一、前言
目前市场上越来越火的 Combo 方案(Ble+WiFi),比如平头哥的TG7100C方案、乐鑫的ESP32等,如何高效使用蓝牙和wifi通讯,已经成为了必然的趋势,于是乎,做了个这样快速入门的demo给各位,奉献于物联网;
本项目适合的模组有: ESP32-S系列/ESP32-C3系列/ESP32-S3系列模组;
本开源工程用到的技术点有:
- 乐鑫物联网操作框架 esp-idf 的 freeRtos 实时操作系统熟悉,包括任务创建/消息队列/进程间通讯;
- 微信小程序开发基础,包括MQTT库/低功耗蓝牙API接口使用,包括搜索/连接/通讯;
- 使用乐鑫封装 RMT 驱动层单线驱动WS2812B,实现彩虹等效果;
- 对ESP32/C3芯片的外设开发熟悉,对BLE API接口使用熟悉,包括自定义广播/名字/自定义UUID;
二、设备核心代码
2.1 蓝牙控制
设置蓝牙广播名字
esp_ble_gap_set_device_name(TEST_DEVICE_NAME);
设置服务UUID
gl_profile_tab[0].service_id.is_primary = true;
gl_profile_tab[0].service_id.id.inst_id = 0x00;
gl_profile_tab[0].service_id.id.uuid.len = ESP_UUID_LEN_16;
gl_profile_tab[0].service_id.id.uuid.uuid.uuid16 = GATTS_SERVICE_UUID_TEST_A;
主动通知上位机数据发生改动:
case ESP_GATTS_READ_EVT:
{
esp_gatt_rsp_t rsp;
memset(&rsp, 0, sizeof(esp_gatt_rsp_t));
rsp.attr_value.handle = param->read.handle;
rsp.attr_value.len = 3;
rsp.attr_value.value[0] = red;
rsp.attr_value.value[1] = green;
rsp.attr_value.value[2] = blue;
esp_ble_gatts_send_response(gatts_if, param->read.conn_id, param->read.trans_id, ESP_GATT_OK, &rsp);
break;
}
上位机主动发送数据到此并做出对应的处理:
case ESP_GATTS_WRITE_EVT:
{
if (!param->write.is_prep)
{
ESP_LOGI(GATTS_TAG, "GATT_WRITE_EVT, value len %d, value :", param->write.len);
esp_log_buffer_hex(GATTS_TAG, param->write.value, param->write.len);
//发送数据到队列
struct __User_data *pTmper;
sprintf(user_data.allData, "{\"red\":%d,\"green\":%d,\"blue\":%d}", param->write.value[0], param->write.value[1], param->write.value[2]);
pTmper = &user_data;
user_data.dataLen = strlen(user_data.allData);
xQueueSend(ParseJSONQueueHandler, (void *)&pTmper, portMAX_DELAY);
ESP_LOGI(GATTS_TAG, "%02x %02x %02x ", param->write.value[0], param->write.value[1], param->write.value[2]);
}
example_write_event_env(gatts_if, &a_prepare_write_env, param);
break;
}
2.2 WiFi控制
设置MQTT远程连接的参数
/*
* @Description: MQTT参数连接的配置
* @param:
* @return:
*/
void TaskXMqttRecieve(void *p)
{
//连接的配置参数
esp_mqtt_client_config_t mqtt_cfg = {
.host = "www.xuhong.com", //连接的域名 ,请务必修改为您的
.port = 1883, //端口,请务必修改为您的
.username = "admin", //用户名,请务必修改为您的
.password = "xuhong123456", //密码,请务必修改为您的
.client_id = deviceUUID,
.event_handle = MqttCloudsCallBack, //设置回调函数
.keepalive = 120, //心跳
.disable_auto_reconnect = false, //开启自动重连
.disable_clean_session = false, //开启 清除会话
};
client = esp_mqtt_client_init(&mqtt_cfg);
esp_mqtt_client_start(client);
vTaskDelete(NULL);
}
服务器下发的处理数据,送往消息队列处理:
//服务器下发消息到本地成功接收回调
case MQTT_EVENT_DATA:
{
printf("TOPIC=%.*s \r\n", event->topic_len, event->topic);
printf("DATA=%.*s \r\n\r\n", event->data_len, event->data);
//发送数据到队列
struct __User_data *pTmper;
sprintf(user_data.allData, "%s", event->data);
pTmper = &user_data;
user_data.dataLen = event->data_len;
xQueueSend(ParseJSONQueueHandler, (void *)&pTmper, portMAX_DELAY);
break;
}
2.3 外设驱动
七彩灯WS2812B的驱动代码初始化:
/**
* @description: 封装一层设置RGB灯效果
* @param {uint16_t} Red 入参 红色
* @param {uint16_t} Green 入参 绿色
* @param {uint16_t} Blue 入参 蓝色
* @return {*}
*/
void set_rgb(uint16_t Red, uint16_t Green, uint16_t Blue)
{
for (int i = 0; i < 24; i++)
{
strip->set_pixel(strip, i, Red, Green, Blue);
}
red = Red;
green = Green;
blue = Blue;
strip->refresh(strip, 10);
}
/**
* @description: 初始化LED
* @param {*}
* @return {*}
*/
void init_led()
{
rmt_config_t config = RMT_DEFAULT_CONFIG_TX(4, RMT_TX_CHANNEL);
// set counter clock to 40MHz
config.clk_div = 2;
ESP_ERROR_CHECK(rmt_config(&config));
ESP_ERROR_CHECK(rmt_driver_install(config.channel, 0, 0));
// install ws2812 driver
led_strip_config_t strip_config = LED_STRIP_DEFAULT_CONFIG(24, (led_strip_dev_t)config.channel);
strip = led_strip_new_rmt_ws2812(&strip_config);
if (!strip)
{
ESP_LOGE(TAG, "install WS2812 driver failed");
}
// Clear LED strip (turn off all LEDs)
ESP_ERROR_CHECK(strip->clear(strip, 100));
set_rgb(0, 254, 0);
}
消息队列处理逻辑:
/*
* @Description: 解析下发数据的队列逻辑处理
* @param: null
* @return:
*/
void Task_ParseJSON(void *pvParameters)
{
printf("[SY] Task_ParseJSON_Message creat ... \n");
while (1)
{
struct __User_data *pMqttMsg;
printf("Task_ParseJSON_Message xQueueReceive wait [%d] ... \n", esp_get_free_heap_size());
xQueueReceive(ParseJSONQueueHandler, &pMqttMsg, portMAX_DELAY);
printf("Task_ParseJSON_Message xQueueReceive get [%s] ... \n", pMqttMsg->allData);
首先整体判断是否为一个json格式的数据
cJSON *pJsonRoot = cJSON_Parse(pMqttMsg->allData);
//如果是否json格式数据
if (pJsonRoot == NULL)
{
printf("[SY] Task_ParseJSON_Message xQueueReceive not json ... \n");
goto __cJSON_Delete;
}
cJSON *pJSON_Item_Red = cJSON_GetObjectItem(pJsonRoot, "red");
cJSON *pJSON_Item_Green = cJSON_GetObjectItem(pJsonRoot, "green");
cJSON *pJSON_Item_Blue = cJSON_GetObjectItem(pJsonRoot, "blue");
set_rgb(pJSON_Item_Red->valueint, pJSON_Item_Green->valueint, pJSON_Item_Blue->valueint);
__cJSON_Delete:
cJSON_Delete(pJsonRoot);
}
}
三、微信小程序核心代码
代码架构,UI主要采用第三方库:有 WeUI、Vant-UI库,其中的MQTT库采用开源的MQTT.JS库。
3.1 蓝牙搜索
wx.onBluetoothDeviceFound(function (devices) {
var isnotexist = true
if (devices.deviceId) {
if (devices.advertisData) {
devices.advertisData = app.buf2hex(devices.advertisData)
} else {
devices.advertisData = ''
}
for (var i = 0; i < that.data.devicesList.length; i++) {
if (devices.deviceId == that.data.devicesList[i].deviceId) {
isnotexist = false
}
}
if (isnotexist && devices[0].name === that.data.filterName ) {
that.data.devicesList.push(devices[0])
}
}
that.setData({
devicesList: that.data.devicesList
})
})
}
3.2 蓝牙服务发现
发现服务列表:wx.getBLEDeviceServices()
发现特征值列表:wx.getBLEDeviceCharacteristics()
发送设备,判断是否为蓝牙控制或wifi控制:
SendTap: function (red, green, blue) {
var that = this
if (!this.data.isCheckOutControl) {
if (this.data.connected) {
var buffer = new ArrayBuffer(that.data.inputText.length)
var dataView = new Uint8Array(buffer)
dataView[0] = red;
dataView[1] = green;
dataView[2] = blue;
wx.writeBLECharacteristicValue({
deviceId: that.data.connectedDeviceId,
serviceId: that.data.serviceId,
characteristicId: "0000FF01-0000-1000-8000-00805F9B34FB",
value: buffer,
success: function (res) {
console.log('发送成功')
}, fail() {
wx.showModal({
title: '提示',
content: '蓝牙已断开',
showCancel: false,
success: function (res) {
}
})
}
})
} else {
wx.showModal({
title: '提示',
content: '蓝牙已断开',
showCancel: false,
success: function (res) {
that.setData({
searching: false
})
}
})
}
} else {
//MQTT通讯发送
if (this.data.client && this.data.client.connected) {
this.data.client.publish('/esp32-c3/7cdfa1322e68/devSub', JSON.stringify({
red,green,blue}));
} else {
wx.showToast({
title: '请先连接服务器',
icon: 'none',
duration: 2000
})
}
}
},
四、感谢
为此,还开源了以下的代码仓库,共勉!!
| 开源项目 | 地址 | 开源时间 |
|---|---|---|
| 微信小程序连接mqtt服务器,控制esp8266智能硬件 | https://github.com/xuhongv/WeChatMiniEsp8266 | 2018.11 |
| 微信公众号airkiss配网以及近场发现在esp8266 rtos3.1 的实现 | https://github.com/xuhongv/xLibEsp8266Rtos3.1AirKiss | 2019.3 |
| 微信公众号airkiss配网以及近场发现在esp32 esp-idf 的实现 | https://github.com/xuhongv/xLibEsp32IdfAirKiss | 2019.9 |
| 微信小程序控制esp8266实现七彩效果项目源码 | https://github.com/xuhongv/WCMiniColorSetForEsp8266 | 2019.9 |
| 微信小程序蓝牙配网blufi实现在esp32源码 | https://github.com/xuhongv/BlufiEsp32WeChat | 2019.11 |
| 微信小程序蓝牙ble控制esp32七彩灯效果 | https://blog.csdn.net/xh870189248/article/details/101849759 | 2019.10 |
| 可商用的事件分发的微信小程序mqtt断线重连框架 | https://blog.csdn.net/xh870189248/article/details/88718302 | 2019.2 |
| 微信小程序以 websocket 连接阿里云IOT物联网平台mqtt服务器 | https://blog.csdn.net/xh870189248/article/details/91490697 | 2019.6 |
| 微信公众号网页实现连接mqtt服务器 | https://blog.csdn.net/xh870189248/article/details/100738444 | 2019.9 |
| 自主开发微信小程序接入腾讯物联开发平台,实现一键配网+控制 | https://github.com/xuhongv/AiThinkerIoTMini | 2020.9 |
| 云云对接方案天猫精灵小爱同学服务器+嵌入式Code开源 | https://github.com/xuhongv/xClouds-php | 2020.7 |
另外,感谢:
- 乐鑫物联网操作系统:https://github.com/espressif/esp-idf
- 腾讯WeUI框架:https://github.com/Tencent/weui-wxss
- 有赞Vant框架:https://vant-contrib.gitee.io/vant-weapp
- 本博文的源码下载:https://github.com/xuhongv/ESP32WiFiBleControlProject