//马达开 马达开 //马达关 马达关 //马达运行时间 马达时间 //马达开关次数 马达次数 //当前时间 北京时间 #include "Arduino.h" #include #include #include #include #include // 定义LED引脚 #define DHTPIN D4 //说明数据接口为8266开发板的D4口,也可以写为#define DHTPIN 2既8266芯片的IO口2 const int second = 30; //定时频率 // 新增变量:程序开始时间 unsigned long programStartTime = 0; // 新增变量:亮灯次数 unsigned long ledOnCount = 0; // 新增变量:累计亮灯时间 unsigned long totalLedOnTime = 0; // 休眠时间 const int night = 20; const int morning = 6; // 定义时间间隔(毫秒) const unsigned long intervalOn = 600000; const unsigned long intervalOff = 3000000; // 变量用于存储上次LED状态改变的时间 unsigned long previousMillis = 0; // 变量用于跟踪LED当前状态 bool ledState = HIGH; //抽水马达状态 const char *kai = "马达打开中"; const char *guan = "马达关闭中"; //定义WIFI信息 const char *ssid = "CU_A9TU"; // Enter SSID here const char *password = "452131wW"; //Enter Password here // MQTT Broker Settings const char *mqtt_broker = "192.168.3.24"; const char *mqtt_topic = "/device/esp8266/001"; const char *mqtt_username = "wenfei"; const char *mqtt_password = "452131wW"; const int mqtt_port = 1883; //端口 Ticker myTicker; WiFiClient espClient; PubSubClient mqtt_client(espClient); //北京时间校准 WiFiUDP ntpUDP; NTPClient timeClient(ntpUDP, "pool.ntp.org"); String currentTime; String openTime; //发送抽水马达状态 void sendMadaStatus(const char *str) { if(mqtt_client.connected()) { mqtt_client.publish(mqtt_topic, str); timeClient.update(); Serial.println(timeClient.getFormattedTime()); Serial.println(str); } } // 新增定时器回调函数 void timerCallback() { timeClient.update(); currentTime = timeClient.getFormattedTime(); String hours = currentTime.substring(0, 2); int hour = hours.toInt(); //判断是否处于休眠时间段 Serial.println(hour); if ((hour >= night) || (hour < morning)) { Serial.println("sleeping"); if(ledState == LOW) { // 关闭LED ledState = HIGH; digitalWrite(D4, ledState); } // 这里可以添加休眠代码,例如ESP32的深度睡眠 //ESP.deepSleep(1 * 60 * 1000000); // 休眠30秒 return; } // 获取当前时间 Serial.println("aliving"); unsigned long currentMillis = millis(); if (ledState == HIGH) { // 如果LED当前是关闭状态,检查是否到了打开的时间 if (currentMillis - previousMillis >= intervalOff) { // 记录上次状态改变的时间 previousMillis = currentMillis; ledState = LOW; digitalWrite(D4, ledState); sendMadaStatus(kai); timeClient.update(); currentTime = timeClient.getFormattedTime(); sendMadaStatus(currentTime.c_str()); } } else { // 如果LED当前是打开状态,检查是否到了关闭的时间 if (currentMillis - previousMillis >= intervalOn) { // 增加亮灯次数 ledOnCount++; // 累计亮灯时间 totalLedOnTime += intervalOn; // 记录上次状态改变的时间 previousMillis = currentMillis; ledState = HIGH; digitalWrite(D4, ledState); sendMadaStatus(guan); timeClient.update(); currentTime = timeClient.getFormattedTime(); sendMadaStatus(currentTime.c_str()); } } } //长时间断后 再开启WIFI无法连接的问题 void connectToWiFi() { Serial.println("Connecting to "); Serial.println(ssid); //connect to your local wi-fi network WiFi.begin(ssid, password); //check wi-fi is connected to wi-fi network while (WiFi.status() != WL_CONNECTED) { delay(1000); Serial.print("."); } Serial.println(""); Serial.println("WiFi connected..!"); Serial.print("Got IP: "); Serial.println(WiFi.localIP()); } void connectToMQTT() { while (!mqtt_client.connected()) { String client_id = "esp8266-client-" + String(WiFi.macAddress()); Serial.printf("Connecting to MQTT Broker as %s.....\n", client_id.c_str()); if (mqtt_client.connect(client_id.c_str(), mqtt_username, mqtt_password)) { Serial.println("Connected to MQTT broker"); timeClient.update(); openTime = timeClient.getFormattedTime(); mqtt_client.subscribe(mqtt_topic); mqtt_client.publish(mqtt_topic, openTime.c_str()); // Publish message upon successful connectionc_str() } else { Serial.print("Failed, rc="); Serial.print(mqtt_client.state()); Serial.println(" try again in 5 seconds"); delay(5000); } } } void mqttCallback(char *mqtt_topic, byte *payload, unsigned int length) { String str; Serial.print("Message received on mqtt_topic: "); Serial.println(mqtt_topic); Serial.print("Message: "); for (unsigned int i = 0; i < length; i++) { Serial.print((char)payload[i]); str += (char)payload[i]; } //马达开 if (str == "马达开") { digitalWrite(D4, LOW); sendMadaStatus(kai); } //马达关 if (str == "马达关") { digitalWrite(D4, HIGH); sendMadaStatus(guan); } //马达运行时间 if (str == "马达时间") { sendMadaStatus(((String)totalLedOnTime).c_str()); } //马达开关次数 if (str == "马达次数") { sendMadaStatus(((String)ledOnCount).c_str()); } //当前时间 if (str == "北京时间") { timeClient.update(); currentTime = timeClient.getFormattedTime(); sendMadaStatus(currentTime.c_str()); } // if(str=="重启") // { // esp_restart(); // } if (str == "状态") { String maDa = ""; if(ledState == LOW) { maDa = "马达关"; } else { maDa = "马达开"; } timeClient.update(); currentTime = timeClient.getFormattedTime(); String maDaStatus = ""; maDaStatus = "当前时间" + currentTime; //马达状态 maDaStatus += ("\n 开机时间: " + openTime); maDaStatus += ("\n 马达状态: " + maDa); maDaStatus += ("\n 马达累计运行时间: " + (String)(totalLedOnTime / 1000) + "秒"); maDaStatus += ("\n 马达累计运行次数: " + (String)ledOnCount); sendMadaStatus(maDaStatus.c_str()); } if (str == "help") { String help = "help 马达开 马达关 马达时间 马达次数 北京时间 状态 重启 "; sendMadaStatus(help.c_str()); } Serial.println("\n-----------------------"); Serial.println(str); } void setup() { Serial.begin(115200); Serial.print("开机成功"); // 记录程序开始时间 programStartTime = millis(); // 将LED引脚设置为输出模式 pinMode(D4, INPUT); ledState = HIGH; digitalWrite(D4, HIGH); // 假设使用Arduino的定时器库,这里简单模拟启动定时器 // 实际使用时需要根据具体定时器库修改 // 这里假设每1000ms调用一次定时器回调函数 myTicker.attach(second, timerCallback); // Call callbackFunction every 1 second ///连接WIFI connectToWiFi(); // Set Root CA certificate //espClient.setCACert(ca_cert); // 初始化NTP客户端 timeClient.begin(); // 设置时区偏移量,例如北京时间为 +8 小时,单位为秒 timeClient.setTimeOffset(28800); timeClient.update(); openTime = timeClient.getFormattedTime(); ///mqtt连接 mqtt_client.setServer(mqtt_broker, mqtt_port); mqtt_client.setKeepAlive(60); mqtt_client.setCallback(mqttCallback); // Corrected callback function name connectToMQTT(); } void loop() { mqtt_client.loop(); delay(10000); //连接WIFI if (WiFi.status() != WL_CONNECTED) { connectToWiFi(); } if (WiFi.status() == WL_CONNECTED) { //连接mqtt if (!mqtt_client.connected()) { connectToMQTT(); } } }