orion-iot/libs/ESP8266WiFi/examples/IPv6/IPv6.ino


/*
  arduino IPv6 example
  released to public domain

  output is like:

  SDK:2.2.1(cfd48f3)/Core:2.4.2-141-g4f97603/lwIP:IPv6+STABLE-2_1_0_RC1/glue:arduino-2.4.2-30-ga53619c/BearSSL:6d1cefc
  dns0=10.43.1.254
  Try me at these addresses:
  (with 'telnet <addr> or 'nc -u <addr> 23')
  IF='st'(0) IPv6=0 local=0 hostname='ipv6test' addr= 10.43.1.244 / mask:255.255.255.0 / gw:10.43.1.254
  IF='st'(0) IPv6=1 local=1 hostname='ipv6test' addr= fe80::1afe:34ff:fed1:cec7
  IF='st'(0) IPV6=1 local=0 hostname='ipv6test' addr= 2xxx:xxxx:xxxx:xxxx:1afe:34ff:fed1:cec7
  resolving www.google.com: 216.58.205.100
  resolving ipv6.google.com: 2a00:1450:4002:808::200e
*/

#include <ESP8266WiFi.h>
#include <WiFiUdp.h>
#include <PolledTimeout.h>
#include <AddrList.h>
#include <lwip/dns.h>

#ifndef STASSID
#define STASSID "your-ssid"
#define STAPSK  "your-password"
#endif

#define FQDN  F("www.google.com") // with both IPv4 & IPv6 addresses
#define FQDN6 F("ipv6.google.com") // does not resolve in IPv4
#define STATUSDELAY_MS 10000
#define TCP_PORT 23
#define UDP_PORT 23

WiFiServer statusServer(TCP_PORT);
WiFiUDP udp;
esp8266::polledTimeout::periodic statusPeriod(STATUSDELAY_MS);

void fqdn(Print& out, const String& fqdn) {
  out.print(F("resolving "));
  out.print(fqdn);
  out.print(F(": "));
  IPAddress result;
  if (WiFi.hostByName(fqdn.c_str(), result)) {
    result.printTo(out);
    out.println();
  } else {
    out.println(F("timeout or not found"));
  }
}

void status(Print& out) {
  out.println(F("------------------------------"));
  out.println(ESP.getFullVersion());

  for (int i = 0; i < DNS_MAX_SERVERS; i++) {
    IPAddress dns = WiFi.dnsIP(i);
    if (dns.isSet()) {
      out.printf("dns%d: %s\n", i, dns.toString().c_str());
    }
  }

  out.println(F("Try me at these addresses:"));
  out.println(F("(with 'telnet <addr> or 'nc -u <addr> 23')"));
  for (auto a : addrList) {
    out.printf("IF='%s' IPv6=%d local=%d hostname='%s' addr= %s",
               a.ifname().c_str(),
               a.isV6(),
               a.isLocal(),
               a.ifhostname(),
               a.toString().c_str());

    if (a.isLegacy()) {
      out.printf(" / mask:%s / gw:%s",
                 a.netmask().toString().c_str(),
                 a.gw().toString().c_str());
    }

    out.println();

  }

  // lwIP's dns client will ask for IPv4 first (by default)
  // an example is provided with a fqdn which does not resolve with IPv4
  fqdn(out, FQDN);
  fqdn(out, FQDN6);

  out.println(F("------------------------------"));
}

void setup() {
  WiFi.hostname("ipv6test");

  Serial.begin(115200);
  Serial.println();
  Serial.println(ESP.getFullVersion());

#if LWIP_IPV6
  Serial.printf("IPV6 is enabled\n");
#else
  Serial.printf("IPV6 is not enabled\n");
#endif

  WiFi.mode(WIFI_STA);
  WiFi.begin(STASSID, STAPSK);

  status(Serial);

#if 0 // 0: legacy connecting loop - 1: wait for IPv6

  // legacy loop (still valid with IPv4 only)

  while (WiFi.status() != WL_CONNECTED) {
    Serial.print('.');
    delay(500);
  }

#else

  // Use this loop instead to wait for an IPv6 routable address

  // addr->isLocal() (meaning "not routable on internet") is true with:
  // - IPV4 DHCP autoconfigured address 169.254.x.x
  //   (false for any other including 192.168./16 and 10./24 since NAT may be in the equation)
  // - IPV6 link-local addresses (fe80::/64)

  for (bool configured = false; !configured;) {
    for (auto addr : addrList)
      if ((configured = !addr.isLocal()
                        // && addr.isV6() // uncomment when IPv6 is mandatory
                        // && addr.ifnumber() == STATION_IF
          )) {
        break;
      }
    Serial.print('.');
    delay(500);
  }

#endif

  Serial.println(F("connected: "));

  statusServer.begin();
  udp.begin(UDP_PORT);

  Serial.print(F("TCP server on port "));
  Serial.print(TCP_PORT);
  Serial.print(F(" - UDP server on port "));
  Serial.println(UDP_PORT);

  statusPeriod.reset();
}

unsigned long statusTimeMs = 0;

void loop() {

  if (statusServer.hasClient()) {
    WiFiClient cli = statusServer.available();
    status(cli);
  }

  // if there's data available, read a packet
  int packetSize = udp.parsePacket();
  if (packetSize) {
    Serial.print(F("udp received "));
    Serial.print(packetSize);
    Serial.print(F(" bytes from "));
    udp.remoteIP().printTo(Serial);
    Serial.print(F(" :"));
    Serial.println(udp.remotePort());
    int  c;
    while ((c = udp.read()) >= 0) {
      Serial.write(c);
    }

    // send a reply, to the IP address and port that sent us the packet we received
    udp.beginPacket(udp.remoteIP(), udp.remotePort());
    status(udp);
    udp.endPacket();
  }


  if (statusPeriod) {
    status(Serial);
  }

}
Init DHT11 Project Prototype Complete 4 years ago
			`/*`
			`arduino IPv6 example`
			`released to public domain`

			`output is like:`

			`SDK:2.2.1(cfd48f3)/Core:2.4.2-141-g4f97603/lwIP:IPv6+STABLE-2_1_0_RC1/glue:arduino-2.4.2-30-ga53619c/BearSSL:6d1cefc`
			`dns0=10.43.1.254`
			`Try me at these addresses:`
			`(with 'telnet <addr> or 'nc -u <addr> 23')`
			`IF='st'(0) IPv6=0 local=0 hostname='ipv6test' addr= 10.43.1.244 / mask:255.255.255.0 / gw:10.43.1.254`
			`IF='st'(0) IPv6=1 local=1 hostname='ipv6test' addr= fe80::1afe:34ff:fed1:cec7`
			`IF='st'(0) IPV6=1 local=0 hostname='ipv6test' addr= 2xxx:xxxx:xxxx:xxxx:1afe:34ff:fed1:cec7`
			`resolving www.google.com: 216.58.205.100`
			`resolving ipv6.google.com: 2a00:1450:4002:808::200e`
			`*/`

			`#include <ESP8266WiFi.h>`
			`#include <WiFiUdp.h>`
			`#include <PolledTimeout.h>`
			`#include <AddrList.h>`
			`#include <lwip/dns.h>`

			`#ifndef STASSID`
			`#define STASSID "your-ssid"`
			`#define STAPSK "your-password"`
			`#endif`

			`#define FQDN F("www.google.com") // with both IPv4 & IPv6 addresses`
			`#define FQDN6 F("ipv6.google.com") // does not resolve in IPv4`
			`#define STATUSDELAY_MS 10000`
			`#define TCP_PORT 23`
			`#define UDP_PORT 23`

			`WiFiServer statusServer(TCP_PORT);`
			`WiFiUDP udp;`
			`esp8266::polledTimeout::periodic statusPeriod(STATUSDELAY_MS);`

			`void fqdn(Print& out, const String& fqdn) {`
			`out.print(F("resolving "));`
			`out.print(fqdn);`
			`out.print(F(": "));`
			`IPAddress result;`
			`if (WiFi.hostByName(fqdn.c_str(), result)) {`
			`result.printTo(out);`
			`out.println();`
			`} else {`
			`out.println(F("timeout or not found"));`
			`}`
			`}`

			`void status(Print& out) {`
			`out.println(F("------------------------------"));`
			`out.println(ESP.getFullVersion());`

			`for (int i = 0; i < DNS_MAX_SERVERS; i++) {`
			`IPAddress dns = WiFi.dnsIP(i);`
			`if (dns.isSet()) {`
			`out.printf("dns%d: %s\n", i, dns.toString().c_str());`
			`}`
			`}`

			`out.println(F("Try me at these addresses:"));`
			`out.println(F("(with 'telnet <addr> or 'nc -u <addr> 23')"));`
			`for (auto a : addrList) {`
			`out.printf("IF='%s' IPv6=%d local=%d hostname='%s' addr= %s",`
			`a.ifname().c_str(),`
			`a.isV6(),`
			`a.isLocal(),`
			`a.ifhostname(),`
			`a.toString().c_str());`

			`if (a.isLegacy()) {`
			`out.printf(" / mask:%s / gw:%s",`
			`a.netmask().toString().c_str(),`
			`a.gw().toString().c_str());`
			`}`

			`out.println();`

			`}`

			`// lwIP's dns client will ask for IPv4 first (by default)`
			`// an example is provided with a fqdn which does not resolve with IPv4`
			`fqdn(out, FQDN);`
			`fqdn(out, FQDN6);`

			`out.println(F("------------------------------"));`
			`}`

			`void setup() {`
			`WiFi.hostname("ipv6test");`

			`Serial.begin(115200);`
			`Serial.println();`
			`Serial.println(ESP.getFullVersion());`

			`#if LWIP_IPV6`
			`Serial.printf("IPV6 is enabled\n");`
			`#else`
			`Serial.printf("IPV6 is not enabled\n");`
			`#endif`

			`WiFi.mode(WIFI_STA);`
			`WiFi.begin(STASSID, STAPSK);`

			`status(Serial);`

			`#if 0 // 0: legacy connecting loop - 1: wait for IPv6`

			`// legacy loop (still valid with IPv4 only)`

			`while (WiFi.status() != WL_CONNECTED) {`
			`Serial.print('.');`
			`delay(500);`
			`}`

			`#else`

			`// Use this loop instead to wait for an IPv6 routable address`

			`// addr->isLocal() (meaning "not routable on internet") is true with:`
			`// - IPV4 DHCP autoconfigured address 169.254.x.x`
			`// (false for any other including 192.168./16 and 10./24 since NAT may be in the equation)`
			`// - IPV6 link-local addresses (fe80::/64)`

			`for (bool configured = false; !configured;) {`
			`for (auto addr : addrList)`
			`if ((configured = !addr.isLocal()`
			`// && addr.isV6() // uncomment when IPv6 is mandatory`
			`// && addr.ifnumber() == STATION_IF`
			`)) {`
			`break;`
			`}`
			`Serial.print('.');`
			`delay(500);`
			`}`

			`#endif`

			`Serial.println(F("connected: "));`

			`statusServer.begin();`
			`udp.begin(UDP_PORT);`

			`Serial.print(F("TCP server on port "));`
			`Serial.print(TCP_PORT);`
			`Serial.print(F(" - UDP server on port "));`
			`Serial.println(UDP_PORT);`

			`statusPeriod.reset();`
			`}`

			`unsigned long statusTimeMs = 0;`

			`void loop() {`

			`if (statusServer.hasClient()) {`
			`WiFiClient cli = statusServer.available();`
			`status(cli);`
			`}`

			`// if there's data available, read a packet`
			`int packetSize = udp.parsePacket();`
			`if (packetSize) {`
			`Serial.print(F("udp received "));`
			`Serial.print(packetSize);`
			`Serial.print(F(" bytes from "));`
			`udp.remoteIP().printTo(Serial);`
			`Serial.print(F(" :"));`
			`Serial.println(udp.remotePort());`
			`int c;`
			`while ((c = udp.read()) >= 0) {`
			`Serial.write(c);`
			`}`

			`// send a reply, to the IP address and port that sent us the packet we received`
			`udp.beginPacket(udp.remoteIP(), udp.remotePort());`
			`status(udp);`
			`udp.endPacket();`
			`}`


			`if (statusPeriod) {`
			`status(Serial);`
			`}`

			`}`