Prvni verze s podporou ESP32

2018-11-20 16:40:15 +01:00 · 2018-11-20 16:40:15 +01:00 · 81ceb9aca9
commit 81ceb9aca9
parent 33f8f6a8b8
6 changed files with 187 additions and 44 deletions
--- a/README.md
+++ b/README.md
@ -2,4 +2,4 @@
 ![Screenshot](doc/images/Screenshot_20180507-100906.png)
-Knihovna pro konfiguraci WiFi rozhraní modulu ESP8266
+Knihovna pro konfiguraci WiFi rozhraní modulu ESP8266 a ESP32, obsahující Captive portal.
--- a/doc/images/Screenshot_20180507-100906.png
+++ b/doc/images/Screenshot_20180507-100906.png
--- a/library.json
+++ b/library.json
@ -1,6 +1,6 @@
 {
  "name":"WiFiConfig",
-  "description":"Web based WiFi part configuration for the ESP8266 SoC",
+  "description":"Web based WiFi part configuration for the ESP8266 and ESP32 SoC",
  "keywords":"wifi, configuration",
  "authors":
  {
@ -12,10 +12,10 @@
    "type": "git",
    "url": "http://git.xpablo.cz/pablo2048/WiFiConfig.git"
  },
-  "version": "5.9",
+  "version": "6.0",
  "license": "MIT",
  "frameworks": "arduino",
-  "platforms": "espressif8266",
+  "platforms": ["espressif8266", "espressif32"],
  "build": {
    "libCompatMode": 2
  }
--- a/library.properties
+++ b/library.properties
@ -1,9 +1,9 @@
 name=WiFiConfig
-version=5.9
+version=6.0
 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 WiFi. Includes Captive Portal for easy configuration.
+paragraph=With this library you can enable your ESP8266 or ESP32 module to be configured over WiFi. Includes Captive Portal for easy configuration.
 category=Other
 url=http://www.xpablo.cz
-architectures=esp8266
+architectures=esp8266,esp32
--- a/src/WiFiConfig.cpp
+++ b/src/WiFiConfig.cpp
@ -1,4 +1,6 @@
 /*
 * V6.0 - 20.11.2018- Verze i pro ESP32
 *
 * V5.9 - 18.7.2018 - Retezce, ukladane do EEPROM jsou primitivnim zpusobem sifrovany pro ztizeni odhaleni SSID a hesla pri dumpu pameti
 *
 * V5.8 - 5.7.2018 - Opraveno spatne zobrazovani sily signalu v prehledu WiFi siti (spatne barvy)
@ -67,9 +69,13 @@
 * 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>
 #if defined(ESP8266)
 #include <ESP8266WebServer.h>
 #else
 #include <WebServer.h>
 #endif
 #include "WiFiConfig.h"
 #include <EEPROM.h>
 #include <Ticker.h>
 #include "embHTML.h"
@ -80,9 +86,15 @@
 #define DEBUG_MSG(...)
 #endif
 #if defined(ESP8266)
 extern "C" {
  #include "user_interface.h"
 }
 #define ESP_getChipId() (ESP.getChipId())
 #else
 #include <esp_wifi.h>
 #define ESP_getChipId() ((uint32_t)ESP.getEfuseMac())
 #endif
 #define DNS_PORT 53
@ -104,7 +116,11 @@ enum
 static int configBase; // musi byt trvale ulozene, aby fungovaly metody pro ziskani retezcu z EEPROM
 static std::unique_ptr<DNSServer> dnsServer;
 #if defined(ESP8266)
 static std::unique_ptr<ESP8266WebServer> server;
 #else
 static std::unique_ptr<WebServer> server;
 #endif
 static std::unique_ptr<Ticker> rsttick;
 const char VALUE[] PROGMEM = "value='";
@ -320,20 +336,32 @@ void WiFiConfig::_handleInfo(void)
  reply.concat(F("<form><table><TR><TH>System Info<TH>"));
  reply.concat(F("<TR><TD>Core Version:<TD>"));
-  reply.concat(ESP.getCoreVersion());
+#if defined(ESP8266)
  reply.concat(ESP.getFullVersion());
 #else
  // TODO
  reply.concat(ESP.getSdkVersion());
 #endif
  reply.concat(F("<TR><TD>Flash Size:<TD>"));
 #if defined(ESP8266)
  reply.concat(ESP.getFlashChipRealSize() / 1024);
 #else
  // TODO
  reply.concat(ESP.getFlashChipSize());
 #endif
  reply.concat(F(" kB"));
 #if defined(ESP8266)
  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"));
 #endif
  reply.concat(F("<TR><TD>STA MAC:<TD>"));
-  uint8_t mac[] = {0, 0, 0, 0, 0, 0};
+  uint8_t mac[6];
  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]);
@ -345,12 +373,26 @@ void WiFiConfig::_handleInfo(void)
  reply.concat(macaddress);
  reply.concat(F("<TR><TD>ESP Chip ID:<TD>"));
-  sprintf_P(buff, PSTR("%06X"), ESP.getChipId());
+  sprintf_P(buff, PSTR("%06X"), ESP_getChipId());
  reply.concat(buff);
 #if defined(ESP8266)
  reply.concat(F("<TR><TD>Flash Chip ID:<TD>"));
  sprintf_P(buff, PSTR("%08X"), ESP.getFlashChipId());
  reply.concat(buff);
 #endif
  reply.concat(F("<TR><TD>Timeout:<TD>"));
  reply.concat(_timeout);
  reply.concat(F("/"));
  reply.concat(_time);
 #if defined(ESP8266)
  uint8_t stations = wifi_softap_get_station_num();
  reply.concat(F("<TR><TD>Clients:<TD>"));
  reply.concat(stations);
 #endif
  reply.concat(F("</table></form>"));
  server->send(200, FPSTR(TEXTHTML), reply);
@ -364,6 +406,7 @@ void WiFiConfig::_handleRoot(void)
  content = FPSTR(PAGE_CAPTIVEPORTALCATCH); // 1. cast stranky
 // pridame informaci o stavu pokusu o pripojeni
  content.concat(F("<div class=\"vl-info\">Pokus o připojení: "));
 #if defined(ESP8266)
  switch (_status)
  {
  case STATION_IDLE:
@ -402,6 +445,9 @@ void WiFiConfig::_handleRoot(void)
    content.concat(F("Neznámý"));
  break;
  }
 #else
  content.concat(F("Prozatím nedostupné"));
 #endif
  content.concat(F("</div>"));
  content.concat(FPSTR(PAGE_CAPTIVEPORTALCATCH2)); // 2. cast stranky (ukonceni)
  server->send(200, FPSTR(TEXTHTML), content);
@ -438,7 +484,11 @@ void WiFiConfig::_handleDisplayAP(void)
 			s = FPSTR(SSID_ITEM);
 			s.replace(F("{v}"), WiFi.SSID(i));
 			s.replace(F("{a}"), String(quality));
 #if defined(ESP8266)
 			s.replace(F("{s}"), (ENC_TYPE_NONE == WiFi.encryptionType(i)) ? F("") : F("l"));
 #else
      s.replace(F("{s}"), (WIFI_AUTH_OPEN == WiFi.encryptionType(i)) ? F("") : F("l"));
 #endif
 			content.concat(s);
 		}
 	}
@ -582,10 +632,12 @@ void WiFiConfig::_handleSetAP(void)
 		case WIFIMODE_STA:
 		{
 			DEBUG_MSG("STA mode.\r\n");
 #if defined(ESP8266)
      if (strlen(WiFiDeviceName))
 			{
        WiFi.hostname(WiFiDeviceName); // nastavime jmeno zarizeni
 			}
 #endif
 			if (IPCONFIG_STATIC == EEPROM.read(configBase + offsetof(wificonfigarea_t, ip)))
 			{
 				DEBUG_MSG("Static configuration.\r\n");
@ -595,7 +647,18 @@ void WiFiConfig::_handleSetAP(void)
 			}
      WiFi.mode(WIFI_STA); // startujeme WiFi v rezimu klienta
      WiFi.begin(s.c_str(), pass.c_str());
 #if !defined(ESP8266)
      if (strlen(WiFiDeviceName))
      {
        WiFi.setHostname(WiFiDeviceName); // nastavime jmeno zarizeni
      }
 #endif
 #if defined(ESP8266)
 			wifi_station_set_auto_connect(true);
 #else
      //esp_wifi_set_auto_connect(true);
 #endif
      delay(1000);
 		}
 		break;
@ -636,7 +699,11 @@ wificonfigresult_t WiFiConfig::_setupAP(wificonfig_cb cb)
 	WiFi.persistent(false); // chranime flash pred zbytecnymi prepisy
 	dnsServer.reset(new DNSServer());
 #if defined(ESP8266)
 	server.reset(new ESP8266WebServer(80));
 #else
  server.reset(new WebServer(80));
 #endif
 	/* Soft AP network parameters */
 	IPAddress apIP(192, 168, 4, 1);
@ -654,7 +721,7 @@ wificonfigresult_t WiFiConfig::_setupAP(wificonfig_cb cb)
  		//WiFi.softAPmacAddress(amac);
  		//sprintf_P(lmac, PSTR("%02X%02X%02X"), amac[3], amac[4], amac[5]);
-  		sprintf_P(lmac, PSTR("%06X"), ESP.getChipId());
+  		sprintf_P(lmac, PSTR("%06X"), ESP_getChipId());
  		ssid.replace(F("?"), String(lmac));
 	}
 	WiFi.softAP(ssid.c_str(), NULL, SETUP_CHANNEL);
@ -698,14 +765,17 @@ wificonfigresult_t WiFiConfig::_setupAP(wificonfig_cb cb)
 String WiFiConfig::_readString(unsigned int start, size_t maxlen)
 {
-  uint8_t mac[WL_MAC_ADDR_LENGTH];
+  uint8_t key[4];
  unsigned int enciphidx = 0;
  String result;
  unsigned int top = EEPROM.read(start);
  unsigned int i;
  result.reserve(maxlen);
-  WiFi.softAPmacAddress(mac);
+  uint32_t cid = ESP_getChipId();
  uint32_t *pkey = (uint32_t *)&key[0];
  *pkey = cid;
  DEBUG_MSG("Key = %02X:%02X:%02X:%02X\r\n", key[0], key[1], key[2], key[3]);
  if ((top > 0) && (top < (maxlen - 2)))
  {
    uint8_t b;
@ -713,22 +783,25 @@ String WiFiConfig::_readString(unsigned int start, size_t maxlen)
    {
      b = EEPROM.read(i);
-      b ^= mac[enciphidx];
+      b ^= key[enciphidx];
      ++enciphidx;
-      enciphidx %= WL_MAC_ADDR_LENGTH;
+      enciphidx %= sizeof(key);
      result.concat(char(b));
    }
-    b = EEPROM.read(i) ^ mac[enciphidx];
+    b = EEPROM.read(i) ^ key[enciphidx];
    if (b != 0)
    {
      DEBUG_MSG("_readString error! (%s)\r\n", result.c_str());
      result = F(""); // spatna ukoncovaci nula - neplatny retezec
    }
  }
  return result;
 }
 bool WiFiConfig::_storeString(unsigned int start, size_t maxlen, String &string)
 {
-  uint8_t mac[WL_MAC_ADDR_LENGTH];
+  uint8_t key[4];
  unsigned int enciphidx = 0;
  unsigned int si = 0;
  unsigned int top;
@ -744,18 +817,21 @@ bool WiFiConfig::_storeString(unsigned int start, size_t maxlen, String &string)
    top = string.length();
  }
-  WiFi.softAPmacAddress(mac);
+  uint32_t cid = ESP_getChipId();
  uint32_t *pkey = (uint32_t *)&key[0];
  *pkey = cid;
  DEBUG_MSG("Key = %02X:%02X:%02X:%02X\r\n", key[0], key[1], key[2], key[3]);
  EEPROM.write(start, (uint8_t)top); // ulozime delku retezce (pouzite pr kontrolu pri vycitani)
  for (i = start + 1; i < start + top + 1; ++i)
  {
    c = string[si];
-    c ^= mac[enciphidx];
+    c ^= key[enciphidx];
    ++enciphidx;
-    enciphidx %= WL_MAC_ADDR_LENGTH;
+    enciphidx %= sizeof(key);
    EEPROM.write(i, c);
    ++si;
  }
-  c = 0 ^ mac[enciphidx];
+  c = 0 ^ key[enciphidx];
  EEPROM.write(i, c); // ukoncovaci a kontrolni nula
  return result;
@ -766,6 +842,63 @@ bool WiFiConfig::_testWifi(wificonfig_cb cb)
 {
 	uint32_t startt = millis();
 #if !defined(ESP8266)
 // nakonfigurujeme ESP dle nove nastavenych parametru
  WiFi.disconnect(); // vsechno odpojime
  String s = _readString(configBase + offsetof(wificonfigarea_t, devname), elementSize(wificonfigarea_t, devname));
  strcpy(WiFiDeviceName, s.c_str());
  s = _readString(configBase + offsetof(wificonfigarea_t, ssid), elementSize(wificonfigarea_t, ssid));
  String pass =  _readString(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");
      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))));
        delay(100);
      }
      WiFi.mode(WIFI_STA); // startujeme WiFi v rezimu klienta
      WiFi.begin(s.c_str(), pass.c_str());
      DEBUG_MSG("STA params: %s, %s\r\n", s.c_str(), pass.c_str());
      if (strlen(WiFiDeviceName))
      {
        WiFi.setHostname(WiFiDeviceName); // nastavime jmeno zarizeni
      }
    }
    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;
  }
 #endif
  DEBUG_MSG("Trying to connect.\r\n");
 	while ((millis() - startt) < WIFI_STA_CONNECT_TIMEOUT)
 	{
@ -781,11 +914,15 @@ bool WiFiConfig::_testWifi(wificonfig_cb cb)
 			cb(WCS_CONNECTING); // signalizujeme pokracujici pokus o spojeni
 	}
  	DEBUG_MSG("Not connected!\r\n");
 #if defined(ESP8266)
  _status = wifi_station_get_connect_status();
 #else
  _status = WiFi.status();
 #endif
 	return false; // pripojeni se nezdarilo
 }
-wificonfigresult_t WiFiConfig::begin(int configarea, uint8_t forceConfigure, wificonfig_cb cb)
+wificonfigresult_t WiFiConfig::begin(int configarea, int forceConfigure, wificonfig_cb cb)
 {
 	wificonfigresult_t result = WCR_OK; // predpokladame, ze se pripojeni podari
@ -800,13 +937,15 @@ wificonfigresult_t WiFiConfig::begin(int configarea, uint8_t forceConfigure, wif
 	}
 	else
 	{
 #if defined(ESP8266)
 		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");
+			DEBUG_MSG("Wrong config (%d, %d)\r\n", EEPROM.read(configBase + offsetof(wificonfigarea_t, mode)), WiFi.getMode());
      _status = 0xfe;
 			result = _setupAP(cb);
 		}
 		else
 #endif
 		{
 			String s = _readString(configBase + offsetof(wificonfigarea_t, devname), elementSize(wificonfigarea_t, devname));
 			strcpy(WiFiDeviceName, s.c_str());
@ -815,7 +954,11 @@ wificonfigresult_t WiFiConfig::begin(int configarea, uint8_t forceConfigure, wif
 			{
 			case WIFIMODE_STA:
 			{
 #if defined(ESP8266)
 				WiFi.hostname(WiFiDeviceName); // nastavime jmeno zarizeni
 #else
        WiFi.setHostname(WiFiDeviceName);
 #endif
 				if (IPCONFIG_STATIC == EEPROM.read(configBase + offsetof(wificonfigarea_t, ip)))
 				{
 					DEBUG_MSG("Static configuration SET.\r\n");
@ -848,18 +991,14 @@ wificonfigresult_t WiFiConfig::begin(int configarea, uint8_t forceConfigure, wif
 	return result; // mame vyreseno
 }
-wificonfigresult_t WiFiConfig::begin(int configarea, uint8_t forceConfigure, int timeout, wificonfig_cb cb = NULL)
+wificonfigresult_t WiFiConfig::begin(int configarea, int 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
--- a/src/WiFiConfig.h
+++ b/src/WiFiConfig.h
@ -30,7 +30,11 @@
 #ifndef __WiFiConfig_h__
 #define __WiFiConfig_h__
 #if defined(ESP8266)
 #include <ESP8266WiFi.h>
 #else
 #include <WiFi.h>
 #endif
 #include <memory>
 #define elementSize(type, element) sizeof(((type *)0)->element)
@ -169,8 +173,8 @@ class WiFiConfig
 {
 public:
 	WiFiConfig(): _params(NULL), _timeout(0) {}
-	wificonfigresult_t begin(int configarea, uint8_t forceConfigure, wificonfig_cb cb);
+	wificonfigresult_t begin(int configarea, int forceConfigure, wificonfig_cb cb);
-	wificonfigresult_t begin(int configarea, uint8_t forceConfigure, int timeout, wificonfig_cb cb);
+	wificonfigresult_t begin(int configarea, int forceConfigure, int timeout, wificonfig_cb cb);
  void addParameter(WiFiConfigUsrParameter *p);
 private:
 	wificonfigresult_t _setupAP(wificonfig_cb cb);
`@ -2,4 +2,4 @@`

	`![Screenshot](doc/images/Screenshot_20180507-100906.png)`	`![Screenshot](doc/images/Screenshot_20180507-100906.png)`

	`Knihovna pro konfiguraci WiFi rozhraní modulu ESP8266`	`Knihovna pro konfiguraci WiFi rozhraní modulu ESP8266 a ESP32, obsahující Captive portal.`