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订阅 同一个主题 cmd/macadd 相关代码改动

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szdot 2023-09-15 13:40:46 +08:00
parent a7d9f79b8c
commit 07f70cc473
2 changed files with 441 additions and 410 deletions
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FoodDelivery.ino
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@ -14,11 +14,7 @@ uint8_t voiceSerial = 1; //声音模块占用串口
char* udpServerIP = "192.168.3.92"; //云台相机ip
uint32_t udpServerPort = 37260; //云台相机端口
FoodCube fc(ssid, password, mqttServer, mqttPort, mqttName, mqttPassword, mavlinkSerial, voiceSerial, udpServerIP, udpServerPort); //创建项目对象
/*订阅 主题*/
//0:飞行航点任务 1设置飞机状态 2:获取飞机状态 3:设置飞机初始状态 4:油门通道1 5:油门通道2 6:油门通道3 7:油门通道4 8:钩子控制 9:云台相机控制
String topicSub[] = { "questAss", "setPlaneState", "getPlaneState", "resetState", "chan1", "chan2", "chan3", "chan4", "hookConteroller", "cameraController" }; //订阅主题
int topicSubCount = sizeof(topicSub) / sizeof(topicSub[0]); //订阅主题总数
FoodCube fc(ssid, password, mqttServer, mqttPort, mqttName, mqttPassword, mavlinkSerial, voiceSerial, udpServerIP, udpServerPort); //创建项目对象 //订阅主题总数
/* 发布 主题 ps:以下是登记发布json内容的组成元素 */
//登记 json成员名字
//0:心跳信息 1:电压信息 2:电流信息 3:电池电量 4:相对高度信息 5:对地速度 6:卫星数量 7:纬度 8:经度 9:定位状态 10:飞机状态 11:网速测试 12:飞机模式 13:重量 14:钩子状态 15:{经度,维度,海拔高度}
@ -63,45 +59,51 @@ void loop() {
/**
* @description: mqtt订阅主题
* @param {char*} topic
* @param {char*} topic msg/macadd
* @param {byte*} topic
* @param {unsigned int} length
*/
void mqtt_receiveCallback(char* topic, byte* payload, unsigned int length) {
/*获取 "订阅主题/macadd" 截取/macadd后的长度 */
int count = strlen(topic);
String cutTopic = ""; //记录订阅主题
for (int i = 0; i < count - 13; i++) {
cutTopic += topic[i];
}
/*解构mqtt发过来的内容*/
String topicStr = "";
String jsonStr = "";
for (int i = 0; i < length; i++) {
topicStr += (char)payload[i];
jsonStr += (char)payload[i];
}
/*订阅回调主体*/
if (cutTopic == topicSub[0]) { //0:飞行航点任务 questAss
writeRoute(topicStr); //写入航点
} else if (cutTopic == topicSub[1]) { //1:设置飞机状态 setPlaneState
/*解构内容*/
DynamicJsonDocument doc(0x2FFF); // 创建 JSON 文档
deserializeJson(doc, jsonStr); // 解析 JSON 数据
// 遍历 JSON 对象
String key; // 键
JsonVariant value; // 值
for (JsonPair kv : doc.as<JsonObject>()) {
key = kv.key().c_str(); // 获取键
value = kv.value(); // 获取值
}
/*根据订阅内容 键值 做具体操作*/
if (key == "questAss") { //飞行航点任务 questAss
String todo = value; //转换值
writeRoute(todo); //写入航点
} else if (key == "setPlaneState") { //设置飞机状态
/*
*topicPubMsg[10]
*0000 0000 0000 0000
*0
*1线
*2
*3
*4
*5
*6
*7:
*8
*9
*10
*11
*topicPubMsg[10]
*0000 0000 0000 0000
*0
*1线
*2
*3
*4
*5
*6
*7:
*8
*9
*10
*11
*/
//解构参数
DynamicJsonDocument doc(0x2FFF);
deserializeJson(doc, topicStr);
String todoJson = value; //转换值
/* json 反序列化 */
DynamicJsonDocument doc(500);
deserializeJson(doc, todoJson);
JsonObject obj = doc.as<JsonObject>();
uint8_t n = obj["bit"]; //状态位数
uint8_t state = obj["state"]; //标记飞机状态 0 or 1
@ -137,39 +139,70 @@ void mqtt_receiveCallback(char* topic, byte* payload, unsigned int length) {
} else if (n == 11) { //11磁罗盘校准
fc.mav_command(n, param);
}
} else if (cutTopic == topicSub[2]) { //2:获取飞机状态 getPlaneState
fc.pubMQTTmsg("planeState", topicPubMsg[10]); //终端主动get飞机状态
} else if (cutTopic == topicSub[3]) { //3:恢复飞机为初始状态 resetState
topicPubMsg[10] = "1"; //恢复初始状态
} else if (cutTopic == topicSub[4]) { //4:油门通道1
uint16_t strInt = (uint16_t)topicStr.toInt(); //强制转换一下
fc.channels[0] = strInt; //恢复初始状态
fc.mav_channels_override(fc.channels); //油门控制
} else if (cutTopic == topicSub[5]) { //5:油门通道2
uint16_t strInt = (uint16_t)topicStr.toInt(); //强制转换一下
fc.channels[1] = strInt; //恢复初始状态
fc.mav_channels_override(fc.channels); //油门控制
} else if (cutTopic == topicSub[6]) { //6:油门通道3
uint16_t strInt = (uint16_t)topicStr.toInt(); //强制转换一下
fc.channels[2] = strInt; //恢复初始状态
fc.mav_channels_override(fc.channels); //油门控制
} else if (cutTopic == topicSub[7]) { //7:油门通道4
uint16_t strInt = (uint16_t)topicStr.toInt(); //强制转换一下
fc.channels[3] = strInt; //恢复初始状态
fc.mav_channels_override(fc.channels); //油门控制
} else if (cutTopic == topicSub[8]) { //8:钩子控制 hookConteroller
//topicStr 0:收 1:放 2:暂停 3:继续
} else if (cutTopic == topicSub[9]) { //9:云台相机控制 cameraController
// json 反序列化
DynamicJsonDocument doc(0x2FFF);
deserializeJson(doc, topicStr);
} else if (key == "getPlaneState") { //获取飞机状态
fc.pubMQTTmsg("planeState", "{\"state\":" + topicPubMsg[10] + "}"); //终端主动get飞机状态
} else if (key == "resetState") { //恢复飞机为初始状态
topicPubMsg[10] = "1"; //恢复初始状态
} else if (key == "chan1") {
uint16_t todo = value; //转换值
fc.channels[0] = todo; //恢复初始状态
fc.mav_channels_override(fc.channels); //油门控制
} else if (key == "chan2") {
uint16_t todo = value; //转换值
fc.channels[1] = todo; //恢复初始状态
fc.mav_channels_override(fc.channels); //油门控制
} else if (key == "chan3") {
uint16_t todo = value; //转换值
fc.channels[2] = todo; //恢复初始状态
fc.mav_channels_override(fc.channels); //油门控制
} else if (key == "chan4") {
uint16_t todo = value; //转换值
fc.channels[3] = todo; //恢复初始状态
fc.mav_channels_override(fc.channels); //油门控制
} else if (key == "hookConteroller") { //钩子控制 //todo 0:收 1:放 2:暂停 3:继续 4:重量重置
uint16_t todo = value;
switch(todo){
case 0:
{
//收钩
}
break;
case 1:
{
//放钩
}
break;
case 2:
{
//暂停
}
break;
case 3:
{
//继续
}
break;
case 4:
{
//重置重量
}
break;
}
} else if (key == "cameraController") { //云台相机控制
String todoJson = value; //转换值
/* json 反序列化 */
DynamicJsonDocument doc(500);
deserializeJson(doc, todoJson);
JsonObject obj = doc.as<JsonObject>();
int8_t item = obj["item"];
int8_t val = obj["val"];
int8_t pitch = obj["pitch"];
int8_t yaw = obj["yaw"];
//相机控制
if (item == 0) { //0:一键回中
if (item == 0) { //0:一键回中
uint8_t stopCommand[] = { 0x55, 0x66, 0x01, 0x02, 0x00, 0x00, 0x00, 0x07, 0x00, 0x00 }; //回中前 强制 俯仰旋转 停止
size_t stopLen = sizeof(StopCommand);
fc.udpSendToCamera(stopCommand, stopLen);
uint8_t command[] = { 0x55, 0x66, 0x01, 0x01, 0x00, 0x00, 0x00, 0x08, 0x01 };
size_t len = sizeof(command);
fc.udpSendToCamera(command, len);
@ -180,394 +213,394 @@ void mqtt_receiveCallback(char* topic, byte* payload, unsigned int length) {
fc.udpSendToCamera(command, len);
} else if (item == 2) { //2:俯仰 旋转
uint8_t command[] = { 0x55, 0x66, 0x01, 0x02, 0x00, 0x00, 0x00, 0x07, 0x00, 0x00 };
command[9] = pitch;
command[8] = yaw;
command[9] = pitch;
size_t len = sizeof(command);
fc.udpSendToCamera(command, len);
}
}
}
/**
/**
* @description:
* @param {String} topicStr mqtt订阅执行任务的Json字符串
* @param {String} todo mqtt订阅执行任务的Json字符串
*/
void writeRoute(String topicStr) {
if (fc.writeState) // 如果正在写入状态 跳出
{
fc.logln("正在写航点"); // 提示正在写入中
return;
}
//改变飞机状态 PS:mqtt发送写在这里 同步执行下面while循环时 写在loop函数里面 不会被执行到
topicPubMsg[10] = fc.setNBit(topicPubMsg[10], 1, 1); //正在写入航点
topicPubMsg[10] = fc.setNBit(topicPubMsg[10], 0, 0); //结束初始状态
fc.pubMQTTmsg("planeState", topicPubMsg[10]); //发送正在写入的飞机状态
// json 反序列化
DynamicJsonDocument doc(0x2FFF);
deserializeJson(doc, topicStr);
JsonObject obj = doc.as<JsonObject>();
// 写入航点
uint8_t taskcount = obj["taskcount"]; //获取航点总数
fc.mav_mission_count(taskcount); //向飞控请求写入航点的数量
fc.writeState = true; //锁定写入状态
//监听飞控航点写入情况
while (true) {
void writeRoute(String todoJson) {
if (fc.writeState) // 如果正在写入状态 跳出
{
fc.logln("正在写航点"); // 提示正在写入中
return;
}
//改变飞机状态 PS:mqtt发送写在这里 同步执行下面while循环时 写在loop函数里面 不会被执行到
topicPubMsg[10] = fc.setNBit(topicPubMsg[10], 1, 1); //正在写入航点
fc.comm_receive(mavlink_receiveCallback);
if (fc.missionArkType == 0) { //写入成功
fc.missionArkType = -1; //“航点写入是否成功” 改成-1默认状态
fc.logln("misson_bingo...");
//改变飞机状态
topicPubMsg[10] = fc.setNBit(topicPubMsg[10], 2, 1); //航点写入成功状态
topicPubMsg[10] = fc.setNBit(topicPubMsg[10], 1, 0); //结束写入状态
topicPubMsg[10] = fc.setNBit(topicPubMsg[10], 0, 0); //结束初始状态
break;
} else if (fc.missionArkType > 0) { //写入失败
fc.missionArkType = -1; //“航点写入是否成功” 改成-1默认状态
fc.logln("misson_error...");
//改变飞机状态
topicPubMsg[10] = fc.setNBit(topicPubMsg[10], 2, 0); //航点写入失败状态
topicPubMsg[10] = fc.setNBit(topicPubMsg[10], 1, 0); //结束写入状态
//当有成果反馈之后 初始化下列数据
return; //写入失败 中断函数
}
//飞控返回 新的写入航点序号
if (fc.writeSeq == fc.futureSeq && fc.writeSeq != -1) {
//从订阅信息里拿航点参数
uint8_t frame = obj["tasks"][fc.writeSeq]["frame"];
uint8_t command = obj["tasks"][fc.writeSeq]["command"];
uint8_t current = obj["tasks"][fc.writeSeq]["current"];
uint8_t autocontinue = obj["tasks"][fc.writeSeq]["autocontinue"];
double param1 = obj["tasks"][fc.writeSeq]["param1"];
double param2 = obj["tasks"][fc.writeSeq]["param2"];
double param3 = obj["tasks"][fc.writeSeq]["param3"];
double param4 = obj["tasks"][fc.writeSeq]["param4"];
double x = obj["tasks"][fc.writeSeq]["x"];
double y = obj["tasks"][fc.writeSeq]["y"];
double z = obj["tasks"][fc.writeSeq]["z"];
String str = obj["tasks"][fc.writeSeq]["sound"];
if (str != "") {
fc.questVoiceStr = str;
topicPubMsg[10] = fc.setNBit(topicPubMsg[10], 0, 0); //结束初始状态
fc.pubMQTTmsg("planeState", "{\"state\":" + topicPubMsg[10] + "}")//发送正在写入的飞机状态
// json 反序列化
DynamicJsonDocument doc(0x2FFF);
deserializeJson(doc, todoJson);
JsonObject obj = doc.as<JsonObject>();
// 写入航点
uint8_t taskcount = obj["taskcount"]; //获取航点总数
fc.mav_mission_count(taskcount); //向飞控请求写入航点的数量
fc.writeState = true; //锁定写入状态
//监听飞控航点写入情况
while (true) {
topicPubMsg[10] = fc.setNBit(topicPubMsg[10], 1, 1); //正在写入航点
fc.comm_receive(mavlink_receiveCallback);
if (fc.missionArkType == 0) { //写入成功
fc.missionArkType = -1; //“航点写入是否成功” 改成-1默认状态
fc.logln("misson_bingo...");
//改变飞机状态
topicPubMsg[10] = fc.setNBit(topicPubMsg[10], 2, 1); //航点写入成功状态
topicPubMsg[10] = fc.setNBit(topicPubMsg[10], 1, 0); //结束写入状态
topicPubMsg[10] = fc.setNBit(topicPubMsg[10], 0, 0); //结束初始状态
break;
} else if (fc.missionArkType > 0) { //写入失败
fc.missionArkType = -1; //“航点写入是否成功” 改成-1默认状态
fc.logln("misson_error...");
//改变飞机状态
topicPubMsg[10] = fc.setNBit(topicPubMsg[10], 2, 0); //航点写入失败状态
topicPubMsg[10] = fc.setNBit(topicPubMsg[10], 1, 0); //结束写入状态
//当有成果反馈之后 初始化下列数据
return; //写入失败 中断函数
}
fc.logln("frame--");
fc.logln(frame);
//写入航点
fc.mav_mission_item(fc.writeSeq, frame, command, current, autocontinue, param1, param2, param3, param4, x, y, z);
fc.futureSeq++; //下一个航点序号
//飞控返回 新的写入航点序号
if (fc.writeSeq == fc.futureSeq && fc.writeSeq != -1) {
//从订阅信息里拿航点参数
uint8_t frame = obj["tasks"][fc.writeSeq]["frame"];
uint8_t command = obj["tasks"][fc.writeSeq]["command"];
uint8_t current = obj["tasks"][fc.writeSeq]["current"];
uint8_t autocontinue = obj["tasks"][fc.writeSeq]["autocontinue"];
double param1 = obj["tasks"][fc.writeSeq]["param1"];
double param2 = obj["tasks"][fc.writeSeq]["param2"];
double param3 = obj["tasks"][fc.writeSeq]["param3"];
double param4 = obj["tasks"][fc.writeSeq]["param4"];
double x = obj["tasks"][fc.writeSeq]["x"];
double y = obj["tasks"][fc.writeSeq]["y"];
double z = obj["tasks"][fc.writeSeq]["z"];
String str = obj["tasks"][fc.writeSeq]["sound"];
if (str != "") {
fc.questVoiceStr = str;
}
fc.logln("frame--");
fc.logln(frame);
//写入航点
fc.mav_mission_item(fc.writeSeq, frame, command, current, autocontinue, param1, param2, param3, param4, x, y, z);
fc.futureSeq++; //下一个航点序号
}
delay(200);
}
delay(200);
}
}
/**
/**
* @description: mavlink缓存数据之后
* @param {mavlink_message_t*} pMsg mavlink数据信息指针
* @param {mavlink_status_t*} pStatus
* @param {uint8_t} c
*/
void mavlink_receiveCallback(uint8_t c) {
mavlink_message_t msg;
mavlink_status_t status;
// 尝试从数据流里 解析数据
if (mavlink_parse_char(MAVLINK_COMM_0, c, &msg, &status)) { // MAVLink解析是按照一个一个字符进行解析我们接收到一个字符就对其进行解析直到解析完根据返回标志判断一帧数据为止。
// 通过msgid来判断 数据流的类别
char buf[10];
switch (msg.msgid) {
case MAVLINK_MSG_ID_HEARTBEAT: // #0: Heartbeat 心跳
{
mavlink_heartbeat_t heartbeat; // 解构的数据放到这个对象
mavlink_msg_heartbeat_decode(&msg, &heartbeat); // 解构msg数据
sprintf(buf, "%d", heartbeat.base_mode); //飞控心跳状态
topicPubMsg[0] = buf; //心跳主题
//从心跳里判断 飞机是否解锁 解锁改变飞机状态
if (heartbeat.base_mode & 128) { //从心跳里面 判断已经解锁
topicPubMsg[10] = fc.setNBit(topicPubMsg[10], 4, 1); //设置飞机状态为已解锁状态 1xxxx 第四位为1 代表已解锁
} else { //心跳里面 判断没有解锁
topicPubMsg[10] = fc.setNBit(topicPubMsg[10], 4, 0); //设置飞机状态为已解锁状态 0xxxx 第四位为0 代表未解锁
if ((uint8_t)topicPubMsg[10].toInt() & 4) { //如果已经写入了航点
topicPubMsg[10] = fc.setNBit(topicPubMsg[10], 2, 1); //设置为航点写入成功状态
} else {
topicPubMsg[10] = "1"; //没写航点 设置为初始化状态
void mavlink_receiveCallback(uint8_t c) {
mavlink_message_t msg;
mavlink_status_t status;
// 尝试从数据流里 解析数据
if (mavlink_parse_char(MAVLINK_COMM_0, c, &msg, &status)) { // MAVLink解析是按照一个一个字符进行解析我们接收到一个字符就对其进行解析直到解析完根据返回标志判断一帧数据为止。
// 通过msgid来判断 数据流的类别
char buf[10];
switch (msg.msgid) {
case MAVLINK_MSG_ID_HEARTBEAT: // #0: Heartbeat 心跳
{
mavlink_heartbeat_t heartbeat; // 解构的数据放到这个对象
mavlink_msg_heartbeat_decode(&msg, &heartbeat); // 解构msg数据
sprintf(buf, "%d", heartbeat.base_mode); //飞控心跳状态
topicPubMsg[0] = buf; //心跳主题
//从心跳里判断 飞机是否解锁 解锁改变飞机状态
if (heartbeat.base_mode & 128) { //从心跳里面 判断已经解锁
topicPubMsg[10] = fc.setNBit(topicPubMsg[10], 4, 1); //设置飞机状态为已解锁状态 1xxxx 第四位为1 代表已解锁
} else { //心跳里面 判断没有解锁
topicPubMsg[10] = fc.setNBit(topicPubMsg[10], 4, 0); //设置飞机状态为已解锁状态 0xxxx 第四位为0 代表未解锁
if ((uint8_t)topicPubMsg[10].toInt() & 4) { //如果已经写入了航点
topicPubMsg[10] = fc.setNBit(topicPubMsg[10], 2, 1); //设置为航点写入成功状态
} else {
topicPubMsg[10] = "1"; //没写航点 设置为初始化状态
}
}
//从心跳里面 判断飞机当前的模式
switch (heartbeat.custom_mode) {
case 0:
{
topicPubMsg[12] = "Stabilize自稳";
}
break;
case 2:
{
topicPubMsg[12] = "AltHold定高";
}
break;
case 3:
{
topicPubMsg[12] = "Auto自动";
}
break;
case 4:
{
topicPubMsg[12] = "Guided引导";
}
break;
case 5:
{
topicPubMsg[12] = "Loiter留待";
}
break;
case 6:
{
topicPubMsg[12] = "RTL返航";
}
break;
case 9:
{
topicPubMsg[12] = "Land降落";
}
break;
case 16:
{
topicPubMsg[12] = "PosHold定点";
}
break;
default:
{
topicPubMsg[12] = "Unknown未知";
}
break;
}
}
//从心跳里面 判断飞机当前的模式
switch (heartbeat.custom_mode) {
case 0:
{
topicPubMsg[12] = "Stabilize自稳";
}
break;
case 2:
{
topicPubMsg[12] = "AltHold定高";
}
break;
case 3:
{
topicPubMsg[12] = "Auto自动";
}
break;
case 4:
{
topicPubMsg[12] = "Guided引导";
}
break;
case 5:
{
topicPubMsg[12] = "Loiter留待";
}
break;
case 6:
{
topicPubMsg[12] = "RTL返航";
}
break;
case 9:
{
topicPubMsg[12] = "Land降落";
}
break;
case 16:
{
topicPubMsg[12] = "PosHold定点";
}
break;
default:
{
topicPubMsg[12] = "Unknown未知";
}
break;
}
}
break;
break;
case MAVLINK_MSG_ID_SYS_STATUS: // #1: SYS_STATUS
{
mavlink_sys_status_t sys_status; // 解构的数据放到这个对象
mavlink_msg_sys_status_decode(&msg, &sys_status); // 解构msg数据
// 电压
sprintf(buf, "%.2f", (double)sys_status.voltage_battery / 1000);
if (topicPubMsg[1] != buf) { // 有更新 则更新数据
topicPubMsg[1] = buf;
case MAVLINK_MSG_ID_SYS_STATUS: // #1: SYS_STATUS
{
mavlink_sys_status_t sys_status; // 解构的数据放到这个对象
mavlink_msg_sys_status_decode(&msg, &sys_status); // 解构msg数据
// 电压
sprintf(buf, "%.2f", (double)sys_status.voltage_battery / 1000);
if (topicPubMsg[1] != buf) { // 有更新 则更新数据
topicPubMsg[1] = buf;
}
// 电流
sprintf(buf, "%.2f", (double)sys_status.current_battery / 100);
if (topicPubMsg[2] != buf) {
topicPubMsg[2] = buf;
}
// 电池电量
sprintf(buf, "%d", sys_status.battery_remaining);
if (topicPubMsg[3] != buf) {
topicPubMsg[3] = buf;
}
}
// 电流
sprintf(buf, "%.2f", (double)sys_status.current_battery / 100);
if (topicPubMsg[2] != buf) {
topicPubMsg[2] = buf;
}
// 电池电量
sprintf(buf, "%d", sys_status.battery_remaining);
if (topicPubMsg[3] != buf) {
topicPubMsg[3] = buf;
}
}
break;
break;
case MAVLINK_MSG_ID_PARAM_VALUE: // #22: PARAM_VALUE
{
mavlink_param_value_t param_value;
mavlink_msg_param_value_decode(&msg, &param_value);
}
break;
case MAVLINK_MSG_ID_RAW_IMU: // #27: RAW_IMU
{
mavlink_raw_imu_t raw_imu;
mavlink_msg_raw_imu_decode(&msg, &raw_imu);
}
break;
case MAVLINK_MSG_ID_GLOBAL_POSITION_INT: // #33 位置
{
mavlink_global_position_int_t global_position_int;
mavlink_msg_global_position_int_decode(&msg, &global_position_int);
// 高度
sprintf(buf, "%.2f", (double)global_position_int.relative_alt / 1000);
if (topicPubMsg[4] != buf) {
topicPubMsg[4] = buf;
case MAVLINK_MSG_ID_PARAM_VALUE: // #22: PARAM_VALUE
{
mavlink_param_value_t param_value;
mavlink_msg_param_value_decode(&msg, &param_value);
}
//{经度,维度,海拔高度}
sprintf(buf, "{lng:%d,lat:%d,alt:%.2f}",
global_position_int.lon,
global_position_int.lat,
(double)global_position_int.alt / 1000);
if (topicPubMsg[15] != buf) {
topicPubMsg[15] = buf;
}
}
break;
break;
case MAVLINK_MSG_ID_VFR_HUD: // #74 hud仪表盘
{
mavlink_vfr_hud_t vfr_hud;
mavlink_msg_vfr_hud_decode(&msg, &vfr_hud);
// 对地速度 ps:飞行速度
sprintf(buf, "%.2f", vfr_hud.groundspeed);
if (topicPubMsg[5] != buf) {
topicPubMsg[5] = buf;
case MAVLINK_MSG_ID_RAW_IMU: // #27: RAW_IMU
{
mavlink_raw_imu_t raw_imu;
mavlink_msg_raw_imu_decode(&msg, &raw_imu);
}
}
break;
break;
case MAVLINK_MSG_ID_GPS_RAW_INT: // #24 GPS
{
mavlink_gps_raw_int_t gps_raw_int;
mavlink_msg_gps_raw_int_decode(&msg, &gps_raw_int);
// 卫星数
sprintf(buf, "%d", gps_raw_int.satellites_visible);
if (topicPubMsg[6] != buf) {
topicPubMsg[6] = buf;
case MAVLINK_MSG_ID_GLOBAL_POSITION_INT: // #33 位置
{
mavlink_global_position_int_t global_position_int;
mavlink_msg_global_position_int_decode(&msg, &global_position_int);
// 高度
sprintf(buf, "%.2f", (double)global_position_int.relative_alt / 1000);
if (topicPubMsg[4] != buf) {
topicPubMsg[4] = buf;
}
//{经度,维度,海拔高度}
sprintf(buf, "{lng:%d,lat:%d,alt:%.2f}",
global_position_int.lon,
global_position_int.lat,
(double)global_position_int.alt / 1000);
if (topicPubMsg[15] != buf) {
topicPubMsg[15] = buf;
}
}
// 纬度
sprintf(buf, "%.7f", (double)gps_raw_int.lat / 10000000);
if (topicPubMsg[7] != buf) {
topicPubMsg[7] = buf;
break;
case MAVLINK_MSG_ID_VFR_HUD: // #74 hud仪表盘
{
mavlink_vfr_hud_t vfr_hud;
mavlink_msg_vfr_hud_decode(&msg, &vfr_hud);
// 对地速度 ps:飞行速度
sprintf(buf, "%.2f", vfr_hud.groundspeed);
if (topicPubMsg[5] != buf) {
topicPubMsg[5] = buf;
}
}
// 经度
sprintf(buf, "%.7f", (double)gps_raw_int.lon / 10000000);
if (topicPubMsg[8] != buf) {
topicPubMsg[8] = buf;
break;
case MAVLINK_MSG_ID_GPS_RAW_INT: // #24 GPS
{
mavlink_gps_raw_int_t gps_raw_int;
mavlink_msg_gps_raw_int_decode(&msg, &gps_raw_int);
// 卫星数
sprintf(buf, "%d", gps_raw_int.satellites_visible);
if (topicPubMsg[6] != buf) {
topicPubMsg[6] = buf;
}
// 纬度
sprintf(buf, "%.7f", (double)gps_raw_int.lat / 10000000);
if (topicPubMsg[7] != buf) {
topicPubMsg[7] = buf;
}
// 经度
sprintf(buf, "%.7f", (double)gps_raw_int.lon / 10000000);
if (topicPubMsg[8] != buf) {
topicPubMsg[8] = buf;
}
// 卫星状态
switch (gps_raw_int.fix_type) {
case 0:
{
topicPubMsg[9] = "No Fix";
}
break;
case 1:
{
topicPubMsg[9] = "No Fix";
}
break;
case 2:
{
topicPubMsg[9] = "Fix 2D";
}
break;
case 3:
{
topicPubMsg[9] = "Fix 3D";
}
break;
case 4:
{
topicPubMsg[9] = "Low GPS";
}
break;
case 5:
{
topicPubMsg[9] = "Float";
}
break;
default:
{
topicPubMsg[9] = "Fixed";
}
break;
}
}
// 卫星状态
switch (gps_raw_int.fix_type) {
case 0:
{
topicPubMsg[9] = "No Fix";
}
break;
case 1:
{
topicPubMsg[9] = "No Fix";
}
break;
case 2:
{
topicPubMsg[9] = "Fix 2D";
}
break;
case 3:
{
topicPubMsg[9] = "Fix 3D";
}
break;
case 4:
{
topicPubMsg[9] = "Low GPS";
}
break;
case 5:
{
topicPubMsg[9] = "Float";
}
break;
default:
{
topicPubMsg[9] = "Fixed";
}
break;
break;
case MAVLINK_MSG_ID_MISSION_REQUEST: // #40: 写航点反馈
{
mavlink_mission_request_t mission_request; // 解构的数据放到这个对象
mavlink_msg_mission_request_decode(&msg, &mission_request); // 解构msg数据
//日志
fc.logln("MsgID:");
fc.logln(msg.msgid);
fc.logln("No:");
fc.logln(mission_request.seq);
//飞控 反馈当前要写入航点的序号
fc.writeSeq = mission_request.seq;
}
}
break;
break;
case MAVLINK_MSG_ID_MISSION_REQUEST: // #40: 写航点反馈
{
mavlink_mission_request_t mission_request; // 解构的数据放到这个对象
mavlink_msg_mission_request_decode(&msg, &mission_request); // 解构msg数据
//日志
fc.logln("MsgID:");
fc.logln(msg.msgid);
fc.logln("No:");
fc.logln(mission_request.seq);
//飞控 反馈当前要写入航点的序号
fc.writeSeq = mission_request.seq;
}
break;
case MAVLINK_MSG_ID_MISSION_ACK: // #47: 航点提交成果反馈
{
mavlink_mission_ack_t mission_ark; // 解构的数据放到这个对象
mavlink_msg_mission_ack_decode(&msg, &mission_ark); // 解构msg数据
/*日志*/
fc.logln("MsgID:");
fc.logln(msg.msgid);
fc.logln("re:");
fc.logln(mission_ark.type);
/*记录航点的写入状态 */
fc.missionArkType = mission_ark.type; //0写入成功 非0表示失败
/*当有成果反馈之后 初始化下列数据*/
fc.writeState = false; //是否是写入状态
fc.writeSeq = -1; //飞控反馈 需写入航点序列号
fc.futureSeq = 0; //记录将来要写入 航点序列号
}
break;
case MAVLINK_MSG_ID_MISSION_ACK: // #47: 航点提交成果反馈
{
mavlink_mission_ack_t mission_ark; // 解构的数据放到这个对象
mavlink_msg_mission_ack_decode(&msg, &mission_ark); // 解构msg数据
/*日志*/
fc.logln("MsgID:");
fc.logln(msg.msgid);
fc.logln("re:");
fc.logln(mission_ark.type);
/*记录航点的写入状态 */
fc.missionArkType = mission_ark.type; //0写入成功 非0表示失败
/*当有成果反馈之后 初始化下列数据*/
fc.writeState = false; //是否是写入状态
fc.writeSeq = -1; //飞控反馈 需写入航点序列号
fc.futureSeq = 0; //记录将来要写入 航点序列号
}
break;
default:
break;
}
}
}
/**
* @description: 线
*/
void pubThread() {
/*解析mavlink 数据流等 此函数内会把解析的数据按信息类型 发布到mqtt服务器 planeState/macadd主题 */
// 创建一个JSON对象
DynamicJsonDocument doc(2000); // 缓冲区
//遍历 有更新的数据 组成一个json对象
for (int i = 0; i < topicPubCount; i++) {
if (topicPubMsg[i] != oldMsg[i]) {
if (i == 0) { //心跳包 每每向心跳主题发布信息
//启动飞控 第一次心跳 ps:防止飞控 滞后启动 拿不到数据
if (fc.getIsInit()) {
fc.setIsInit(false);
fc.mav_request_data(); //再向飞控请求一次 设定飞控输出数据流内容
}
//设置对象成员 ps:心跳
doc[topicPub[0]] = topicPubMsg[0];
} else { //非心跳 有更新 录入成员
doc[topicPub[i]] = topicPubMsg[i];
oldMsg[i] = topicPubMsg[i];
default:
break;
}
}
}
// 将JSON对象序列化为JSON字符串
String jsonString;
serializeJson(doc, jsonString);
fc.pubMQTTmsg("planeState", jsonString);
/*更新4G网络测速ping值*/
//pingNetTest();
//八达岭需求 过后删除
fc.pubMQTTmsg("heartBeat",topicPubMsg[0]);
fc.pubMQTTmsg("position",topicPubMsg[15]);
}
/**
/**
* @description: 线
*/
void pubThread() {
/*解析mavlink 数据流等 此函数内会把解析的数据按信息类型 发布到mqtt服务器 planeState/macadd主题 */
// 创建一个JSON对象
DynamicJsonDocument doc(2000); // 缓冲区
//遍历 有更新的数据 组成一个json对象
for (int i = 0; i < topicPubCount; i++) {
if (topicPubMsg[i] != oldMsg[i]) {
if (i == 0) { //心跳包 每每向心跳主题发布信息
//启动飞控 第一次心跳 ps:防止飞控 滞后启动 拿不到数据
if (fc.getIsInit()) {
fc.setIsInit(false);
fc.mav_request_data(); //再向飞控请求一次 设定飞控输出数据流内容
}
//设置对象成员 ps:心跳
doc[topicPub[0]] = topicPubMsg[0];
} else { //非心跳 有更新 录入成员
doc[topicPub[i]] = topicPubMsg[i];
oldMsg[i] = topicPubMsg[i];
}
}
}
// 将JSON对象序列化为JSON字符串
String jsonString;
serializeJson(doc, jsonString);
fc.pubMQTTmsg("planeState", jsonString);
/*更新4G网络测速ping值*/
//pingNetTest();
//八达岭需求 过后删除
fc.pubMQTTmsg("heartBeat", topicPubMsg[0]);
fc.pubMQTTmsg("position", topicPubMsg[15]);
}
/**
* @description: FLASH按钮点击 MQTT ps:
*/
void flashThread() {
if (digitalRead(23) == LOW) {
if (isPush) { //点击之后
//请求注册 ps:发送esp8266的物理地址 到对频主题
fc.pubMQTTmsg(topicHandle[0], fc.getMacAdd());
void flashThread() {
if (digitalRead(23) == LOW) {
if (isPush) { //点击之后
//请求注册 ps:发送esp8266的物理地址 到对频主题
fc.pubMQTTmsg(topicHandle[0], fc.getMacAdd());
}
isPush = false; //复位按钮
} else {
//FLASH按下状态
isPush = true;
}
isPush = false; //复位按钮
} else {
//FLASH按下状态
isPush = true;
}
}
/**
/**
* @description: mavlink
*/
void mavThread() {
fc.mav_request_data();
}
void mavThread() {
fc.mav_request_data();
}
/**
/**
* @description:
*/
void chanThread() {
//mav_channels_override(channels);
}
void chanThread() {
//mav_channels_override(channels);
}

6
FoodDeliveryBase.cpp
View File

@ -134,10 +134,8 @@ void FoodCube::connectMqtt(String topicSub[], int topicSubCount) {
logln(macAdd);
/*连接成功 订阅主题*/
//订阅主题 PS:连接上mqtt服务器 订阅主题 收到信息触发回调函数 receiveCallback
for (int i = 0; i < topicSubCount; i++) { //遍历 订阅主题
subscribeTopic(topicSub[i], 1);
}
playText("哎木可优踢踢,已连接");
subscribeTopic("cmd", 1);
playText("服务器,已连接");
} else {
//失败返回状态码
log("MQTT Server Connect Failed. Client State:");