ESP32 mit WIFI und MQTT rx und tx
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  1. #include <WiFi.h>
  2. #include <PubSubClient.h>
  3. //#include "struct.h"
  4. #include "eepromsettings.h"
  5. // Update these with values suitable for your network.
  6. const char* ssid = "Andreas-Grabner.NET";
  7. const char* password = "born2win";
  8. const char* mqtt_server = "192.168.11.35";
  9. #define mqtt_port 1883
  10. #define MQTT_USER "loxberry"
  11. #define MQTT_PASSWORD "OSVL0AMqISFXgr5g"
  12. #define MQTT_SERIAL_PUBLISH_CH "ESP32/Heizung/status"
  13. #define MQTT_SERIAL_RECEIVER_CH "ESP32/Heizung/stufe"
  14. WiFiClient wifiClient;
  15. PubSubClient client(wifiClient);
  16. // Webserver
  17. WiFiServer server(80);
  18. String header;
  19. // Auxiliar variables to store the current output state
  20. String output26State = "off";
  21. String output27State = "off";
  22. // Assign output variables to GPIO pins
  23. const int output26 = 26;
  24. const int output27 = 27;
  25. /* Store all string in the FLASH storage to free SRAM.
  26. The P() is a function from Webduino.
  27. */
  28. P(Page_start) = "<html><head><title>Web_EEPROM_Setup</title></head><body>\n";
  29. P(Page_end) = "</body></html>";
  30. P(Http400) = "HTTP 400 - BAD REQUEST";
  31. P(Index) = "<h1>index.html</h1><br>This is your main site!<br>The code is found in the indexHTML() function.<br>You can add more sites if you need. Please see the well documented source code.<br><br>Use the following link to setup the network.<br><a href=\"setupNet.html\">NETWORK SETUP</a>";
  32. P(Form_eth_start) = "<FORM action=\"setupNet.html\" method=\"get\">";
  33. P(Form_end) = "<FORM>";
  34. P(Form_input_send) = "<INPUT type=\"submit\" value=\"Set config\">";
  35. P(Form_input_text_start) = "<input type=\"text\" name=\"";
  36. P(Form_input_value) = "\" value=\"";
  37. P(Form_input_size2) = "\" maxlength=\"2\" size=\"2";
  38. P(Form_input_size3) = "\" maxlength=\"3\" size=\"3";
  39. P(Form_input_end) = "\">\n";
  40. P(MAC) = "MAC address: ";
  41. P(IP) = "IP address: ";
  42. P(SUBNET) = "Subnet: ";
  43. P(GW) = "GW address: ";
  44. P(DNS_SERVER) = "DNS server: ";
  45. P(WEB_PORT) = "Webserver port (1-65535): ";
  46. P(DHCP_ACTIVE) = "Use DHCP: ";
  47. P(DHCP_REFRESH) = "Renew interval for DHCP in minutes (1 - 255): ";
  48. P(MQTT_SERVER) = "MQTT server: ";
  49. P(MQTT_PORT) = "MQTTserver port (1-65535): ";
  50. P(Form_cb) = "<input type=\"radio\" name=\"23\" value=\"";
  51. P(Form_cb_checked) = " checked ";
  52. P(Form_cb_on) = ">On";
  53. P(Form_cb_off) = ">Off";
  54. P(br) = "<br>\n";
  55. P(table_start) = "<table>";
  56. P(table_tr_start) = "<tr>";
  57. P(table_tr_end) = "</tr>";
  58. P(table_td_start) = "<td>";
  59. P(table_td_end) = "</td>";
  60. P(table_end) = "</table>";
  61. P(Config_set) = "<font size=\"6\" color=\"red\">New configuration stored! <br>Please turn off and on your Arduino or use the reset button!</font><br>";
  62. P(DHCP_STATE_TIME) = "DHCP last renew timestamp (sec)";
  63. P(DHCP_STATE) = "DHCP renew return code (sec)";
  64. P(UPTIME) = "Uptime: ";
  65. #ifdef USE_SYSTEM_LIBRARY
  66. P(RAM_1) = "RAM (byte): ";
  67. P(RAM_2) = " free of ";
  68. #endif
  69. void setup_wifi() {
  70. delay(10);
  71. // We start by connecting to a WiFi network
  72. Serial.println();
  73. Serial.print("Connecting to ");
  74. Serial.println(ssid);
  75. WiFi.begin(ssid, password);
  76. while (WiFi.status() != WL_CONNECTED) {
  77. delay(500);
  78. Serial.print(".");
  79. }
  80. randomSeed(micros());
  81. Serial.println("");
  82. Serial.println("WiFi connected");
  83. Serial.println("IP address: ");
  84. Serial.println(WiFi.localIP());
  85. }
  86. void setup_webserver() {
  87. server.begin();
  88. }
  89. void reconnect() {
  90. // Loop until we're reconnected
  91. while (!client.connected()) {
  92. Serial.print("Attempting MQTT connection...");
  93. // Create a random client ID
  94. String clientId = "ESP32Client-";
  95. clientId += String(random(0xffff), HEX);
  96. // Attempt to connect
  97. if (client.connect(clientId.c_str(),MQTT_USER,MQTT_PASSWORD)) {
  98. Serial.println("connected");
  99. //Once connected, publish an announcement...
  100. client.publish("ESP32/Heizung/Status/restart", "done");
  101. // ... and resubscribe
  102. client.subscribe(MQTT_SERIAL_RECEIVER_CH);
  103. } else {
  104. Serial.print("failed, rc=");
  105. Serial.print(client.state());
  106. Serial.println(" try again in 5 seconds");
  107. // Wait 5 seconds before retrying
  108. delay(5000);
  109. }
  110. }
  111. }
  112. void callback(char* topic, byte *payload, unsigned int length) {
  113. Serial.println("-------new message from broker-----");
  114. Serial.print("channel:");
  115. Serial.println(topic);
  116. Serial.print("data:");
  117. Serial.write(payload, length);
  118. Serial.println();
  119. }
  120. void setup() {
  121. Serial.begin(115200);
  122. Serial.setTimeout(500);// Set time out for
  123. setup_wifi();
  124. setup_webserver();
  125. client.setServer(mqtt_server, mqtt_port);
  126. client.setCallback(callback);
  127. reconnect();
  128. }
  129. void publishSerialData(char *serialData){
  130. if (!client.connected()) {
  131. reconnect();
  132. }
  133. client.publish(MQTT_SERIAL_PUBLISH_CH, serialData);
  134. }
  135. void loop_webserver() {
  136. WiFiClient client = server.available(); // Listen for incoming clients
  137. if (client) { // If a new client connects,
  138. Serial.println("New Client."); // print a message out in the serial port
  139. String currentLine = ""; // make a String to hold incoming data from the client
  140. while (client.connected()) { // loop while the client's connected
  141. if (client.available()) { // if there's bytes to read from the client,
  142. char c = client.read(); // read a byte, then
  143. Serial.write(c); // print it out the serial monitor
  144. header += c;
  145. if (c == '\n') { // if the byte is a newline character
  146. // if the current line is blank, you got two newline characters in a row.
  147. // that's the end of the client HTTP request, so send a response:
  148. if (currentLine.length() == 0) {
  149. // HTTP headers always start with a response code (e.g. HTTP/1.1 200 OK)
  150. // and a content-type so the client knows what's coming, then a blank line:
  151. client.println("HTTP/1.1 200 OK");
  152. client.println("Content-type:text/html");
  153. client.println("Connection: close");
  154. client.println();
  155. // turns the GPIOs on and off
  156. if (header.indexOf("GET /26/on") >= 0) {
  157. Serial.println("GPIO 26 on");
  158. output26State = "on";
  159. digitalWrite(output26, HIGH);
  160. } else if (header.indexOf("GET /26/off") >= 0) {
  161. Serial.println("GPIO 26 off");
  162. output26State = "off";
  163. digitalWrite(output26, LOW);
  164. } else if (header.indexOf("GET /27/on") >= 0) {
  165. Serial.println("GPIO 27 on");
  166. output27State = "on";
  167. digitalWrite(output27, HIGH);
  168. } else if (header.indexOf("GET /27/off") >= 0) {
  169. Serial.println("GPIO 27 off");
  170. output27State = "off";
  171. digitalWrite(output27, LOW);
  172. }
  173. // Display the HTML web page
  174. client.println("<!DOCTYPE html><html>");
  175. client.println("<head><meta name=\"viewport\" content=\"width=device-width, initial-scale=1\">");
  176. client.println("<link rel=\"icon\" href=\"data:,\">");
  177. // CSS to style the on/off buttons
  178. // Feel free to change the background-color and font-size attributes to fit your preferences
  179. client.println("<style>html { font-family: Helvetica; display: inline-block; margin: 0px auto; text-align: center;}");
  180. client.println(".button { background-color: #4CAF50; border: none; color: white; padding: 16px 40px;");
  181. client.println("text-decoration: none; font-size: 30px; margin: 2px; cursor: pointer;}");
  182. client.println(".button2 {background-color: #555555;}</style></head>");
  183. // Web Page Heading
  184. client.println("<body><h1>ESP32 Web Server</h1>");
  185. // Display current state, and ON/OFF buttons for GPIO 26
  186. client.println("<p>GPIO 26 - State " + output26State + "</p>");
  187. // If the output26State is off, it displays the ON button
  188. if (output26State=="off") {
  189. client.println("<p><a href=\"/26/on\"><button class=\"button\">ON</button></a></p>");
  190. } else {
  191. client.println("<p><a href=\"/26/off\"><button class=\"button button2\">OFF</button></a></p>");
  192. }
  193. // Display current state, and ON/OFF buttons for GPIO 27
  194. client.println("<p>GPIO 27 - State " + output27State + "</p>");
  195. // If the output27State is off, it displays the ON button
  196. if (output27State=="off") {
  197. client.println("<p><a href=\"/27/on\"><button class=\"button\">ON</button></a></p>");
  198. } else {
  199. client.println("<p><a href=\"/27/off\"><button class=\"button button2\">OFF</button></a></p>");
  200. }
  201. client.println("</body></html>");
  202. // The HTTP response ends with another blank line
  203. client.println();
  204. // Break out of the while loop
  205. break;
  206. } else { // if you got a newline, then clear currentLine
  207. currentLine = "";
  208. }
  209. } else if (c != '\r') { // if you got anything else but a carriage return character,
  210. currentLine += c; // add it to the end of the currentLine
  211. }
  212. }
  213. }
  214. // Clear the header variable
  215. header = "";
  216. // Close the connection
  217. client.stop();
  218. Serial.println("Client disconnected.");
  219. Serial.println("");
  220. }
  221. }
  222. void loop() {
  223. client.loop();
  224. loop_webserver();
  225. if (Serial.available() > 0) {
  226. char mun[501];
  227. memset(mun,0, 501);
  228. Serial.readBytesUntil( '\n',mun,500);
  229. publishSerialData(mun);
  230. }
  231. }