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WiFi-IoT 鸿蒙开发套件样例开发


HiSpark WiFi-IoT鸿蒙开发套件 首发于HDC 2020,是首批支持HarmonyOS 2.0的开发套件,亦是鸿蒙官方推荐套件,由润和软件HiHope量身打造,已在鸿蒙社区和广大鸿蒙开发者中得到广泛应用。
一、Thread API

osThreadNew()
osThreadId_t osThreadNew(osThreadFunc_t        func, void *argument,const osThreadAttr_t *attr )        复制

注意 :不能在中断服务调用该函数
参数

osThreadTerminate()
osStatus_t osThreadTerminate (osThreadId_t thread_id)复制

二、代码分析
创建线程,创建成功则打印线程名字和线程ID
osThreadId_t newThread(char *name, osThreadFunc_t func, void *arg) {    osThreadAttr_t attr = {        name, 0, NULL, 0, NULL, 1024*2, osPriorityNormal, 0, 0    };    osThreadId_t tid = osThreadNew(func, arg, &attr);    if (tid == NULL) {        printf("osThreadNew(%s) faiLED.\r\n", name);    } else {        printf("osThreadNew(%s) success, thread id: %d.\r\n", name, tid);    }    return tid;}复制

该函数首先会打印自己的参数,然后对全局变量count进行循环+1操作,之后会打印count的值
void threadTest(void *arg) {    static int count = 0;    printf("%s\r\n",(char *)arg);    osThreadId_t tid = osThreadGetId();    printf("threadTest osThreadGetId, thread id:%p\r\n", tid);    while (1) {        count++;        printf("threadTest, count: %d.\r\n", count);        osDelay(20);    }}复制

主程序rtosv2_thread_main创建线程并运行,并使用上述API进行相关操作,最后终止所创建的线程。
void rtosv2_thread_main(void *arg) {    (void)arg;    osThreadId_t tid=newThread("test_thread", threadTest, "This is a test thread.");    const char *t_name = osThreadGetName(tid);    printf("[Thread Test]osThreadGetName, thread name: %s.\r\n", t_name);    osThreadState_t state = osThreadGetState(tid);    printf("[Thread Test]osThreadGetState, state :%d.\r\n", state);    osStatus_t status = osThreadSetPriority(tid, osPriorityNormal4);    printf("[Thread Test]osThreadSetPriority, status: %d.\r\n", status);    osPriority_t pri = osThreadGetPriority (tid);       printf("[Thread Test]osThreadGetPriority, priority: %d.\r\n", pri);    status = osThreadSuspend(tid);    printf("[Thread Test]osThreadSuspend, status: %d.\r\n", status);      status = osThreadResume(tid);    printf("[Thread Test]osThreadResume, status: %d.\r\n", status);    uint32_t stacksize = osThreadGetStackSize(tid);    printf("[Thread Test]osThreadGetStackSize, stacksize: %d.\r\n", stacksize);    uint32_t stackspace = osThreadGetStackSpace(tid);    printf("[Thread Test]osThreadGetStackSpace, stackspace: %d.\r\n", stackspace);    uint32_t t_count = osThreadGetCount();    printf("[Thread Test]osThreadGetCount, count: %d.\r\n", t_count);      osDelay(100);    status = osThreadTerminate(tid);    printf("[Thread Test]osThreadTerminate, status: %d.\r\n", status);}

三、如何编译
将此目录下的 thread.c 和 BUILD.gn 复制到openharmony源码的applications\sample\wifi-iot\app\iothardware目录下,
修改openharmony源码的applications\sample\wifi-iot\app\BUILD.gn文件,将其中的 features 改为:
    features = [        "iothardware:thread_demo",    ]复制

3.在openharmony源码顶层目录执行:python build.py wifiiot
四、运行结果
[Thread Test] osThreadNew(test_thread) success.[Thread Test] osThreadGetName, thread name: test_thread.[Thread Test] osThreadGetState, state :1.[Thread Test] This is a test thread.  <-testThread log[Thread Test] threadTest osThreadGetId, thread id:0xe8544[Thread Test] threadTest, count: 1.   <-testThread log[Thread Test] osThreadSetPriority, status: 0.[Thread Test] osThreadGetPriority, priority: 28.[Thread Test] osThreadSuspend, status: 0.[Thread Test] osThreadResume, status: 0.[Thread Test] osThreadGetStackSize, stacksize: 2048.[Thread Test] osThreadGetStackSpace, stackspace: 1144.[Thread Test] osThreadGetCount, count: 12.[Thread Test] threadTest, count: 2.   <-testThread log[Thread Test] threadTest, count: 3.   <-testThread log[Thread Test] threadTest, count: 4.   <-testThread log[Thread Test] threadTest, count: 5.   <-testThread log[Thread Test] threadTest, count: 6.   <-testThread log[Thread Test] osThreadTerminate, status: 0.复制