST_PORT 123
const int NTP_PACKET_SIZE = 48; // NTP timestamp is in the first 48 bytes of the message
byte packetBuffer[NTP_PACKET_SIZE]; // buffer to hold incoming and outgoing packets
// A UDP instance to let us send and receive packets over UDP
AsyncUDP Udp;
// send an NTP request to the time server at the given address
void createNTPpacket(void)
{
Serial.println("============= createNTPpacket =============");
// set all bytes in the buffer to 0
memset(packetBuffer, 0, NTP_PACKET_SIZE);
// Initialize values needed to form NTP request
// (see URL above for details on the packets)
packetBuffer[0] = 0b11100011; // LI, Version, Mode
packetBuffer[1] = 0; // Stratum, or type of clock
packetBuffer[2] = 6; // Polling Interval
packetBuffer[3] = 0xEC; // Peer Clock Precision
// 8 bytes of zero for Root Delay & Root Dispersion
packetBuffer[12] = 49;
packetBuffer[13] = 0x4E;
packetBuffer[14] = 49;
packetBuffer[15] = 52;
}
void parsePacket(AsyncUDPPacket packet)
{
struct tm ts;
char buf[80];
memcpy(packetBuffer, packet.data(), sizeof(packetBuffer));
Serial.print("Received UDP Packet Type: ");
Serial.println(packet.isBroadcast() ? "Broadcast" : packet.isMulticast() ? "Multicast" : "Unicast");
Serial.print("From: ");
Serial.print(packet.remoteIP());
Serial.print(":");
Serial.print(packet.remotePort());
Serial.print(", To: ");
Serial.print(packet.localIP());
Serial.print(":");
Serial.print(packet.localPort());
Serial.print(", Length: ");
Serial.print(packet.length());
Serial.println();
unsigned long highWord = word(packetBuffer[40], packetBuffer[41]);
unsigned long lowWord = word(packetBuffer[42], packetBuffer[43]);
// combine the four bytes (two words) into a long integer
// this is NTP time (seconds since Jan 1 1900):
unsigned long secsSince1900 = highWord << 16 | lowWord;
Serial.print(F("Seconds since Jan 1 1900 = "));
Serial.println(secsSince1900);
// now convert NTP time into )everyday time:
Serial.print(F("Epoch/Unix time = "));
// Unix time starts on Jan 1 1970. In seconds, that's 2208988800:
const unsigned long seventyYears = 2208988800UL;
// subtract seventy years:
unsigned long epoch = secsSince1900 - seventyYears;
time_t epoch_t = epoch; //secsSince1900 - seventyYears;
// print Unix time:
Serial.println(epoch);
// print the hour, minute and second:
Serial.print(F("The UTC/GMT time is ")); // UTC is the time at Greenwich Meridian (GMT)
ts = *localtime(&epoch_t);
strftime(buf, sizeof(buf), "%a %Y-%m-%d %H:%M:%S %Z", &ts);
Serial.println(buf);
}
void sendNTPPacket(void)
{
createNTPpacket();
//Send unicast
Udp.write(packetBuffer, sizeof(packetBuffer));
}
void setup()
{
Serial.begin(115200);
while (!Serial && (millis() < 5000));
Serial.print(F("\nStart AsyncUdpNTPClient on "));
Serial.print(ARDUINO_BOARD);
Serial.print(F(" with "));
Serial.println(SHIELD_TYPE);
Serial.println(WEBSERVER_ESP32_W6100_VERSION);
Serial.println(ASYNC_UDP_ESP32_W6100_VERSION);
Serial.setDebugOutput(true);
UDP_LOGWARN(F("Default SPI pinout:"));
UDP_LOGWARN1(F("SPI_HOST:"), ETH_SPI_HOST);
UDP_LOGWARN1(F("MOSI:"), MOSI_GPIO);
UDP_LOGWARN1(F("MISO:"), MISO_GPIO);
UDP_LOGWARN1(F("SCK:"), SCK_GPIO);
UDP_LOGWARN1(F("CS:"), CS_GPIO);
UDP_LOGWARN1(F("INT:"), INT_GPIO);
UDP_LOGWARN1(F("SPI Clock (MHz):"), SPI_CLOCK_MHZ);
UDP_LOGWARN(F("========================="));
///////////////////////////////////
// To be called before ETH.begin()
ESP32_W6100_onEvent();
// start the ethernet connection and the server:
// Use DHCP dynamic IP and random mac
//bool begin(int MISO_GPIO, int MOSI_GPIO, int SCLK_GPIO, int CS_GPIO, int INT_GPIO, int SPI_CLOCK_MHZ,
// int SPI_HOST, uint8_t *W6100_Mac = W6100_Default_Mac);
ETH.begin( MISO_GPIO, MOSI_GPIO, SCK_GPIO, CS_GPIO, INT_GPIO, SPI_CLOCK_MHZ, ETH_SPI_HOST );
//ETH.begin( MISO_GPIO, MOSI_GPIO, SCK_GPIO, CS_GPIO, INT_GPIO, SPI_CLOCK_MHZ, ETH_SPI_HOST, mac[millis() % NUMBER_OF_MAC] );
// Static IP, leave without this line to get IP via DHCP
//bool config(IPAddress local_ip, IPAddress gateway, IPAddress subnet, IPAddress dns1 = 0, IPAddress dns2 = 0);
//ETH.config(myIP, myGW, mySN, myDNS);
ESP32_W6100_waitForConnect();
///////////////////////////////////
// Client address
Serial.print("AsyncUdpNTPClient started @ IP address: ");
Serial.println(ETH.localIP());
//NTP requests are to port NTP_REQUEST_PORT = 123
if (Udp.connect(timeServerIP, NTP_REQUEST_PORT))
{
Serial.println("UDP connected");
Udp.onPacket([](AsyncUDPPacket packet)
{
parsePacket(packet);
});
}
}
void loop()
{
sendNTPPacket();
// wait 60 seconds before asking for the time again
delay(60000);
}


Debug Terminal Output Samples

1. AsyncUdpNTPClient on ESP32_DEV with ESP32_W6100

This is terminal debug output when running AsyncUdpNTPClient on ESP32_W6100 (ESP32 + W6100). It connects to NTP Server using AsyncUDP_ESP32_W6100 library, and requests NTP time every 60s. The packet is then received and processed asynchronously to print current UTC/GMT time.

Connect to NTP server 0.ca.pool.ntp.org (IP=208.81.1.244)
Start AsyncUdpNTPClient on ESP32_DEV with ESP32_W6100
WebServer_ESP32_W6100 v1.5.2 for core v2.0.0+
AsyncUDP_ESP32_W6100 v2.0.0 for core v2.0.0+

ETH Started
ETH Connected
ETH MAC: 0C:B8:15:D8:01:D7, IPv4: 192.168.2.34
FULL_DUPLEX, 100Mbps
AsyncUdpNTPClient started @ IP address: 192.168.2.34
UDP connected
============= createNTPpacket =============
Received UDP Packet Type: Unicast
From: 208.81.1.244:123, To: 192.168.2.34:58222, Length: 48
Seconds since Jan 1 1900 = 3882371790
Epoch/Unix time = 1673382990
The UTC/GMT time is Tue 2023-01-10 20:36:30 GMT

2. AsyncUDPSendReceive on ESP32_DEV with ESP32_W6100

This is terminal debug output when running AsyncUDPSendReceive on ESP32_W6100 (ESP32 + W6100). It connects to NTP Server 0.ca.pool.ntp.org (IP=208.81.1.244) using AsyncUDP_ESP32_W6100 library, and requests NTP time every 60s. The packet is received and processed asynchronously to print current UTC/GMT time. The ACK packet is then sent to give acknowledge to the NTP server

Start AsyncUDPSendReceive on ESP32_DEV with ESP32_W6100
WebServer_ESP32_W6100 v1.5.2 for core v2.0.0+
AsyncUDP_ESP32_W6100 v2.0.0 for core v2.0.0+

ETH Started
ETH Connected
ETH MAC: 0C:B8:15:D8:01:D7, IPv4: 192.168.2.34
FULL_DUPLEX, 100Mbps
AsyncUDPSendReceive started @ IP address: 192.168.2.34

Starting connection to server...
UDP connected
============= createNTPpacket =============
Received UDP Packet Type: Unicast
From: 208.81.1.244:123, To: 192.168.2.34:49861, Length: 48
Seconds since Jan 1 1900 = 3882372039
Epoch/Unix time = 1673383239
The UTC/GMT time is Tue 2023-01-10 20:40:39 GMT
============= sendACKPacket =============
============= createNTPpacket =============
Received UDP Packet Type: Unicast
From: 208.81.1.244:123, To: 192.168.2.34:49861, Length: 48
Seconds since Jan 1 1900 = 3882372098
Epoch/Unix time = 1673383298
The UTC/GMT time is Tue 2023-01-10 20:41:38 GMT
============= sendACKPacket =============


Debug

Debug is enabled by default on Serial. To disable, use level 0

#define ASYNC_UDP_ESP32_W6100_DEBUG_PORT      Serial

// Use from 0 to 4. Higher number, more debugging messages and memory usage.
#define _ASYNC_UDP_ESP32_W6100_LOGLEVEL_      1

You can also change the debugging level from 0 to 4

#define ASYNC_UDP_ESP32_W6100_DEBUG_PORT      Serial

// Use from 0 to 4. Higher number, more debugging messages and memory usage.
#define _ASYNC_UDP_ESP32_W6100_LOGLEVEL_      4

Troubleshooting

If you get compilation errors, more often than not, you may need to install a newer version of Arduino IDE, the Arduino ESP32 core or depending libraries.

Sometimes, the library will only work if you update the ESP32 core to the latest version because I am always using the latest cores /libraries.



Issues

Submit issues to: AsyncUDP_ESP32_W6100 issues


TO DO

  1. Fix bug. Add enhancement

DONE

  1. Initial port to to ESP32_W6100 (ESP32 + W6100)
  2. Add more examples
  3. Add debugging features
  4. Fix bug in ESP32_W6100 examples to reduce connection time
  5. Fix multiple-definitions linker error
  6. Add example multiFileProject to demo for multiple-file project


Contributions and Thanks

  1. Based on and modified from Hristo Gochkov's AsyncUDP. Many thanks to Hristo Gochkov for great AsyncUDP Library
me-no-dev
⭐️⭐️ Hristo Gochkov


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

  • The library is licensed under GPLv3

Copyright

Copyright (c) 2018- Hristo Gochkov

Copyright (c) 2023- Khoi Hoang