Prvni ulozeni puvodniho kodu.

WiFiConfig.cpp

@@ -0,0 +1,782 @@
+/*
+ * V5.4 - 9.1.2018 - na titulni stranku pridan duvod, proc je spusteny konfiguracni AP. Usnadni to diagnostiku pripadu, kdy se ESP nechce pripojit k AP.
+ *
+ * V5.3 - 8.12.2017 - prepracovano presmerovani v Captive portalu, DEBUG_MSG makro upraveno na posledni pouzivanou verzi, scitani retezcu prepracovano na .concat. Pripsany Informace o modulu, reakce na Reset
+ *
+ * V5.2 - 20.4.2017 - Pokud je pouzite v timeoutu EC_DONT_RUN_CONFIGAP tak se vracime okamzite a necekame na pripojeni k WiFi (take nevolame zadnou callback metodu).
+ * 					  Navratovy kod je pak WCR_CONFIGAP_NOT_STARTED .
+ *
+ * V5.1 - 3.4.2017  - Webove rozhrani upravene pro snadnejsi ovladani na telefonu/tabletu, sila signalu AP zobrazena jako barevne odliseny indikator.
+ *
+ * V5.0 - 29.10.2016- Vyuziti vlastnosti ESP, ktere si uklada wifi konfiguraci do sve vlastni flash oblasti, takze nemusim vse konfigurovat znovu po startu - doufam, ze se tim zrychli asociace s AP
+ * 					  kvuli bateriove napajenym pristrojum.
+ *
+ * V4.7 - 30.8.2016 - Metody .begin se nyni vraci s wificonfigresult_t (podarilo se pripojit k AP, nepodarilo se pripojit a vyprsel timeout pro konfiguracni AP, nepodarilo se pripojit, ale je zakazane spousteni konfiguracniho AP).
+ *					  ESP NYNI NENI RESETOVAN PO VYPRSENI TIMEOUTU!!!! Je to kvuli bateriovym cidlum a DeepSleep rezimu v situaci, kdy zmizi AP, ke kteremu se bezne pripojujeme
+ *					  Odstraneno odesilani reakce na generate_204 (viz. https://github.com/tzapu/WiFiManager/issues/114)
+ *					  Zbytek MAC adresy v pripadnem SSID je nyni vzdy velkymi pismeny (UAA Unique Address Assignment)
+ *					  Kvalita signalu jednotlivych AP je nyni uvadena v % namisto uzivatelum nic nerikajicich -dBm
+ *					  Pokud do polozky timeout v .begin() metode zadame hodnotu WC_DONT_RUN_CONFIGAP, tak i po neuspesnem pokusu o pripojeni do site NENI spusteny konfiguracni AP (bateriove pristroje, stale bezici pristroje)
+ *
+ * V4.6 - 26.7.2016 - Moznost nastavit cislo kanalu pro rezim AP, nove eye-candy rozhrani.
+ *
+ * V4.5 - 20.7.2016 - Moznost konfigurovat cislo kanalu pro nastavovaci AP (default je 3), po nacteni konfiguracni stranky je nastaveny timeout na 6 minut, pokud je ve jmenu SSID pro konfiguracni
+ *					  AP znak ? (otaznik), tak je tento nahrazen HEXASCII reprezentaci 3 poslednich bytu MAC adresy AP (POZOR!!! je jina, nez STA!!!)
+ *
+ * V4.4 - 10.7.2016 - Zmena nazvu vsech privatnich metod (doplnene uvodni podtrzitko _). Pokud tam nebylo, tak napriklad nesel prelozit skript s handleNotFound pokud nebyl dopredne deklarovany (asi zmatek v Arduino preprocesoru)
+ *
+ * V4.3 - 23.6.2016 - Kazde nacteni webove stranky prodluzuje pripadny timeout pro restart zarizeni.
+ *
+ * V4.2 - 10.6.2016 - DNSServer a WebServer ukazatele jsou nyni staticke primo v modulu WiFiConfig. Predchozi verze neumoznila soucasne pouziti s knihovnami ESPAsyncWebServer z duvodu kolize nekterych definic HTTP metod
+ *
+ * V4.1 - 18.5.2016 - Nenechame SDK ukladat WiFi konfiguraci do Flash (setrime prepisy)
+ *
+ * V4.0 - 10.4.2016 - pridana moznost staticke konfigurace ip parametru. POZOR!!!! ukladani dat do EEPROM (verejne funkce) nyni nevolaji automaticky commit() kvuli snizeni poctu prepisu Flash EEPROM
+ * 					  pridana moznost timeoutu pro konfiguracni AP. Pokud timeout vyprsi, tak se zarizeni automaticky restartuje, coz vyvola novy pokus o pripojeni.
+ *
+ * V3.0 - 27.2.2016 - pridana presmerovavaci stranka kvuli Captive portalu, doplneno servirovani favicon.ico, doplnena moznost zadavani uzivatelskych parametru, www server a DNS server jsou dynamicky vytvareny
+ *
+ * V2.4 - 7.2.2016  - upraveno casovani pri pripojovani k AP (zmizel delay(100))
+ *
+ * V2.3 - 5.2.2016  - pridano zverejneni jmena hosta a nastaveni tohoto jmena pro DHCP apod.
+ *
+ * V2.2 - 19.1.2016 - pridan Captive portal pri konfiguracnim AP.
+ *
+ * V2.1 - 20.9.2015 - pridano zadavani jmena zarizeni. Modul ho sice nevyuziva, ale aplikace ano a v pripade DHCP se dost hodi.
+ *
+ * V2.0 - 30.8.2015 - Podstatnym zpusobem vylepsena signalizace vnitrniho stavu, presunuto ulozeni rezimu (commit je uz zbytecny - udela se pri ukladani retezcu - uspora kodu/setreni prepisu pameti Flash)
+ *
+ * V1.2 - 23.8.2015 - BugFix - pridan chybejici eeprom.commit() po ulozeni rezimu prace
+ *
+ * V1.1 - 5.8.2015 - pridana moznost volani callback metody pri behu konfiguracniho AP (signalizace stavu uzivatelskym zpusobem)
+ *
+ * V1.0 - publikace na www.xpablo.cz
+ *
+ * TODO:
+ * Prejit na pripojovani pomoci vnitrnich mechanizmu SDK ESP - zvysi se tim rychlost pripojeni kvuli bateriovym zarizenim
+ */
+
+#include "WiFiConfig.h"
+#include <ESP8266WebServer.h>
+#include <DNSServer.h>
+#include <EEPROM.h>
+#include <Ticker.h>
+#include "embHTML.h"
+
+#ifdef DEBUG_ESP_PORT
+ #define DEBUG_MSG(_1, ...) DEBUG_ESP_PORT.printf_P(PSTR(_1), ##__VA_ARGS__)
+#else
+ #define DEBUG_MSG(...)
+#endif
+
+extern "C" {
+  #include "user_interface.h"
+}
+
+#define DNS_PORT 53
+
+char WiFiDeviceName[elementSize(wificonfigarea_t, devname)]; // misto pro jmeno zarizeni (dodane do DNS, DHCP NBNS apod...)
+
+enum
+{
+	WIFIMODE_AP = WIFI_AP, // rezim prace jako pristupovy bod (AP)
+	WIFIMODE_STA = WIFI_STA, // rezim prace jako klient
+	WIFIMODE_AP_STA = WIFI_AP_STA // rezim prace jako klient i pristupovy bod
+};
+
+enum
+{
+	IPCONFIG_DHCP = 0x55, // DHCP konfigurace ip adres (default)
+	IPCONFIG_STATIC = 0xaa // staticka konfigurace ip adres
+};
+
+static int configBase; // musi byt trvale ulozene, aby fungovaly metody pro ziskani retezcu z EEPROM
+
+static std::unique_ptr<DNSServer>        dnsServer;
+static std::unique_ptr<ESP8266WebServer> server;
+static std::unique_ptr<Ticker> rsttick;
+
+const char VALUE[] PROGMEM = "value='";
+const char CHECKED[] PROGMEM = "checked='checked'";
+
+IPAddress getOurIP(void)
+{
+	IPAddress ipa;
+	WiFiMode_t wm = WiFi.getMode();
+
+	switch (wm)
+	{
+	case WIFI_STA:
+	  ipa = WiFi.localIP();
+	break;
+
+	case WIFI_AP:
+	  ipa = WiFi.softAPIP();
+	break;
+
+	default:
+	  ipa = IPAddress(0,0,0,0); // nelze urcit ip adresu (bud je AP + STA aktivni, nebo je vypnute WiFi)
+	break;
+	}
+	return ipa;
+}
+
+uint8_t * getOurMAC(uint8_t *mac)
+{
+
+	if (WIFIMODE_STA == EEPROM.read(configBase + offsetof(wificonfigarea_t, mode)))
+		return WiFi.macAddress(mac);
+	else
+		return WiFi.softAPmacAddress(mac);
+}
+
+uint32_t getEEPROMuint32(int start)
+{
+	uint32_t result = 0;
+
+	for (int i=0; i<4; ++i)
+	{
+		result <<= 8;
+		result += EEPROM.read(start);
+		++start;
+	}
+	return result;
+}
+
+void setEEPROMuint32(int start, uint32_t val)
+{
+
+	for (int i=0; i<4; ++i)
+	{
+		EEPROM.write(start + 3 - i, (uint8_t)val);
+		val >>= 8;
+	}
+}
+
+String getEEPROMString(int start, int len)
+{
+  String string = "";
+
+  for (int i = start; i < + start + len; ++i)
+  {
+    uint8_t b = EEPROM.read(i);
+
+    if ((0xff == b) || (0 == b))
+      break;
+    string.concat(char(b));
+  }
+  return string;
+}
+
+void setEEPROMString(int start, int len, String string)
+{
+  int si = 0;
+
+  for (int i = start; i < start + len; ++i)
+  {
+    char c;
+
+    if (si < string.length())
+    {
+      c = string[si];
+    }
+    else
+    {
+      c = 0;
+    }
+    EEPROM.write(i, c);
+    ++si;
+  }
+}
+
+WiFiConfigUsrParameter::WiFiConfigUsrParameter(const char *id, const char *label, const char *defaultValue, int length, storeparam_cb cb)
+{
+  _next = NULL;
+  _cb = cb;
+  _id = id;
+  _label = label;
+  _length = length;
+  _value = new char[length + 1];
+  for (int i = 0; i < length; i++)
+  {
+    _value[i] = 0;
+  }
+  if (defaultValue != NULL)
+  {
+    strncpy(_value, defaultValue, length);
+  }
+}
+
+const char* WiFiConfigUsrParameter::getValue()
+{
+
+  return _value;
+}
+
+const char* WiFiConfigUsrParameter::getID()
+{
+
+  return _id;
+}
+
+const char* WiFiConfigUsrParameter::getLabel()
+{
+
+  return _label;
+}
+
+int WiFiConfigUsrParameter::getValueLength()
+{
+
+  return _length;
+}
+
+void WiFiConfigUsrParameter::setNext(WiFiConfigUsrParameter *n)
+{
+
+  _next = n;
+}
+
+WiFiConfigUsrParameter *WiFiConfigUsrParameter::getNext()
+{
+
+  return _next;
+}
+
+void WiFiConfigUsrParameter::setNewValue(const char *newval)
+{
+
+	if (0 != strcmp(_value, newval))
+		_cb(newval);
+}
+
+WiFiConfigUsrParameter *WiFiConfig::_searchUsrParameter(const char *name)
+{
+  WiFiConfigUsrParameter *ptr = _params;
+
+  while (NULL != ptr)
+  {
+  	if (0 == strcmp(name, ptr->getID()))
+  		break;
+  	ptr = ptr->getNext();
+  }
+  return ptr;
+}
+
+void WiFiConfig::addParameter(WiFiConfigUsrParameter *p)
+{
+	p->setNext(_params);
+	_params = p;
+}
+
+void WiFiConfig::_handleNotFound(void)
+{
+
+//	_time = millis() + (_timeout * 1000); // spocitame si novy cas, kdy budeme modul restartovat
+	DEBUG_MSG("Requested URI: %s\r\n", server->uri().c_str());
+
+	if (server->uri().endsWith(String(F("favicon.ico"))))
+	{
+   		server->send(404, F("text/plain"), F("Err"));
+	}
+  else
+	{
+    	server->sendHeader(F("Location"), String(F("http://")) + server->client().localIP().toString() + String(F("/index.htm")), true);
+//      server->sendHeader(F("Location"), String(F("http://")) + WiFi.softAPIP().toString() + String(F("/index.htm")), true);
+    	server->send (302, F("text/plain"), F("Redirect"));
+	}
+}
+
+void WiFiConfig::_handleReset(void)
+{
+
+  rsttick.reset(new(Ticker));
+
+  rsttick->once_ms(700, []()
+  {
+    ESP.restart();
+  });
+
+  server->send_P(200, TEXTHTML, PAGE_RESTART);
+}
+
+void WiFiConfig::_handleInfo(void)
+{
+  String reply;
+
+  reply.reserve(3000);
+
+  reply = FPSTR(PAGE_INDEX1);
+  reply.concat(F("<form><table><TR><TH>System Info<TH>"));
+
+  reply.concat(F("<TR><TD>Core Version:<TD>"));
+  reply.concat(ESP.getCoreVersion());
+
+  reply.concat(F("<TR><TD>Flash Size:<TD>"));
+  reply.concat(ESP.getFlashChipRealSize() / 1024);
+  reply.concat(F(" kB"));
+
+  reply.concat(F("<TR><TD>Sketch Size/Free:<TD>"));
+  reply.concat(ESP.getSketchSize() / 1024);
+  reply.concat(F(" kB / "));
+  reply.concat(ESP.getFreeSketchSpace() / 1024);
+  reply.concat(F(" kB"));
+
+  reply.concat(F("<TR><TD>STA MAC:<TD>"));
+  uint8_t mac[] = {0, 0, 0, 0, 0, 0};
+  uint8_t* macread = WiFi.macAddress(mac);
+  char macaddress[20];
+  sprintf_P(macaddress, PSTR("%02x:%02x:%02x:%02x:%02x:%02x"), macread[0], macread[1], macread[2], macread[3], macread[4], macread[5]);
+  reply.concat(macaddress);
+
+  reply.concat(F("<TR><TD>AP MAC:<TD>"));
+  macread = WiFi.softAPmacAddress(mac);
+  sprintf_P(macaddress, PSTR("%02x:%02x:%02x:%02x:%02x:%02x"), macread[0], macread[1], macread[2], macread[3], macread[4], macread[5]);
+  reply.concat(macaddress);
+
+  reply.concat(F("<TR><TD>ESP Chip ID:<TD>"));
+  reply.concat(ESP.getChipId());
+
+  reply.concat(F("<TR><TD>Flash Chip ID:<TD>"));
+  reply.concat(ESP.getFlashChipId());
+
+  reply.concat(F("</table></form>"));
+  server->send(200, TEXTHTML, reply);
+}
+
+void WiFiConfig::_handleRoot(void)
+{
+  String content;
+
+  content.reserve(3000);
+  content = FPSTR(PAGE_CAPTIVEPORTALCATCH); // 1. cast stranky
+// pridame informaci o stavu pokusu o pripojeni
+  content.concat(F("<div class=\"vl-info\">Pokus o připojení: "));
+  switch (_status)
+  {
+  case STATION_IDLE:
+    content.concat(F("Klid"));
+  break;
+
+  case STATION_CONNECTING:
+    content.concat(F("Připojování"));
+  break;
+
+  case STATION_WRONG_PASSWORD:
+    content.concat(F("Špatné heslo"));
+  break;
+
+  case STATION_NO_AP_FOUND:
+    content.concat(F("AP nenalezen"));
+  break;
+
+  case STATION_CONNECT_FAIL:
+    content.concat(F("Připojení selhalo"));
+  break;
+
+  case STATION_GOT_IP:
+    content.concat(F("Získaná ip"));
+  break;
+
+  case 0xfe:
+    content.concat(F("Špatná EEPROM"));
+  break;
+
+  case 0xff:
+    content.concat(F("Vynucená konfigurace"));
+  break;
+
+  default:
+    content.concat(F("Neznámého"));
+  break;
+  }
+  content.concat(F("</div>"));
+  content.concat(FPSTR(PAGE_CAPTIVEPORTALCATCH2)); // 2. cast stranky (ukonceni)
+  server->send(200, TEXTHTML, content);
+	_time = millis() + (_timeout * 1000); // spocitame si novy cas, kdy budeme modul restartovat
+}
+
+void WiFiConfig::_handleDisplayAP(void)
+{
+	String s;
+	String v;
+	String content;
+
+	_time = millis() + (360 * 1000); // spocitame si novy cas, kdy budeme modul restartovat (6 minut)
+  content.reserve(3000);
+	content = FPSTR(PAGE_INDEX1);
+	int n = WiFi.scanNetworks();
+	if (0 == n)
+	{
+		content.concat(FPSTR(PAGE_NO_SSID));
+	}
+	else
+	{
+		for (int i = 0; i < n; ++i)
+		{
+		  int quality;
+
+  		if (WiFi.RSSI(i) <= -100)
+    		quality = 0;
+  		else if (WiFi.RSSI(i) >= -50)
+    		quality = 100;
+  		else
+    		quality = 2 * (WiFi.RSSI(i) + 100);
+
+			s = FPSTR(SSID_ITEM);
+			s.replace(F("{v}"), WiFi.SSID(i));
+			s.replace(F("{a}"), String(quality));
+			s.replace(F("{s}"), (ENC_TYPE_NONE == WiFi.encryptionType(i)) ? F("") : F("l"));
+			content.concat(s);
+		}
+	}
+	s = FPSTR(PAGE_INDEX2);
+	v = getEEPROMString(configBase + offsetof(wificonfigarea_t, ssid), elementSize(wificonfigarea_t, ssid));
+	if (v.length())
+		s.replace(F("{s}"), String(FPSTR(VALUE)) + v + F("'"));
+	else
+		s.replace(F("{s}"), F("placeholder='SSID'"));
+	v = getEEPROMString(configBase + offsetof(wificonfigarea_t, pass), elementSize(wificonfigarea_t, pass));
+	if (v.length())
+		s.replace(F("{p}"), String(FPSTR(VALUE)) + v + F("'"));
+	else
+		s.replace(F("{p}"), F("placeholder='password'"));
+	v = getEEPROMString(configBase + offsetof(wificonfigarea_t, devname), elementSize(wificonfigarea_t, devname));
+	if (v.length())
+		s.replace(F("{n}"), String(FPSTR(VALUE)) + v + F("'"));
+	else
+		s.replace(F("{n}"), F("placeholder='name'"));
+	if (EEPROM.read(configBase + offsetof(wificonfigarea_t, mode)) == WIFIMODE_AP)
+		s.replace(F("{a}"), FPSTR(CHECKED));
+	else
+		s.replace(F("{a}"), F(""));
+	if (EEPROM.read(configBase + offsetof(wificonfigarea_t, ip)) == IPCONFIG_STATIC)
+		s.replace(F("{c}"), FPSTR(CHECKED));
+	else
+		s.replace(F("{c}"), F(""));
+	s.replace(F("{i}"), IPAddress(getEEPROMuint32(configBase + offsetof(wificonfigarea_t, ipaddr))).toString());
+	s.replace(F("{m}"), IPAddress(getEEPROMuint32(configBase + offsetof(wificonfigarea_t, netmask))).toString());
+	s.replace(F("{g}"), IPAddress(getEEPROMuint32(configBase + offsetof(wificonfigarea_t, gateway))).toString());
+	s.replace(F("{d}"), IPAddress(getEEPROMuint32(configBase + offsetof(wificonfigarea_t, dns))).toString());
+
+	uint8_t chan = EEPROM.read(configBase + offsetof(wificonfigarea_t, apchannel));
+	if ((chan < 1) || (chan > 13))
+		chan = 1; // neplatne cislo kanalu nahradime nejnizsim
+	s.replace(F("{ch}"), String(chan));
+
+	content.concat(s);
+
+// Uzivatelske parametry
+	if (_params)
+	{
+		content.concat(FPSTR(PAGE_PARAM_HDR));
+	}
+
+	WiFiConfigUsrParameter *up = _params;
+
+	while (NULL != up)
+	{
+		s = FPSTR(PAGE_PARAM);
+		s.replace(F("{t}"), up->getLabel());
+		s.replace(F("{n}"), up->getID());
+		s.replace(F("{l}"), String(up->getValueLength()));
+		s.replace(F("{v}"), up->getValue());
+		content.concat(s);
+		up = up->getNext();
+	}
+
+	content.concat(FPSTR(PAGE_END));
+	server->send(200, TEXTHTML, content);
+}
+
+// Deal with (potentially) plus-encoded ssid/pass
+void WiFiConfig::_plusDecode(String &s)
+{
+
+	for (int i = 0; i < s.length(); i++)
+		s[i] = (s[i] == '+' ? ' ' : s[i]);
+}
+
+void WiFiConfig::_handleSetAP(void)
+{
+	uint8_t mode;
+	String str;
+
+	str.reserve(128);
+	str = server->arg(F("_s"));
+	if (str.length() > 0)
+	{
+		_plusDecode(str);
+		setEEPROMString(configBase + offsetof(wificonfigarea_t, ssid), elementSize(wificonfigarea_t, ssid), str);
+
+		str = server->arg(F("_p"));
+		_plusDecode(str);
+		setEEPROMString(configBase + offsetof(wificonfigarea_t, pass), elementSize(wificonfigarea_t, pass), str);
+
+		str = server->arg(F("_n"));
+		setEEPROMString(configBase + offsetof(wificonfigarea_t, devname), elementSize(wificonfigarea_t, devname), str);
+
+		str = server->arg(F("_a"));
+		if (str.length() > 0)
+		{
+			mode = WIFIMODE_AP; // rezim AP
+			str = server->arg(F("_ch")); // kanal AP
+			EEPROM.write(configBase + offsetof(wificonfigarea_t, apchannel), (uint8_t)str.toInt());
+		}
+		else
+			mode = WIFIMODE_STA; // rezim STA
+		EEPROM.write(configBase + offsetof(wificonfigarea_t, mode), mode);
+
+		str = server->arg(F("_st"));
+		if (0 == str.length())
+			EEPROM.write(configBase + offsetof(wificonfigarea_t, ip), IPCONFIG_DHCP); // mame DHCP dynamickou konfiguraci
+		else
+		{ // staticka ip konfigurace
+			IPAddress ipa;
+
+			EEPROM.write(configBase + offsetof(wificonfigarea_t, ip), IPCONFIG_STATIC);
+			str = server->arg(F("_i"));
+			ipa.fromString(str);
+			setEEPROMuint32(configBase + offsetof(wificonfigarea_t, ipaddr), (uint32_t) ipa);
+
+			str = server->arg(F("_m"));
+			ipa.fromString(str);
+			setEEPROMuint32(configBase + offsetof(wificonfigarea_t, netmask), (uint32_t) ipa);
+
+			str = server->arg(F("_g"));
+			ipa.fromString(str);
+			setEEPROMuint32(configBase + offsetof(wificonfigarea_t, gateway), (uint32_t) ipa);
+
+			str = server->arg(F("_d"));
+			ipa.fromString(str);
+			setEEPROMuint32(configBase + offsetof(wificonfigarea_t, dns), (uint32_t) ipa);
+		}
+
+// Uzivatelske parametry
+		for (int i = 0; i < server->args(); i++)
+		{
+			if (!server->argName(i).startsWith(F("_"))) // vnitrni parametry WiFiConfig modulu zacinaji _, takze ty muzeme ignorovat
+			{
+				WiFiConfigUsrParameter *up = _searchUsrParameter(server->argName(i).c_str());
+				if (NULL != up)
+					up->setNewValue(server->arg(i).c_str());
+			}
+		}
+		EEPROM.commit(); // skutecne ulozime data
+	}
+	server->send(200, F("text/html"), FPSTR(PAGE_SAVED));
+	delay(2000); // cekame na odeslani dat
+// nakonfigurujeme ESP dle nove nastavenych parametru
+	WiFi.disconnect(); // vsechno odpojime
+	WiFi.persistent(true); // chceme, aby si modul zapamatoval konfiguraci
+
+	String s = getEEPROMString(configBase + offsetof(wificonfigarea_t, devname), elementSize(wificonfigarea_t, devname));
+	strcpy(WiFiDeviceName, s.c_str());
+	s = getEEPROMString(configBase + offsetof(wificonfigarea_t, ssid), elementSize(wificonfigarea_t, ssid));
+	String pass =  getEEPROMString(configBase + offsetof(wificonfigarea_t, pass), elementSize(wificonfigarea_t, pass));
+
+	switch (EEPROM.read(configBase + offsetof(wificonfigarea_t, mode)))
+	{
+		case WIFIMODE_STA:
+		{
+			DEBUG_MSG("STA mode.\r\n");
+			WiFi.mode(WIFI_STA); // startujeme WiFi v rezimu klienta
+      if (strlen(WiFiDeviceName))
+        WiFi.hostname(WiFiDeviceName); // nastavime jmeno zarizeni
+			WiFi.begin(s.c_str(), pass.c_str());
+			if (IPCONFIG_STATIC == EEPROM.read(configBase + offsetof(wificonfigarea_t, ip)))
+			{
+				DEBUG_MSG("Static configuration.\r\n");
+				WiFi.config(IPAddress(getEEPROMuint32(configBase + offsetof(wificonfigarea_t, ipaddr))), IPAddress(getEEPROMuint32(configBase + offsetof(wificonfigarea_t, gateway))),
+					IPAddress(getEEPROMuint32(configBase + offsetof(wificonfigarea_t, netmask))), IPAddress(getEEPROMuint32(configBase + offsetof(wificonfigarea_t, dns))));
+			}
+			wifi_station_set_auto_connect(true);
+		}
+		break;
+
+		case WIFIMODE_AP:
+			DEBUG_MSG("AP mode.\r\n");
+			WiFi.mode(WIFI_AP); // startujeme AP
+			if (pass.length())
+			// je zadane heslo do AP
+				WiFi.softAP(s.c_str(), pass.c_str(), EEPROM.read(configBase + offsetof(wificonfigarea_t, apchannel)));
+			else
+			// otevreny AP
+				WiFi.softAP(s.c_str(), NULL, EEPROM.read(configBase + offsetof(wificonfigarea_t, apchannel)));
+			if (IPCONFIG_STATIC == EEPROM.read(configBase + offsetof(wificonfigarea_t, ip)))
+				WiFi.softAPConfig(IPAddress(getEEPROMuint32(configBase + offsetof(wificonfigarea_t, ipaddr))), IPAddress(getEEPROMuint32(configBase + offsetof(wificonfigarea_t, gateway))),
+					IPAddress(getEEPROMuint32(configBase + offsetof(wificonfigarea_t, netmask))));
+		break;
+
+		default: // jakykoliv neznamy rezim (mozna zavada na EEPROM???)
+			DEBUG_MSG("Mode Error!!\r\n");
+		break;
+	}
+
+	delay(1000); // cekame XX sekund na ulozeni atd...
+	ESP.restart();
+}
+
+// Start WiFi v rezimu AP pro nastaveni modulu
+wificonfigresult_t WiFiConfig::_setupAP(wificonfig_cb cb)
+{
+	String ssid = SETUP_SSID;
+
+	WiFi.persistent(false); // chranime flash pred zbytecnymi prepisy
+	dnsServer.reset(new DNSServer());
+	server.reset(new ESP8266WebServer(80));
+
+	/* Soft AP network parameters */
+	IPAddress apIP(192, 168, 4, 1);
+	IPAddress netMsk(255, 255, 255, 0);
+
+	WiFi.disconnect(); // pro jistotu se odpojime
+	WiFi.mode(WIFI_AP);
+
+	WiFi.softAPConfig(apIP, apIP, netMsk);
+	if (ssid.endsWith(F("?")))
+	{
+  		//uint8_t amac[6];
+  		char lmac[16];
+
+  		//WiFi.softAPmacAddress(amac);
+  		//sprintf_P(lmac, PSTR("%02X%02X%02X"), amac[3], amac[4], amac[5]);
+
+  		sprintf_P(lmac, PSTR("%06X"), ESP.getChipId());
+  		ssid.replace(F("?"), String(lmac));
+	}
+	WiFi.softAP(ssid.c_str(), NULL, SETUP_CHANNEL);
+	delay(500); // dulezite - jinak se nevraci spravna IP adresa !!! (udajne od verze 2.3.0 uz neni nutne)
+
+	dnsServer->setErrorReplyCode(DNSReplyCode::NoError);
+	dnsServer->start(DNS_PORT, "*", WiFi.softAPIP()); // spustime tzv. Captive portal - vsechny DNS dotazy jsou smerovany na nasi ip adresu
+	if (cb)
+		cb(WCS_CONFIGSTART); // signalizujeme start konfiguracniho serveru
+// Nastavime handlery weboveho serveru pro konfiguraci
+	server->onNotFound(std::bind(&WiFiConfig::_handleNotFound, this));
+	server->on(F("/config"), std::bind(&WiFiConfig::_handleDisplayAP, this));
+  server->on(F("/s"), std::bind(&WiFiConfig::_handleSetAP, this));
+  server->on(F("/r"), std::bind(&WiFiConfig::_handleReset, this));
+  server->on(F("/i"), std::bind(&WiFiConfig::_handleInfo, this));
+  server->on(F("/index.htm"), std::bind(&WiFiConfig::_handleRoot, this));
+	server->begin(); // startujeme webovy server
+	while (1)
+	{
+		server->handleClient(); // osetrujeme praci serveru
+		if (cb)
+			cb(WCS_CONFIGWAIT); // volame uzivatelsky callback (napr. signalizace)
+		dnsServer->processNextRequest();
+		yield(); // procesy uvnitr systemu ESP potrebuji take svuj cas
+		if (_timeout)
+		{
+			if (millis() > _time)
+			{
+				DEBUG_MSG("AP timeout\r\n");
+				if (cb)
+					cb(WCS_CONFIGTIMEOUT); // signalizujeme timeout
+				break; // ukoncime cekani a vracime se
+			}
+		}
+	}
+// tady by asi melo byt zastaveni weboveho a dns serveru...
+  dnsServer->stop();
+  server->stop();
+	return WCR_TIMEOUT; // nepripojeno, vyprsel timeout konfiguracniho AP
+}
+
+// Testovani, zda se modul pripojil k AP
+bool WiFiConfig::_testWifi(wificonfig_cb cb)
+{
+	uint32_t startt = millis();
+
+  DEBUG_MSG("Trying to connect.\r\n");
+	while ((millis() - startt) < WIFI_STA_CONNECT_TIMEOUT)
+	{
+		if (WL_CONNECTED == WiFi.status())
+		{
+  			DEBUG_MSG("Connected...\r\n");
+  			if (cb)
+  				cb(WCS_CONNECTED);
+			return true; // jsme pripojeni
+		}
+		yield();
+		if (cb)
+			cb(WCS_CONNECTING); // signalizujeme pokracujici pokus o spojeni
+	}
+  	DEBUG_MSG("Not connected!\r\n");
+  _status = wifi_station_get_connect_status();
+	return false; // pripojeni se nezdarilo
+}
+
+wificonfigresult_t WiFiConfig::begin(int configarea, uint8_t forceConfigure, wificonfig_cb cb)
+{
+	wificonfigresult_t result = WCR_OK; // predpokladame, ze se pripojeni podari
+
+	DEBUG_MSG("\r\n\r\n"); // oddeleni vypisu
+
+	configBase = configarea; // pocatek konfigurace v EEPROM
+	if (0 == forceConfigure)
+	{
+		DEBUG_MSG("Force config.\r\n");
+    _status = 0xff;
+		result = _setupAP(cb);
+	}
+	else
+	{
+		if (EEPROM.read(configBase + offsetof(wificonfigarea_t, mode)) != WiFi.getMode())
+		{ // neshoduje se rezim - musime spustit konfiguracni AP (poskozena konfigurace)
+			DEBUG_MSG("Wrong config\r\n");
+      _status = 0xfe;
+			result = _setupAP(cb);
+		}
+		else
+		{
+			String s = getEEPROMString(configBase + offsetof(wificonfigarea_t, devname), elementSize(wificonfigarea_t, devname));
+			strcpy(WiFiDeviceName, s.c_str());
+
+			switch (EEPROM.read(configBase + offsetof(wificonfigarea_t, mode)))
+			{
+			case WIFIMODE_STA:
+			{
+				WiFi.hostname(WiFiDeviceName); // nastavime jmeno zarizeni
+				DEBUG_MSG("STA mode.\r\n");
+				if (WC_DONT_RUN_CONFIGAP == _timeout)
+					result = WCR_CONFIGAP_NOT_STARTED; // nemame spoustet konfiguracni AP - vracime se hned
+				else
+				{
+					if (cb)
+						cb(WCS_CONNECTSTART); // signalizujeme zacatek pokusu o pripojeni
+					if (!_testWifi(cb))
+					{
+						result = _setupAP(cb); // modul se nepripojil - startujeme AP rezim
+					}
+				}
+			}
+			break;
+
+			case WIFIMODE_AP:
+				DEBUG_MSG("AP mode.\r\n");
+				if (cb)
+					cb(WCS_CONNECTSTART); // signalizujeme zacatek pokusu o pripojeni (zde se nic jineho stejne nestane...)
+			break;
+			}
+		}
+	}
+	return result; // mame vyreseno
+}
+
+wificonfigresult_t WiFiConfig::begin(int configarea, uint8_t forceConfigure, int timeout, wificonfig_cb cb = NULL)
+{
+	if (forceConfigure)
+	{ // pouze pokud nemame vynucenou konfiguraci merime cas - to nam umozni dostat se ze spatne zadaneho timeoutu, ktery se neda zvladnout
+		if ((timeout > 0) && (40 > timeout))
+			timeout = 40; // timeout musi byt minimalne 40 sekund
+		_timeout = timeout;
+		if (_timeout > 0)
+			_time = millis() + (_timeout * 1000); // spocitame si novy cas, kdy budeme modul restartovat
+	}
+	else
+		_timeout = 0; // pri vynucene konfiguraci se parametr timeout neuplatni
+	return begin(configarea, forceConfigure, cb); // spustime WiFi
+}
+// EOF

WiFiConfig.h

@@ -0,0 +1,178 @@
+/**
+ * @file WiFiConfig.h
+ * @author Pavel Brychta, http://www.xpablo.cz
+ *
+ * Copyright (c) 2015,16,17 Pavel Brychta. All rights reserved.
+ *
+ * This library is free software; you can redistribute it and/or
+ * modify it under the terms of the GNU Lesser General Public
+ * License as published by the Free Software Foundation; either
+ * version 2.1 of the License, or (at your option) any later version.
+ *
+ * This library is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
+ * Lesser General Public License for more details.
+ *
+ * You should have received a copy of the GNU Lesser General Public
+ * License along with this library; if not, write to the Free Software
+ * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA  02110-1301  USA
+ *
+ */
+
+/* Nastaveni ESP modulu, ktere pracuje takto:
+ * 1. Pokud je forceConfigure ==0, tak se aktivuje WiFi v rezimu AP a cele ESP je mozne nastavit webovym rozhranim (pocitam s prenosem hodnoty nouzoveho tlacitka pri startu).
+ * 2. Neni-li tlacitko stisknute, tak se vezme rezim prace a AP se nastavi dle nej (WIFI_STA a WIFI_AP)
+ * 3. Pokud byl rezim prace WIFI_STA a ESP se nepripoji k zadne siti do casu WIFI_STA_CONNECT_TIMEOUT, tak se pokracuje jako kdyby bylo stisknute rekonfiguracni tlacitko
+ */
+
+#ifndef __WiFiConfig_h__
+#define __WiFiConfig_h__
+
+#include <ESP8266WiFi.h>
+#include <memory>
+
+#define elementSize(type, element) sizeof(((type *)0)->element)
+
+#define WC_DONT_RUN_CONFIGAP -1 // priznak, ze si neprejeme spoustet konfiguracni AP (uziva se misto parametru timeout). Urceno pro bateriove napajene pristroje
+
+// Struktura konfigurace, ulozena v EEPROM
+typedef struct
+{
+	uint8_t mode; // rezim prace AP/STA
+	uint8_t ip; // konfigurace ip (staticka/DHCP)
+	char ssid[32]; // SSID site
+	char pass[64]; // heslo
+	char devname[32]; // jmeno zarizeni (pro NBNS plati jen 16 znaku)
+	uint32_t ipaddr; // ip adresa v pripade staticke konfigurace
+	uint32_t netmask; // sitova maska v pripade staticke konfigurace
+	uint32_t gateway; // sitova brana v pripade staticke konfigurace
+	uint32_t dns; // ip adresa DNS serveru v pripade staticke konfigurace
+	uint8_t apchannel; // kanal, na kterem pracuje AP (pokud je zapnuty rezim AP)
+} wificonfigarea_t;
+
+// Parametr, predany uzivatelske callback funkci, urceny pro aplikacni vizualizaci stavu konfigurace a pripojeni
+typedef enum
+{
+	WCS_CONNECTSTART = 0, // zacatek pokusu o pripojeni k ulozene konfiguraci
+	WCS_CONNECTING = 1, // probiha pokus o pripojeni
+	WCS_CONNECTED = 2, // pripojeni bylo uspesne
+	WCS_CONFIGSTART = 3, // zacatek startu konfiguracniho AP
+	WCS_CONFIGWAIT = 4, // cekame na nastaveni konfigurace pres web
+	WCS_CONFIGTIMEOUT = 5, // doslo k vyprseni timeoutu konfigurace, budeme se vracet s False jako vysledek z .begin(...)
+}wificonfigstate_t;
+
+// Navratovy parametr z volani begin() - udava, jak se podarilo WiFiConfig modulu pripojit k AP
+typedef enum
+{
+	WCR_OK = 0, // wifi pripojena/AP nastartovane (dle parametru v EEPROM)
+	WCR_TIMEOUT = 1, // wifi neni pripojena a vyprsel zadany timeout
+	WCR_CONFIGAP_NOT_STARTED = 2, // wifi neni pripojena a spusteni konfiguracniho AP bylo zakazane parametrem timeout (WC_DONT_RUN_CONFIGAP)
+}wificonfigresult_t;
+
+typedef void (*wificonfig_cb)(wificonfigstate_t state); // definice callbacku
+
+typedef void (*storeparam_cb)(const char *newvalue); // callback pro ulozeni uzivatelskeho parametru
+
+#ifndef WIFI_STA_CONNECT_TIMEOUT
+ #define WIFI_STA_CONNECT_TIMEOUT 15000UL // delka cekani na pripojeni k AP [ms]
+#endif
+
+#ifndef SETUP_SSID
+ #define SETUP_SSID "ESPPBSetup_?"
+#endif
+
+#ifndef SETUP_CHANNEL
+ #define SETUP_CHANNEL 3
+#endif
+
+/**
+ *  \brief Ziskani retezce z EEPROM ze zadaneho offsetu
+ *
+ *  \param [in] start Ofset zacatku retezce
+ *  \param [in] len Delka retezce
+ *  \return Vycteny retezec
+ */
+String getEEPROMString(int start, int len);
+
+/**
+ *  \brief Ulozeni retezce do EEPROM
+ *
+ *  \param [in] start Ofset zacatku ukladani
+ *  \param [in] len Maximalni delka ulozeneho retezce
+ *  \param [in] string Ukladany retezec
+ */
+void setEEPROMString(int start, int len, String string);
+
+/**
+ *  \brief Ziskani nasi ip adresy
+ *
+ *  \return Nase ip adresa, ziskana dle rezimu prace modulu
+ */
+IPAddress getOurIP(void);
+
+/**
+ *  \brief Ziskani nasi MAC adresy
+ *
+ *  \param [in] mac kam ma byt MAC adresa ulozena
+ *  \return Ukazatel na ulozenou MAC adresu (vraci parametr mac)
+ *
+ *  \details Details
+ */
+uint8_t * getOurMAC(uint8_t *mac);
+
+uint32_t getEEPROMuint32(int start);
+
+void setEEPROMuint32(int start, uint32_t val);
+
+extern char WiFiDeviceName[]; // jmeno zarizeni, pouzivane i pro DHCP
+
+class WiFiConfigUsrParameter
+{
+  public:
+    WiFiConfigUsrParameter(const char *id, const char *label, const char *defaultValue, int length, storeparam_cb cb);
+
+    const char *getID();
+    const char *getValue();
+    const char *getLabel();
+    int         getValueLength();
+	  void         setNext(WiFiConfigUsrParameter *n);
+	  WiFiConfigUsrParameter *getNext();
+	  void		setNewValue(const char *newval);
+  private:
+    const char *_id;
+    const char *_label;
+    char       *_value;
+    int         _length;
+
+	storeparam_cb _cb;
+	WiFiConfigUsrParameter *_next;
+
+    friend class WiFiConfig;
+};
+
+class WiFiConfig
+{
+public:
+	WiFiConfig(): _params(NULL), _timeout(0) {}
+	wificonfigresult_t begin(int configarea, uint8_t forceConfigure, wificonfig_cb cb);
+	wificonfigresult_t begin(int configarea, uint8_t forceConfigure, int timeout, wificonfig_cb cb);
+    void addParameter(WiFiConfigUsrParameter *p);
+private:
+	wificonfigresult_t _setupAP(wificonfig_cb cb);
+	void _handleDisplayAP(void);
+	void _handleSetAP(void);
+  void _handleInfo(void);
+  void _handleReset(void);
+	void _handleNotFound(); // CaptivePortal redirector
+  void _handleRoot(); // jen jednoducha stranka kvuli CaptivePortalu umoznuje prejit na spravnou stranku (ale nedela to...)
+  bool _testWifi(wificonfig_cb cb);
+	WiFiConfigUsrParameter *_searchUsrParameter(const char *name);
+	void _plusDecode(String &s);
+
+	WiFiConfigUsrParameter *_params; // ukazatel na posledni zadany uzivatelsky parametr
+	int _timeout; // timeout pri cekani na konfiguraci
+	uint32_t _time; // hodnota, po ktere bude ESP restartovano (pokud je _timeout != 0)
+  uint8_t _status; // stav pripojeni - je pouzity pro signalizaci duvodu, proc se nepripoji k AP
+};
+#endif

embHTML.h

@@ -0,0 +1,121 @@
+// file:///I:/MyProjects/PB_ESP8266_WiFiConfig_Vyvoj/doc/_testy/s?_s=SSID1&_p=heslo&_n=jmeno_zarizeni&_a=on&_st=on&_i=192.168.1.1&_m=255.255.255.0&_g=192.168.1.3&_d=192.168.1.3&{n}={v}
+static const char TEXTHTML[] PROGMEM = "text/html";
+
+static const char PAGE_INDEX1[] PROGMEM = R"=====(
+<!DOCTYPE html><html lang="en"><head><meta charset= "utf-8"><meta name="viewport" content="width=device-width, initial-scale=1, user-scalable=no">
+<title>xPablo.cz Setup</title>
+<style>
+.c{text-align: center;}
+div,input{padding:5px;font-size:1em;}
+input{width:95%;}
+body{text-align: center;font-family:verdana;}
+button{border:0;border-radius:0.3rem;background-color:#1fa3ec;color:#fff;line-height:2.4rem;font-size:1.2rem;width:100%;}
+.q{float: right;width: 64px;text-align: right;}
+.l{background: url("data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAACAAAAAgCAMAAABEpIrGAAAALVBMVEX///8EBwfBwsLw8PAzNjaCg4NTVVUjJiZDRUUUFxdiZGSho6OSk5Pg4eFydHTCjaf3AAAAZElEQVQ4je2NSw7AIAhEBamKn97/uMXEGBvozkWb9C2Zx4xzWykBhFAeYp9gkLyZE0zIMno9n4g19hmdY39scwqVkOXaxph0ZCXQcqxSpgQpONa59wkRDOL93eAXvimwlbPbwwVAegLS1HGfZAAAAABJRU5ErkJggg==") no-repeat left center;background-size: 1em;}
+#rssiBar{width: 100px;height: 15px;background: #fff;}
+#rssiBar > div{width: 52px;height: 15px;background: #c20000;}
+</style>
+<script>
+function c(l){document.getElementById('_s').value=l.innerText||l.textContent;document.getElementById('_p').focus();}
+function hAP(){if (document.getElementById('_a').checked){document.getElementById('apconfig').style.display = 'block';}else{document.getElementById('apconfig').style.display = 'none';}}
+function hSC(){if (document.getElementById('_st').checked){document.getElementById('staticip').style.display = 'block';}else{document.getElementById('staticip').style.display = 'none';}}
+</script>
+</head><body><h1>ESP8266 WiFiConfig</h1><div style='text-align:left;display:inline-block;min-width:260px;'>
+)=====";
+
+/* Polozky nalezenych SSID
+{v} - SSID
+{a} - RSSI (primo v dBm)
+{s} - bud nic, nebo 'l'>
+*/
+static const char SSID_ITEM[] PROGMEM = R"=====(
+<div><a href='#p' onclick='c(this)'>{v}</a>&nbsp;<span class='q {s}'><meter value="{a}" min="0" max="100" low="30" high="80" optimum="50" style="width: 70%;"></meter></span></div>
+)=====";
+
+/* Zacatek formulare pro vyplneni
+{s} - SSID
+{p} - password
+{n} - Netbios name
+{a} - AP mode (checkbox)
+{ch}- cislo kanalu AP
+{c} - staticka IP konfigurace (checkbox)
+{i} - ip adresa
+{m} - maska
+{g} - brana
+{d} - dns server
+*/
+static const char PAGE_INDEX2[] PROGMEM = R"=====(
+<form method='post' action='s'>
+<label>SSID<br><input id='_s' name='_s' maxlength=32 required {s}></label><br>
+<label>Heslo<br><input id='_p' name='_p' maxlength=64 {p} type='password'></label><br>
+<label>Jméno zařízení<br><input name='_n' maxlength=32 pattern='^[a-zA-Z][a-zA-Z0-9-_\\.]{1,32}$' title='Jméno dle NetBios konvence (max. 16 znaků písmena, čísla a znaky "_.")' {n}></label><br>
+<div>
+<label><input id='_a' name='_a' type='checkbox' style="width: 10%; float: left; margin-top: 5px;" onclick='hAP();' {a}>Režim AP</label>
+<div id="apconfig">
+<label>Kanál<br><input type="number" name="_ch" min="1" max="13" title='cislo kanalu v intervalu 1-13' value='{ch}'></label><br>
+</div>
+</div>
+<div>
+<label><input id='_st' name='_st' type='checkbox' style="width: 10%; float: left; margin-top: 5px;" onclick='hSC();' {a}>Staticka IP konfigurace</label>
+<div id="staticip">
+<label>IP adresa<br><input type="text" name="_i" pattern='((^|\.)((25[0-5])|(2[0-4]\d)|(1\d\d)|([1-9]?\d))){4}$' title='ip adresa ve formatu <cislo>.<cislo>.<cislo>.<cislo>' value='{i}'></label><br>
+<label>Síťová maska<br><input type="text" name="_m" pattern='((^|\.)((25[0-5])|(2[0-4]\d)|(1\d\d)|([1-9]?\d))){4}$' title='ip adresa ve formatu <cislo>.<cislo>.<cislo>.<cislo>' value='{m}'></label><br>
+<label>Síťová brána<br><input type="text" name="_g" pattern='((^|\.)((25[0-5])|(2[0-4]\d)|(1\d\d)|([1-9]?\d))){4}$' title='ip adresa ve formatu <cislo>.<cislo>.<cislo>.<cislo>' value='{g}'></label><br>
+<label>Server DNS<br><input type="text" name="_d" pattern='((^|\.)((25[0-5])|(2[0-4]\d)|(1\d\d)|([1-9]?\d))){4}$' title='ip adresa ve formatu <cislo>.<cislo>.<cislo>.<cislo>' value='{d}'></label><br>
+</div>
+</div>
+<script>hAP();hSC();</script>
+)=====";
+
+// Uzivatelsky pridane polozky
+static const char PAGE_PARAM_HDR[] PROGMEM = R"=====(
+<hr>
+<h2>Uživatelské položky</h2>
+)=====";
+
+static const char PAGE_PARAM[] PROGMEM = R"=====(
+<label>{t}<br><input name='{n}' maxlength='{l}' value='{v}'></label><br>
+)=====";
+
+// Konec formulare a stranky
+static const char PAGE_END[] PROGMEM = R"=====(
+<br>
+<button type='submit'>Uložit a restartovat</button></form>
+</div></body></html>
+)=====";
+
+// Nenalezeno zadne SSID
+static const char PAGE_NO_SSID[] PROGMEM = R"=====(
+<div>Nenalezená žádná síť. Občerstvi stránku pro nové hledání.</div>
+)=====";
+
+// Konfigurace ulozena - restartuji...
+static const char PAGE_SAVED[] PROGMEM = R"=====(
+<!DOCTYPE html><html lang="cs"><head><meta http-equiv="refresh" content="10;url=/"/>
+<meta charset="utf-8" name="viewport" content="width=device-width, initial-scale=1"/>
+<title>xPablo Setup - Konfigurace uložena</title>
+<style>div,input {margin-bottom: 5px;}body{width:200px;display:block;margin-left:auto;margin-right:auto;}</style>
+</head><body>
+Uloženo do EEPROM...<br/>
+Restart za 10 sekund.
+</body></html>
+)=====";
+
+static const char PAGE_CAPTIVEPORTALCATCH[] PROGMEM = R"=====(
+<!DOCTYPE html><html lang="cs"><head><meta charset="utf-8" name="viewport" content="width=device-width, initial-scale=1, user-scalable=no"/><title>xPablo.cz Setup</title>
+<style>.c{text-align: center;} div,input{padding:5px;font-size:1em;} input{width:95%;} body{text-align: center;font-family:verdana;} button{border:0;border-radius:0.3rem;background-color:#1fa3ec;color:#fff;line-height:2.4rem;font-size:1.2rem;width:100%;} .q{float: right;width: 64px;text-align: right;}
+.vl-info {border-left: thick solid #1fa3ec;background: #cee6ff; text-align:left; display:inline-block; min-width:260px; margin-top:15px}
+.red { background-color: #ff0000;}
+</style>
+</head><body><div style='text-align:left;display:inline-block;min-width:260px;'>
+<form action="/config" method="get"><button>Konfigurace WiFi</button></form><br/><form action="/i" method="get"><button>Informace o modulu</button></form><br/><form action="/r" method="post"><button class="red">Reset</button></form><br>
+)=====";
+
+// druha cast (mezi 1. a druhou cast muzeme doplnit dodatecne informace)
+static const char PAGE_CAPTIVEPORTALCATCH2[] PROGMEM = R"=====(
+</div></body></html>
+)=====";
+
+static const char PAGE_RESTART[] PROGMEM = R"=====(
+  Restartuji...
+)=====";

examples/WiFiConfig_simple_test/WiFiConfig_simple_test.ino

@@ -0,0 +1,129 @@
+#include <ESP8266WiFi.h>
+#include <ESP8266WebServer.h>
+#include <ArduinoOTA.h>
+#include <EEPROM.h>
+#include "src/espnbns/espnbns.h"
+#include "src/WiFiConfig/WiFiConfig.h"
+
+// Plati pro desticku Witty s modulem ESP-12E
+#define PIN_FORCE_CONFIG 4
+#define PIN_LED_RED 15
+#define PIN_LED_GREEN 12
+#define PIN_LED_BLUE 13
+
+//#define DEBUG_OUT(a) {}
+#define DEBUG_OUT(a) Serial.print(a)
+
+ESP8266WebServer wwwserver(80); // webovy server
+String content;
+NBNS nbns; // Netbios (xPablo.cz)
+
+static void handleRoot(void)
+{
+
+  content = F("<!DOCTYPE HTML>\n<html>Hello world from ESP8266");
+  content += F("<p>");
+  content += F("</html>");
+
+  wwwserver.send(200, "text/html", content);
+}
+
+void ICACHE_FLASH_ATTR wcb(wificonfigstate_t state)
+{
+
+  switch (state)
+  {
+    case WCS_CONNECTSTART:
+      DEBUG_OUT(F("Starting connect...\r\n"));
+      break;
+
+    case WCS_CONNECTING:
+      break;
+
+    case WCS_CONNECTED:
+      DEBUG_OUT(F("Connected.\r\n"));
+      break;
+
+    case WCS_CONFIGSTART:
+      DEBUG_OUT(F("Starting config...\r\n"));
+      break;
+
+    case WCS_CONFIGWAIT:
+      break;
+  }
+}
+
+void saveServer(const char *param)
+{
+
+  DEBUG_OUT(param);
+}
+
+void ICACHE_FLASH_ATTR setup()
+{
+  WiFiConfig wifi; // konfigurace ESP modulu
+  WiFiConfigUsrParameter testOnly("server", "adresa serveru", "Default server", 32, saveServer);
+
+  EEPROM.begin(512); // zahajujeme praci s EEPROM
+  pinMode(PIN_FORCE_CONFIG, INPUT_PULLUP); // pin, co slouzi jako vstup tlacitka
+  int fc = digitalRead(PIN_FORCE_CONFIG); // pozadavek na vynucene vyvolani konfigurace
+  Serial.begin(9600);
+  wifi.addParameter(&testOnly);
+  if (WCR_OK != wifi.begin(0, fc, wcb)) // startujeme pripojeni
+    ESP.restart();
+
+  wwwserver.on("/", handleRoot);
+  wwwserver.begin(); // startujeme webovy server
+
+  if (strlen(WiFiDeviceName) > 0)
+  {
+    nbns.begin(WiFiDeviceName);
+    ArduinoOTA.setHostname(WiFiDeviceName);
+  }
+
+  ArduinoOTA.onStart([]() {
+    DEBUG_OUT(F("Start\r\n"));
+  });
+  ArduinoOTA.onEnd([]() {
+    DEBUG_OUT(F("End\r\n"));
+  });
+  ArduinoOTA.onError([](ota_error_t error) {
+    DEBUG_OUT(F("Error["));
+    DEBUG_OUT(error);
+    DEBUG_OUT(F("]: "));
+    switch (error)
+    {
+      case OTA_AUTH_ERROR:
+        DEBUG_OUT(F("Auth Failed\r\n"));
+        break;
+
+      case OTA_BEGIN_ERROR:
+        DEBUG_OUT(F("Begin Failed\r\n"));
+        break;
+
+      case OTA_CONNECT_ERROR:
+        DEBUG_OUT(F("Connect Failed\r\n"));
+        break;
+
+      case OTA_RECEIVE_ERROR:
+        DEBUG_OUT(F("Receive Failed\r\n"));
+        break;
+
+      case OTA_END_ERROR:
+        DEBUG_OUT(F("End Failed\r\n"));
+        break;
+
+      default:
+        DEBUG_OUT(F("\r\n"));
+    }
+  });
+  ArduinoOTA.begin();
+
+}
+
+void loop()
+{
+  wwwserver.handleClient(); // osetrujeme praci serveru
+  ArduinoOTA.handle();
+  nbns.poll();
+}

keywords.txt

@@ -0,0 +1,36 @@
+#######################################
+# Syntax Coloring Map For WifiConfig
+#######################################
+
+#######################################
+# Datatypes (KEYWORD1)
+#######################################
+
+WiFiConfig	KEYWORD1
+wificonfigarea_t KEYWORD1
+
+#######################################
+# Methods and Functions (KEYWORD2)
+#######################################
+
+getOurIP KEYWORD2
+getOurMAC KEYWORD2
+getEEPROMString KEYWORD2
+begin	KEYWORD2
+setEEPROMString KEYWORD2
+getEEPROMuint32 KEYWORD2
+setEEPROMuint32 KEYWORD2
+
+#######################################
+# Instances (KEYWORD2)
+#######################################
+
+
+#######################################
+# Constants (LITERAL1)
+#######################################
+
+WCS_CONNECTSTART LITERAL1
+WCS_CONNECTING LITERAL1
+WCS_CONFIGSTART LITERAL1
+WCS_CONFIGWAIT LITERAL1

library.properties

@@ -0,0 +1,9 @@
+name=WiFiConfig
+version=4.0.0
+author=Pavel Brychta
+maintainer=Pavel Brychta <Pablo@xpablo.cz>
+sentence=Enables seamless module configuration.
+paragraph=With this library you can enable your ESP8266 module to be configured over network. Includes Captive Portal for easy configuration.
+category=Other
+url=http://www.xpablo.cz
+architectures=esp8266