本文介绍了一种利用Arduino Uno配合ESP8266模块,通过MQTT协议将温度数据上传到阿里云物联网平台的解决方案。在Arduino Uno端,代码实现了读取LM35传感器数据、显示和控制功能,并通过ESP8266连接WiFi发送数据。ESP8266端使用阿里云SDK,负责接收和发送数据。尽管遇到了供电和自动断连问题,但功能已调试完成。
将arduino uno的数据上传到云平台
解决方案
加一块esp8266的单片机,连接wifi,在通过mqtt协议,既可以将传感器的数据上传到云平台,并且接收云端上传的数据。
该份代码,本来是将配送车的传感器信息连接到云平台,并能反馈控制。但是由于esp8266供电(一连接uno,显示屏就暗了,好解决)和esp8266自动断电能重新WiFi连接的问题,还没有在配送车上启动。功能已经调试完成
adruino uno方面代码
接收与esp8266/蓝牙的信号,同时有显示屏,继电器,温度传感器模组,具体实现可以看代码
/*
*连接esp8266与uno的连接
*将温度数据发送到云端,并能接收云端的指令
*/
/*------------库函数*----------------------*/
//液晶显示模块
#include <Wire.h>
#include "LiquidCrystal_I2C.h"
// 此处0x27改成刚才检测到的地址即可。
LiquidCrystal_I2C lcd(0x27,16,4);
//蓝牙模块
#include <SoftwareSerial.h>
// Pin10为RX,接HC05的TXD
// Pin11为TX,接HC05的RXD
SoftwareSerial BT(10, 11);
/*--------------变量设置*----------------*/
int lock= 7;//电磁锁
float read_val;//读取数据
char c_length[10];
char temp[] = "T";
String comdata = "";
int mark = 0;
/*-------------结构体数据--------------*/
struct {
float temptrue ;//温度数据
bool isReceive ;
}send_data;
/*------------延时设置----------------------*/
unsigned long previousMillis = 0;
// 此处为1000毫秒,也即1秒钟,
const long interval = 1000;
/*-------------------函数头-------------------*/
void first_show(); //首次显示内容
void box_show(); //开箱显示
void tep_show(); //温度显示
void tep_send();//温度数据发送
/*---------------初始化----------------------*/
void setup(){
lcd.init();//初始化
lcd.backlight(); //开启lcd背光灯
send_data.isReceive = false ;//发送数据标志位
pinMode(lock, OUTPUT);
pinMode(13, OUTPUT);
Serial.begin(115200);
BT.begin(38400);
}
/*-----------------------主循环-----------------------*/
void loop(){
unsigned long currentMillis = millis();
read_val=analogRead(A0);//Connect LM35 on Analog 0
send_data.temptrue = (float) read_val * (5/10.24); //转化为温度
/*--------------间隔发送数据------------------*/
if (currentMillis - previousMillis >= interval) {
previousMillis = currentMillis;
tep_send();
}
/*------------------蓝牙端控制-----------------------*/
while(BT.available()){
char c = BT.read();
Serial.println("BT is ready!");
if(c=='1'){
box_show();
}
if(c=='2') {
tep_show();
}
if(c=='3'){
re_show();
}
}
/*----------------esp8266连接测试-----------------------*/
//不断循环检测串口缓存,一个个读入字符串,
while (Serial.available() > 0&& Serial.available() <10 )
{
comdata += char(Serial.read());
delay(2);
mark = 1;
}
if(mark == 1){
Serial.println(comdata);
param_data();
}
first_show();
}
/*-------------------具体函数实现部分-------------------*/
//初始化显示
void first_show(){
lcd.setCursor(0, 0);
lcd.print("The ROS car");
// lcd.setCursor(0, 1);
// lcd.print(" ---2020.10.3");
}
//开锁以及lcd显示
void box_show(){
lcd.init(); // initialize the lcd
lcd.setCursor(0, 0);
lcd.print("open box");
digitalWrite(lock,HIGH);
delay(500);
digitalWrite(lock,LOW);
delay(3000);}
//显示温度
void tep_show(){
lcd.init();
lcd.setCursor(0, 0);
lcd.print("Tep:");
lcd.print(send_data.temptrue);
lcd.print("C");
delay(3000);}
//重启屏幕
void re_show(){
lcd.init(); // initialize the lcd
lcd.setCursor(0, 0);
lcd.print("Restart lcd");
digitalWrite(13,HIGH);
delay(3000);
}
//发送温度数据
void tep_send(){
//float ->char
dtostrf(send_data.temptrue,2,2,c_length);
char temp[] = "T";
//字符串拼接
strcat(temp,c_length);
Serial.println(temp);
}
void param_data(){
for(int i = 0; i < comdata.length() ; i++){
if(comdata[i] == '$'){
send_data.isReceive = true;
}
/*-------------三种模式---------------*/
//开锁以及lcd显示
if(comdata[i] == '1'){
if(send_data.isReceive)
{
box_show();
send_data.isReceive = false;
mark =0;
comdata = "";
}
}
//显示温度
if(comdata[i] == '2'){
if(send_data.isReceive)
{
tep_show();
send_data.isReceive = false;
mark =0;
comdata = "";
}
}
//重启屏幕
if(comdata[i] == '3'){
if(send_data.isReceive)
{
re_show();
send_data.isReceive = false;
mark =0;
comdata = "";
}
}
}
send_data.isReceive = false;
mark =0;
comdata = "";
}
esp8266 方面代码
由于用了阿里云提供的官方库,并且在提供的cpp里面进行了修改,主要是字符串的发送与解析,代码非常冗余。
主要是不会跳出esp8266主函数里面的循环,只能对sdk的内容进行修改。
主函数
/*-----------库函数----------------------*/
//wifi模块
#include <ESP8266WiFi.h>
static WiFiClient espClient;
// 引入阿里云 IoT SDK
#include "AliyunIoTSDK.h"
//软引脚设置
//#include<SoftwareSerial.h>
//D8 -> TX ,D7 ->RX
//SoftwareSerial mySerial(15, 13); // RX, TX
/*--------- 设置产品和设备的信息,从阿里云设备信息里查看-----------*/
#define PRODUCT_KEY "xxxx"
#define DEVICE_NAME "esp8266"
#define DEVICE_SECRET "xxxxxxx"
#define REGION_ID "cn-shanghai"
/*------------wifi 设置-----------------------*/
#define WIFI_SSID "xxxx"
#define WIFI_PASSWD "xxxxx"
void setup()
{
Serial.begin(115200);
// mySerial.begin(115200);
// 初始化 wifi
wifiInit(WIFI_SSID, WIFI_PASSWD);
// 初始化 iot,需传入 wifi 的 client,和设备产品信息
AliyunIoTSDK::begin(espClient, PRODUCT_KEY, DEVICE_NAME, DEVICE_SECRET, REGION_ID);
// 绑定一个设备属性回调,当远程修改此属性,会触发 powerCallback
// PowerSwitch 是在设备产品中定义的物联网模型的 id
AliyunIoTSDK::bindData("BtSwitch", BtSwitch);
}
void loop()
{
AliyunIoTSDK::loop();
//Serial.println("18");
// if(Serial.available()){
// float c = Serial.read();
// Serial.println(c);
// AliyunIoTSDK::send("TargetTemperature", c);
// }
}
// 初始化 wifi 连接
void wifiInit(const char *ssid, const char *passphrase)
{
WiFi.mode(WIFI_STA);
WiFi.begin(ssid, passphrase);
while (WiFi.status() != WL_CONNECTED)
{
delay(1000);
Serial.println("WiFi not Connect");
}
Serial.println("Connected to AP");
}
// 开关修改的回调函数
void BtSwitch(JsonVariant p)
{
int PowerSwitch = p["BtSwitch"];
if(PowerSwitch == 1){
//字符串发送
Serial.write("$1");
}
else if(PowerSwitch == 2){
Serial.write("$2");
}
else if(PowerSwitch == 3){
Serial.write("$3");
}
}
阿里云sdk
cpp部分
#include "AliyunIoTSDK.h"
#include <PubSubClient.h>
#include <SHA256.h>
#define CHECK_INTERVAL 1000
#define MESSAGE_BUFFER_SIZE 10
#define RETRY_CRASH_COUNT 5
static const char *deviceName = NULL;
static const char *productKey = NULL;
static const char *deviceSecret = NULL;
static const char *region = NULL;
static String txtMsg = "";
char char_one ;
int flag_i =0 ;
String param_c ;
char test_str[100];
struct DeviceProperty
{
String key;
String value;
};
DeviceProperty PropertyMessageBuffer[MESSAGE_BUFFER_SIZE];
#define MQTT_PORT 1883
#define SHA256HMAC_SIZE 32
#define DATA_CALLBACK_SIZE 20
#define ALINK_BODY_FORMAT "{\"id\":\"123\",\"version\":\"1.0\",\"method\":\"thing.event.property.post\",\"params\":%s}"
#define ALINK_EVENT_BODY_FORMAT "{\"id\": \"123\",\"version\": \"1.0\",\"params\": %s,\"method\": \"thing.event.%s.post\"}"
static unsigned long lastMs = 0;
static int retry_count = 0;
static PubSubClient *client = NULL;
char AliyunIoTSDK::clientId[256] = "";
char AliyunIoTSDK::mqttUsername[100] = "";
char AliyunIoTSDK::mqttPwd[256] = "";
char AliyunIoTSDK::domain[150] = "";
char AliyunIoTSDK::ALINK_TOPIC_PROP_POST[150] = "";
char AliyunIoTSDK::ALINK_TOPIC_PROP_SET[150] = "";
char AliyunIoTSDK::ALINK_TOPIC_EVENT[150] = "";
static String hmac256(const String &signcontent, const String &ds)
{
byte hashCode[SHA256HMAC_SIZE];
SHA256 sha256;
const char *key = ds.c_str();
size_t keySize = ds.length();
sha256.resetHMAC(key, keySize);
sha256.update((const byte *)signcontent.c_str(), signcontent.length());
sha256.finalizeHMAC(key, keySize, hashCode, sizeof(hashCode));
String sign = "";
for (byte i = 0; i < SHA256HMAC_SIZE; ++i)
{
sign += "0123456789ABCDEF"[hashCode[i] >> 4];
sign += "0123456789ABCDEF"[hashCode[i] & 0xf];
}
return sign;
}
static void parmPass(JsonVariant parm)
{
// const char *method = parm["method"];
for (int i = 0; i < DATA_CALLBACK_SIZE; i++)
{
if (poniter_array[i].key)
{
bool hasKey = parm["params"].containsKey(poniter_array[i].key);
if (hasKey)
{
poniter_array[i].fp(parm["params"]);
}
}
}
}
// 所有云服务的回调都会首先进入这里,例如属性下发
static void callback(char *topic, byte *payload, unsigned int length)
{
// Serial.print("Message arrived [");
// Serial.print(topic);
// Serial.print("] ");
payload[length] = '\0';
// Serial.println((char *)payload);
if (strstr(topic, AliyunIoTSDK::ALINK_TOPIC_PROP_SET))
{
StaticJsonDocument<200> doc;
DeserializationError error = deserializeJson(doc, payload); //反序列化JSON数据
if (!error) //检查反序列化是否成功
{
parmPass(doc.as<JsonVariant>()); //将参数传递后打印输出
}
}
}
static bool mqttConnecting = false;
void(* resetFunc) (void) = 0; //制造重启命令
void AliyunIoTSDK::mqttCheckConnect()
{
if (client != NULL && !mqttConnecting)
{
if (!client->connected())
{
client->disconnect();
Serial.println("Connecting to MQTT Server ...");
mqttConnecting = true;
if (client->connect(clientId, mqttUsername, mqttPwd))
{
Serial.println("MQTT Connected!");
}
else
{
Serial.print("MQTT Connect err:");
Serial.println(client->state());
retry_count++;
if(retry_count > RETRY_CRASH_COUNT){
resetFunc();
}
}
mqttConnecting = false;
}
else
{
//Serial.println("state is connected");
// read_serial_data();
retry_count = 0;
}
}
}
void AliyunIoTSDK::begin(Client &espClient,
const char *_productKey,
const char *_deviceName,
const char *_deviceSecret,
const char *_region)
{
client = new PubSubClient(espClient);
productKey = _productKey;
deviceName = _deviceName;
deviceSecret = _deviceSecret;
region = _region;
long times = millis();
String timestamp = String(times);
sprintf(clientId, "%s|securemode=3,signmethod=hmacsha256,timestamp=%s|", deviceName, timestamp.c_str());
String signcontent = "clientId";
signcontent += deviceName;
signcontent += "deviceName";
signcontent += deviceName;
signcontent += "productKey";
signcontent += productKey;
signcontent += "timestamp";
signcontent += timestamp;
String pwd = hmac256(signcontent, deviceSecret);
strcpy(mqttPwd, pwd.c_str());
sprintf(mqttUsername, "%s&%s", deviceName, productKey);
sprintf(ALINK_TOPIC_PROP_POST, "/sys/%s/%s/thing/event/property/post", productKey, deviceName);
sprintf(ALINK_TOPIC_PROP_SET, "/sys/%s/%s/thing/service/property/set", productKey, deviceName);
sprintf(ALINK_TOPIC_EVENT, "/sys/%s/%s/thing/event", productKey, deviceName);
sprintf(domain, "%s.iot-as-mqtt.%s.aliyuncs.com", productKey, region);
client->setServer(domain, MQTT_PORT); /* 连接WiFi之后,连接MQTT服务器 */
client->setCallback(callback);
mqttCheckConnect();
}
void AliyunIoTSDK::loop()
{
client->loop();
read_serial_data();
param_read_data();
if (millis() - lastMs >= CHECK_INTERVAL)
{
lastMs = millis();
mqttCheckConnect();
send_data_lot();
messageBufferCheck();
}
}
void AliyunIoTSDK::sendEvent(const char *eventId, const char *param)
{
char topicKey[156];
sprintf(topicKey, "%s/%s/post", ALINK_TOPIC_EVENT, eventId);
char jsonBuf[1024];
sprintf(jsonBuf, ALINK_EVENT_BODY_FORMAT, param, eventId);
//Serial.println(jsonBuf);
boolean d = client->publish(topicKey, jsonBuf);
// Serial.print("publish:0 成功:");
//Serial.println(d);
}
void AliyunIoTSDK::sendEvent(const char *eventId)
{
sendEvent(eventId, "{}");
}
unsigned long lastSendMS = 0;
// 检查是否有数据需要发送
void AliyunIoTSDK::messageBufferCheck()
{
int bufferSize = 0;
for (int i = 0; i < MESSAGE_BUFFER_SIZE; i++)
{
if (PropertyMessageBuffer[i].key.length() > 0)
{
bufferSize++;
}
}
// Serial.println("bufferSize:");
// Serial.println(bufferSize);
if (bufferSize > 0)
{
if (bufferSize >= MESSAGE_BUFFER_SIZE)
{
sendBuffer();
}
else
{
unsigned long nowMS = millis();
// 3s 发送一次数据
if (nowMS - lastSendMS > 5000)
{
sendBuffer();
lastSendMS = nowMS;
}
}
}
}
// 发送 buffer 数据
void AliyunIoTSDK::sendBuffer()
{
int i;
String buffer;
for (i = 0; i < MESSAGE_BUFFER_SIZE; i++)
{
if (PropertyMessageBuffer[i].key.length() > 0)
{
buffer += "\"" + PropertyMessageBuffer[i].key + "\":" + PropertyMessageBuffer[i].value + ",";
PropertyMessageBuffer[i].key = "";
PropertyMessageBuffer[i].value = "";
}
}
buffer = "{" + buffer.substring(0, buffer.length() - 1) + "}";
send(buffer.c_str());
}
void addMessageToBuffer(char *key, String value)
{
int i;
for (i = 0; i < MESSAGE_BUFFER_SIZE; i++)
{
if (PropertyMessageBuffer[i].key.length() == 0)
{
PropertyMessageBuffer[i].key = key;
PropertyMessageBuffer[i].value = value;
break;
}
}
}
void AliyunIoTSDK::send(const char *param)
{
char jsonBuf[1024];
sprintf(jsonBuf, ALINK_BODY_FORMAT, param);
//Serial.println(jsonBuf);
boolean d = client->publish(ALINK_TOPIC_PROP_POST, jsonBuf);
// Serial.print("publish:0 成功:");
// Serial.println(d);
}
void AliyunIoTSDK::send(char *key, float number)
{
addMessageToBuffer(key, String(number));
messageBufferCheck();
}
void AliyunIoTSDK::send(char *key, int number)
{
addMessageToBuffer(key, String(number));
messageBufferCheck();
}
void AliyunIoTSDK::send(char *key, double number)
{
addMessageToBuffer(key, String(number));
messageBufferCheck();
}
void AliyunIoTSDK::send(char *key, char *text)
{
addMessageToBuffer(key, "\"" + String(text) + "\"");
messageBufferCheck();
}
int AliyunIoTSDK::bindData( char *key, poniter_fun fp)
{
int i;
for (i = 0; i < DATA_CALLBACK_SIZE; i++)
{
if (!poniter_array[i].fp)
{
poniter_array[i].key = key;
poniter_array[i].fp = fp;
return 0;
}
}
return -1;
}
int AliyunIoTSDK::unbindData(char *key)
{
int i;
for (i = 0; i < DATA_CALLBACK_SIZE; i++)
{
if (!strcmp(poniter_array[i].key, key))
{
poniter_array[i].key = NULL;
poniter_array[i].fp = NULL;
return 0;
}
}
return -1;
}
void AliyunIoTSDK::read_serial_data(){
if(Serial.available()>0){
char_one = (char)Serial.read();
if (char_one == '\n') {
txtMsg +=char_one;
//Serial.println(txtMsg);
}else {
txtMsg +=char_one;
}
// Serial.println("ok");
}
}
void AliyunIoTSDK::param_read_data(){
int i =100;
for(i=1;txtMsg[i];i++){
param_c += txtMsg[i];
test_str[i-1] = txtMsg[i];
if (txtMsg[0] = 'T'){
flag_i = 1;
}
else{
flag_i = 0;
}
if (txtMsg[i] == '\n'){
txtMsg = "";
return ;
}
}
}
void AliyunIoTSDK::send_data_lot(){
switch(flag_i){
case 0:
memset(test_str,0,sizeof(test_str));
param_c = "";
break;
case 1:
float send_f;
char* pEnd;
send_f = strtof(test_str,&pEnd);
send("TargetTemperature", send_f);
break;
}
}
函数头部分
#ifndef ALIYUN_IOT_SDK_H
#define ALIYUN_IOT_SDK_H
#include <Arduino.h>
#include <ArduinoJson.h>
#include "Client.h"
typedef void (*poniter_fun)(JsonVariant ele); //定义一个函数指针
typedef struct poniter_desc
{
char *key;
poniter_fun fp;
} poniter_desc, *p_poniter_desc;
// 最多绑定20个回调
static poniter_desc poniter_array[20];
static p_poniter_desc p_poniter_array;
class AliyunIoTSDK
{
private:
// mqtt 链接信息,动态生成的
static char mqttPwd[256];
static char clientId[256];
static char mqttUsername[100];
static char domain[150];
// 定时检查 mqtt 链接
static void mqttCheckConnect();
static void messageBufferCheck();
static void sendBuffer();
public:
// 标记一些 topic 模板
static char ALINK_TOPIC_PROP_POST[150];
static char ALINK_TOPIC_PROP_SET[150];
static char ALINK_TOPIC_EVENT[150];
// 在主程序 loop 中调用,检查连接和定时发送信息
static void loop();
static void read_serial_data();
static void param_read_data();
static void send_data_lot();
/**
* 初始化程序
* @param ssid wifi名
* @param passphrase wifi密码
*/
static void begin(Client &espClient,
const char *_productKey,
const char *_deviceName,
const char *_deviceSecret,
const char *_region);
/**
* 发送数据
* @param param 字符串形式的json 数据,例如 {"${key}":"${value}"}
*/
static void send(const char *param);
/**
* 发送 float 格式数据
* @param key 数据的 key
* @param number 数据的值
*/
static void send(char *key, float number);
/**
* 发送 int 格式数据
* @param key 数据的 key
* @param number 数据的值
*/
static void send(char *key, int number);
/**
* 发送 double 格式数据
* @param key 数据的 key
* @param number 数据的值
*/
static void send(char *key, double number);
/**
* 发送 string 格式数据
* @param key 数据的 key
* @param text 数据的值
*/
static void send(char *key, char *text);
/**
* 发送事件到云平台(附带数据)
* @param eventId 事件名,在阿里云物模型中定义好的
* @param param 字符串形式的json 数据,例如 {"${key}":"${value}"}
*/
static void sendEvent(const char *eventId, const char *param);
/**
* 发送事件到云平台(空数据)
* @param eventId 事件名,在阿里云物模型中定义好的
*/
static void sendEvent(const char *eventId);
/**
* 绑定回调,所有云服务下发的数据都会进回调
*/
// static void bind(MQTT_CALLBACK_SIGNATURE);
/**
* 绑定事件回调,云服务下发的特定事件会进入回调
* @param eventId 事件名
*/
// static void bindEvent(const char * eventId, MQTT_CALLBACK_SIGNATURE);
/**
* 绑定属性回调,云服务下发的数据包含此 key 会进入回调,用于监听特定数据的下发
* @param key 物模型的key
*/
static int bindData(char *key, poniter_fun fp);
/**
* 卸载某个 key 的所有回调(慎用)
* @param key 物模型的key
*/
static int unbindData(char *key);
};
#endif
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