基于linuxthreads2.0.1线程如何进行源码分析join.c
基于linuxthreads2.0.1线程如何进行源码分析join.c,针对这个问题,这篇文章详细介绍了相对应的分析和解答,希望可以帮助更多想解决这个问题的小伙伴找到更简单易行的方法。
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join.c文件一共有三个函数,下面我们一个个看一下。
1 pthread_exit
// 线程退出
void pthread_exit(void * retval)
{
// 获取当前线程的结构体
pthread_t self = thread_self();
pthread_t joining;
struct pthread_request request;
/* Reset the cancellation flag to avoid looping if the cleanup handlers
contain cancellation points */
// 设置成0,避免其他函数里判断是cancel状态,然后再调pthread_exit函数
self->p_canceled = 0;
/* Call cleanup functions and destroy the thread-specific data */
// 执行clean节点的函数
__pthread_perform_cleanup();
// 遍历pthread_keys数组,销毁线程中的specifics数据
__pthread_destroy_specifics();
/* Store return value */
// 加锁
acquire(&self->p_spinlock);
// 退出值,可以在join中返回给其他线程
self->p_retval = retval;
/* Say that we've terminated */
// 已终止
self->p_terminated = 1;
/* See if someone is joining on us */
// 判断有没有其他线程在等待该线程退出
joining = self->p_joining;
release(&self->p_spinlock);
/* Restart joining thread if any */
// 唤醒他
if (joining != NULL) restart(joining);
/* If this is the initial thread, block until all threads have terminated.
If another thread calls exit, we'll be terminated from our signal
handler. */
// 如果是主线程退出,通知manage线程,如果是一般线程则直接执行exit退出
if (self == __pthread_main_thread && __pthread_manager_request >= 0) {
request.req_thread = self;
request.req_kind = REQ_MAIN_THREAD_EXIT;
// 写入管道
__libc_write(__pthread_manager_request, (char *)&request, sizeof(request));
// 挂起等待唤醒,全部子线程都退出后了才唤醒主线程,然后主线程也退出,见manager.c的__pthread_manager函数
suspend(self);
}
/* Exit the process (but don't flush stdio streams, and don't run
atexit functions). */
// 线程退出,见操作系统实现
_exit(0);
}
2 pthread_join
// 调用该函数的线程会等待th线程结束
int pthread_join(pthread_t th, void ** thread_return)
{
volatile pthread_t self = thread_self();
struct pthread_request request;
// 不能等待自己结束,否则会死锁,即自己无法结束
if (th == self) return EDEADLK;
acquire(&th->p_spinlock);
/* If detached or already joined, error */
// th线程已经是detach状态,即不是joinable的,或者已经被jion过了
if (th->p_detached || th->p_joining != NULL) {
release(&th->p_spinlock);
return EINVAL;
}
/* If not terminated yet, suspend ourselves. */
// join的线程还在运行,则需要等待
if (! th->p_terminated) {
// 记录谁在join th
th->p_joining = self;
release(&th->p_spinlock);
// 挂起等待唤醒,th退出的时候才会唤醒self线程,见pthread_exit的restart
suspend_with_cancellation(self);
acquire(&th->p_spinlock);
/* This is a cancellation point */
// 取消点
if (self->p_canceled && self->p_cancelstate == PTHREAD_CANCEL_ENABLE) {
th->p_joining = NULL;
release(&th->p_spinlock);
pthread_exit(PTHREAD_CANCELED);
}
}
/* Get return value */
// 线程已经结束,设置线程的返回值
if (thread_return != NULL) *thread_return = th->p_retval;
release(&th->p_spinlock);
/* Send notification to thread manager */
// 管道的写端,join的线程已经退出,通知manage线程回收退出线程的资源,见REQ_FREE的处理
if (__pthread_manager_request >= 0) {
// 发送th线程已经结束的通知给manager线程,self是发送者
request.req_thread = self;
request.req_kind = REQ_FREE;
request.req_args.free.thread = th;
// 写入管道
__libc_write(__pthread_manager_request,
(char *) &request, sizeof(request));
}
return 0;
}
3 pthread_detach
int pthread_detach(pthread_t th)
{
int terminated;
struct pthread_request request;
acquire(&th->p_spinlock);
/* If already detached, error */
// detach过了
if (th->p_detached) {
release(&th->p_spinlock);
return EINVAL;
}
/* If already joining, don't do anything. */
// 有线程join了该线程,不能detach
if (th->p_joining != NULL) {
release(&th->p_spinlock);
return 0;
}
/* Mark as detached */
// 标记已经detach
th->p_detached = 1;
terminated = th->p_terminated;
release(&th->p_spinlock);
/* If already terminated, notify thread manager to reclaim resources */
// 线程已经退出了,detach的时候,通知manager,__pthread_manager_request是管道写端
if (terminated && __pthread_manager_request >= 0) {
request.req_thread = thread_self();
request.req_kind = REQ_FREE;
request.req_args.free.thread = th;
__libc_write(__pthread_manager_request,
(char *) &request, sizeof(request));
}
return 0;
}
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