Basic: Synchronization¶
1 功能概述¶
一个简单的应用程序,演示了内核的基本功能。两个线程(A和B)轮流向控制台打印问候消息,并使用睡眠请求和信号量来控制消息的生成速率。这说明了内核调度,通信,而且时间安排是正确的。
2 环境要求¶
Board: pan108xxa1_evb / pan108xxa3_evb / pan108xxb1_evb / pan108xxb5_evb
UART: 将 P00 与 TX0 引脚接在一起,P01 与 RX0 引脚接在一起,在 PC 上打开终端工具(如 SecureCRT),波特率设置为 921600
3 编译和烧录¶
例程位置:zephyr\samples_panchip\basic\synchronization
使用 ZAL 工具可以对其进行编译、烧录、打开 VS Code 调试等操作。关于 ZAL 工具的详细介绍请参考:Zephyr APP Launcher 工具介绍。
4 演示说明¶
下载后,串口工具中看到程序成功运行,两个线程 threadA
与 threadB
交替打印 Log 信息
*** Booting Zephyr OS version 2.7.0 ***
thread_a: Hello PAN1080 from cpu 0 on pan108xxb5_evb!
thread_b: Hello PAN1080 from cpu 0 on pan108xxb5_evb!
thread_a: Hello PAN1080 from cpu 0 on pan108xxb5_evb!
thread_b: Hello PAN1080 from cpu 0 on pan108xxb5_evb!
thread_a: Hello PAN1080 from cpu 0 on pan108xxb5_evb!
thread_b: Hello PAN1080 from cpu 0 on pan108xxb5_evb!
thread_a: Hello PAN1080 from cpu 0 on pan108xxb5_evb!
thread_b: Hello PAN1080 from cpu 0 on pan108xxb5_evb!
thread_a: Hello PAN1080 from cpu 0 on pan108xxb5_evb!
thread_b: Hello PAN1080 from cpu 0 on pan108xxb5_evb!
thread_a: Hello PAN1080 from cpu 0 on pan108xxb5_evb!
5 开发说明¶
建立两个线程
k_thread_create(&threadA_data, threadA_stack_area,
K_THREAD_STACK_SIZEOF(threadA_stack_area),
threadA, NULL, NULL, NULL,
PRIORITY, 0, K_FOREVER);
k_thread_name_set(&threadA_data, "thread_a");
k_thread_create(&threadB_data, threadB_stack_area,
K_THREAD_STACK_SIZEOF(threadB_stack_area),
threadB, NULL, NULL, NULL,
PRIORITY, 0, K_FOREVER);
k_thread_name_set(&threadB_data, "thread_b");
轮询调度线程信号量
/*
* @param my_name thread identification string
* @param my_sem thread's own semaphore
* @param other_sem other thread's semaphore
*/
void helloLoop(const char *my_name,
struct k_sem *my_sem, struct k_sem *other_sem)
{
const char *tname;
uint8_t cpu;
struct k_thread *current_thread;
while (1) {
/* take my semaphore */
k_sem_take(my_sem, K_FOREVER);
current_thread = k_current_get();
tname = k_thread_name_get(current_thread);
/* say "hello" */
if (tname == NULL) {
printk("%s: Hello World from cpu %d on %s!\n",
my_name, cpu, CONFIG_BOARD);
} else {
printk("%s: Hello World from cpu %d on %s!\n",
tname, cpu, CONFIG_BOARD);
}
/* wait a while, then let other thread have a turn */
k_busy_wait(100000);
k_msleep(SLEEPTIME);
k_sem_give(other_sem);
}
}
6 RAM/Flash资源使用情况¶
Memory region Used Size Region Size %age Used
FLASH: 18632 B 256 KB 7.11%
SRAM: 6384 B 64 KB 9.74%