。
- 1、下载代码
mkdir xr806_openharmony
cd xr806_openharmony
repo init -u ssh://git@gitee.com/openharmony-sig/manifest.git -b OpenHarmony_1.0.1_release --no-repo-verify -m devboard_xr806.xml
repo sync -c
repo forall -c 'git lfs pull'
**最近仓库在整合,如果下载不了可以去论坛找一下临时仓替换即可**
- 2、环境配置
https://gitee.com/openharmony/docs/blob/master/zh-cn/device-dev/quick-start/quickstart-lite-env-setup.md#/openharmony/docs/blob/master/zh-cn/device-dev/quick-start/quickstart-lite-env-setup-linux.md
- 3、编译准备
https://xr806.docs.aw-ol.com/study/soft_compile/
要注意的是教程里面的这一步文件名是错的,要把deconfig替换成defconfig
之后的make menuconfig这一步不用修改,直接选择save生成.config文件即可
如果出现了
可以打开
/device/xradio/xr806/xr_shylark/project/image_cfg/readme.md
查看解决教程
或者根据报错代码修改
/device/xradio/xr806/xr_shylark/project/demo/wlan_ble_demo/image/xr806/image/image_wlan_ble.cfg文件
这是我的修改过的cfg文件,可以编译通过
- 4、固件烧录
https://xr806.docs.aw-ol.com/study/soft_flash/
根据教程烧录即可,使用波特率921600可以烧录更快
windows下如果烧录时报错,可以跟我这样设置
-
5、使用串口进行调试,波特率设置115200,这里使用的是windows下的SSCOM
调试时如果不出现消息可以点击,打开串口->重新插拔数据线->按下复位键(XR806右下角) -
6、这里使用ubuntu下的mosquito作为服务端
ubuntu安装mosquitto可以参考这个链接
https://www.cnblogs.com/guyk/p/12405938.html
开启mosquito服务
mosquitto -c /etc/mosquitto/mosquitto.conf -d
如果显示1883端口已占用,可以强制结束mosquito后台然后重启服务,这里我使用1884端口
开启服务后板子就可以连接虚拟机进行操作了,可以在mosquito下进行订阅发布信息
如果想要在windows环境下进行订阅发布,可以下载MQTT.fx工具
http://mqttfx.jensd.de/index.php/download
- 7、mqtt代码烧录
XR806文件夹里面,是有很多例程的,这里的代码参考自/device/xradio/xr806/xr_shylark/project/example/mqtt/main.c
#include <stdio.h>
#include "ohos_init.h"
#include "kernel/os/os.h"
#include <string.h>
#include "wifi_device.h"
#include "wifi_hotspot.h"
#include "common/framework/platform_init.h"
#include "net/wlan/wlan.h"
#include "common/framework/net_ctrl.h"
#include "net/mqtt/MQTTClient-C/MQTTClient.h"
#define WIFI_DEVICE_CONNECT_AP_SSID "Redmi"
#define WIFI_DEVICE_CONNECT_AP_PSK "00000000"
#define MQTT_DEMO_THREAD_STACK_SIZE (8 * 1024) /* ssl need more stack */
static OS_Thread_t mqtt_demo_thread;
static OS_Thread_t g_main_thread;
static MQTTPacket_connectData mqtt_demo_connectData = MQTTPacket_connectData_initializer;
static Client mqtt_demo_client;
static Network mqtt_demo_network;
#define MQTT_DEMO_CLIENT_ID "mqt"
#define MQTT_DEMO_HOST_NAME "192.168.43.251"
#define MQTT_DEMO_PORT "1884"
#define MQTT_DEMO_USERNAME "root"
#define MQTT_DEMO_PASSWORD ""
#define MQTT_DEMO_TOPIC "/vo84Hm3xbUj/xr806_senor_set0/data"
#define MQTT_DEMO_BUF_SIZE (2*1024)
#define WIFI_START 1
#define MQTT_DEMO_MSG_TEXT "mqtt demo test"
void wifi_scan_connect(){
if(WIFI_SUCCESS != EnableWifi()){
printf("Error:wifi enable fail!\n");
return;
}
if(WIFI_SUCCESS != Scan()){
printf("Error:wifi scan fail!\n");
}
printf("WIFI SCAN STARTED!\n");
OS_Sleep(3);
WifiScanInfo scan_result[30];
unsigned int scan_num = 30;
if(WIFI_SUCCESS != GetScanInfoList(scan_result, &scan_num)){
printf("Error: get scan result fail!\n");
return;
}
printf("Scan successful,you've got:\n");
for(int i = 0;i < scan_num;i++){
printf("SSID: %s ",scan_result[i].ssid);
printf("RSSI: %d",scan_result[i].rssi);
}
printf("Scan End \n");
const char ssid_want_connect[] = WIFI_DEVICE_CONNECT_AP_SSID;
const char psk[] = WIFI_DEVICE_CONNECT_AP_PSK;
printf("Connecting...");
if(WIFI_STA_ACTIVE == IsWifiActive()){
printf("Wifi is active.\n");
}
OS_Sleep(1);
WifiDeviceConfig config = {0};
int netId = 0;
int i;
for(i = 0;i < scan_num;i++){
if(0 == strcmp(scan_result[i].ssid, ssid_want_connect)){
memcpy(config.ssid, scan_result[i].ssid, WIFI_MAX_SSID_LEN);
memcpy(config.bssid, scan_result[i].bssid, WIFI_MAC_LEN);
strcpy(config.preSharedKey, psk);
config.securityType = scan_result[i].securityType;
config.wapiPskType = WIFI_PSK_TYPE_ASCII;
config.freq = scan_result[i].frequency;
break;
}
}
if(i >= scan_num){
printf("Error: No SSID SET FOUND!\n");
return;
}
printf("Found Correct SSID in Scan List!\n");
if(WIFI_SUCCESS != AddDeviceConfig(&config, &netId)){
printf("Error: Add Device config failed!\n");
return;
}
printf("Add Device Config successful!\n");
if(WIFI_SUCCESS != ConnectTo(netId)){
printf("Error: Connect to Wifi FAILED!\n");
return;
}
printf("Connect to %s successful!\n",config.ssid);
OS_Sleep(3);
}
static int mqtt_demo_init(void)
{
char *send_buf;
char *recv_buf;
/* init client id */
mqtt_demo_connectData.clientID.cstring = MQTT_DEMO_CLIENT_ID;
/* init keep alive interval */
mqtt_demo_connectData.keepAliveInterval = 30; // 30s
/* enable session reuse */
mqtt_demo_connectData.cleansession = 0;
/* set mqtt version */
mqtt_demo_connectData.MQTTVersion = 4; //Version of MQTT 3.1.1
/* send/recv buffer must free when mqtt deinit */
send_buf = malloc(MQTT_DEMO_BUF_SIZE);
if (send_buf == NULL) {
printf("no memory\n");
return -1;
}
recv_buf = malloc(MQTT_DEMO_BUF_SIZE);
if (recv_buf == NULL) {
free(send_buf);
printf("no memory\n");
return -1;
}
/* init network */
NewNetwork(&mqtt_demo_network);
/* init mqtt client object */
MQTTClient(&mqtt_demo_client, &mqtt_demo_network, 6000,
(unsigned char *)send_buf, MQTT_DEMO_BUF_SIZE,
(unsigned char *)recv_buf, MQTT_DEMO_BUF_SIZE);
/**
* set will function, when this client disconnect,
* server will sent the message to every client in MQTT_DEMO_TOPIC
*/
mqtt_demo_connectData.willFlag = 1;
mqtt_demo_connectData.will.topicName.cstring = MQTT_DEMO_TOPIC;
mqtt_demo_connectData.will.message.cstring = "I am disconnected";
mqtt_demo_connectData.will.retained = 0;
mqtt_demo_connectData.will.qos = 0;
/* set username and password */
mqtt_demo_connectData.username.cstring = MQTT_DEMO_USERNAME;
mqtt_demo_connectData.password.cstring = MQTT_DEMO_PASSWORD;
return 0;
}
static int mqtt_demo_connect(char *host_name, char *host_port)
{
int ret = -1;
/* need connect the server in tcp level first, if use ssl, use TLSConnectNetwork() */
ret = ConnectNetwork(&mqtt_demo_network, host_name, atoi(host_port));
if (ret != 0) {
printf("mqtt connect faild, ret:%d, host:%s, port:%s\n", ret, host_name, host_port);
goto exit;
}
/* if tcp level connected, then connect mqtt level */
ret = MQTTConnect(&mqtt_demo_client, &mqtt_demo_connectData);
if (ret != 0) {
printf("mqtt connect faild, ret:%d\n", ret);
/* disconnect the tcp level */
mqtt_demo_network.disconnect(&mqtt_demo_network);
goto exit;
}
printf("mqtt connected\n");
exit:
return ret;
}
static void mqtt_demo_msg_cb(MessageData *data)
{
printf("get a message, topic: %.*s, msg: %.*s\n", data->topicName->lenstring.len,
data->topicName->lenstring.data, data->message->payloadlen,
(char *)data->message->payload);
}
static int mqtt_demo_subscribe(char *topic)
{
int ret = -1;
if (mqtt_demo_client.isconnected) {
/* set the message callback */
ret = MQTTSubscribe(&mqtt_demo_client, topic, 0, mqtt_demo_msg_cb);
if (ret != 0)
printf("mqtt subscribe faild ret:%d\n", ret);
}
return ret;
}
static int mqtt_demo_unsubscribe(char *topic)
{
int ret = -1;
if (mqtt_demo_client.isconnected) {
ret = MQTTUnsubscribe(&mqtt_demo_client, topic);
if (ret != 0)
printf("mqtt unsubscribe faild, ret:%d\n", ret);
}
return ret;
}
static int mqtt_demo_publish(char *topic, char *msg)
{
int ret = -1;
MQTTMessage message;
memset(&message, 0, sizeof(message));
message.qos = 0;
message.retained = 0; /* disable retain the message in server */
message.payload = msg;
message.payloadlen = strlen(msg);
ret = MQTTPublish(&mqtt_demo_client, topic, &message);
if (ret != 0)
printf("mqtt publish faild, ret:%d\n", ret);
return ret;
}
static int mqtt_demo_disconnect(void)
{
int ret = -1;
if (mqtt_demo_client.isconnected) {
/* need disconnect mqtt level first */
ret = MQTTDisconnect(&mqtt_demo_client);
if (ret != 0)
printf("mqtt disconnect fail, ret:%d\n", ret);
/* then disconnect tcp level */
mqtt_demo_network.disconnect(&mqtt_demo_network);
}
return ret;
}
static void mqtt_demo_deinit(void)
{
if (mqtt_demo_client.buf) {
free(mqtt_demo_client.buf);
mqtt_demo_client.buf = NULL;
}
if (mqtt_demo_client.readbuf) {
free(mqtt_demo_client.readbuf);
mqtt_demo_client.readbuf = NULL;
}
}
static void mqtt_demo_fun(void *arg)
{
int ret;
int reconnect_times = 0;
/* mqtt init */
mqtt_demo_init();
/* mqtt connect */
re:
ret = mqtt_demo_connect(MQTT_DEMO_HOST_NAME, MQTT_DEMO_PORT);
if (ret != 0)
OS_MSleep(500);
goto re;
/* subscribe topic */
ret = mqtt_demo_subscribe(MQTT_DEMO_TOPIC);
if (ret != 0)
goto exit;
while (1) {
/* publish message to topic */
mqtt_demo_publish(MQTT_DEMO_TOPIC, MQTT_DEMO_MSG_TEXT);
ret = MQTTYield(&mqtt_demo_client, 300);
if (ret != 0) {
printf("mqtt yield err, ret:%d\n", ret);
reconnect:
printf("mqtt reconnect\n");
mqtt_demo_disconnect();
ret = mqtt_demo_connect(MQTT_DEMO_HOST_NAME, MQTT_DEMO_PORT);
if (ret != 0) {
reconnect_times++;
if (reconnect_times > 5)
goto exit;
OS_MSleep(5000); //5s
goto reconnect;
}
}
OS_MSleep(1000); //1s
}
exit:
mqtt_demo_unsubscribe(MQTT_DEMO_TOPIC);
mqtt_demo_disconnect();
mqtt_demo_deinit();
OS_ThreadDelete(&mqtt_demo_thread);
}
static void MainThread(void *arg){
#if WIFI_START == 1
wifi_scan_connect();
#endif
}
int main(void)
{
if(OS_ThreadCreate(&g_main_thread, "MainThread", MainThread, NULL, OS_THREAD_PRIO_APP, 4 * 1024) != OS_OK){
printf("[ERR] Create MainThread Failed\n");
}
if (OS_ThreadCreate(&mqtt_demo_thread, "mqtt_demo_thread", mqtt_demo_fun, NULL,
OS_THREAD_PRIO_APP,
4 * 1024) != OS_OK) {
printf("[ERR] Create MainThread Failed\n");
}
}
SYS_RUN(main);
#define WIFI_DEVICE_CONNECT_AP_SSID "Redmi"
#define WIFI_DEVICE_CONNECT_AP_PSK "00000000"
- 在这里可以设置XR806连接的wifi SSID和密码
#define MQTT_DEMO_CLIENT_ID "mqt"
#define MQTT_DEMO_HOST_NAME "192.168.43.251"
#define MQTT_DEMO_PORT "1884"
#define MQTT_DEMO_USERNAME "root"
#define MQTT_DEMO_PASSWORD ""
#define MQTT_DEMO_TOPIC "/vo84Hm3xbUj/xr806_senor_set0/data"
-
这里的HOST_NAME根据你的虚拟机ip进行修改,查看虚拟机ip可以使用ifconfig -a进行查看,另外我的虚拟机网络选择的是直接复制物理网络连接状态
-
MQTT_DEMO_TOPIC为你订阅的主题,可以随便设置,订阅的时候代码做出相应修改即可
-
MQTT_DEMO_USERNAME是刚才在mosquito配置的账号root
wifi_scan_connect()
- 这个函数是连接wifi,连接wifi后mqtt就可以连接上虚拟机的服务端
int main(void)
{
if(OS_ThreadCreate(&g_main_thread, "MainThread", MainThread, NULL, OS_THREAD_PRIO_APP, 4 * 1024) != OS_OK){
printf("[ERR] Create MainThread Failed\n");
}
if (OS_ThreadCreate(&mqtt_demo_thread, "mqtt_demo_thread", mqtt_demo_fun, NULL,
OS_THREAD_PRIO_APP,
4 * 1024) != OS_OK) {
printf("[ERR] Create MainThread Failed\n");
}
}
- 这个是main函数,创建两个线程,一个连接wifi一个,连接mqtt
要注意的是使用SYS_RUN的时候要包含这个头文件,否则编译出错
#include "ohos_init.h"
- 可以看到只有一个mqtt文件夹和main.c文件,非常简单
-
这个是mqtt目录下的BUILD.gn
包含wifi头文件和mqtt头文件即可 -
8、编译文件
执行hb build -f//首次编译加-f,之后不用
执行
sudo cp ~/xr806_openharmony/device/xradio/xr806/xr_skylark/out/xr_system.img /home/用户名/
将编译后的xr_system.img复制到用户目录
最后进行烧录即可运行mqtt,我使用的是安卓手机开wifi给电脑和XR806连接,虚拟机复制物理网络同时运行mosquito,mqtt连接上mosquito即可进行订阅和发布
使用mosquitto订阅XR806的消息
mosquitto_sub -h 192.168.43.251 -p 1884 "你设置的主题名字" -u "root"
使用mosquitto给XR806发布消息
mosquitto_pub -h 192.168.43.251 -p 1884 "你设置的主题名字" -m "想要给XR806发的消息" -u "root"
- 要注意的是-p选项填你在mosquito.conf文件设置的端口,-h选项填你的服务端ip地址,在这里是我的ubuntu的ip地址
成功进行mqtt连接后就可以进行wifi和mqtt的学习了