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如何进行基于linuxthreads2.0.1线程源码分析cancel.c

这期内容当中小编将会给大家带来有关如何进行基于linuxthreads2.0.1线程源码分析cancel.c,文章内容丰富且以专业的角度为大家分析和叙述,阅读完这篇文章希望大家可以有所收获。

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cancel.c实现了线程的是否可取消,取消类型,取消线程,设置线程退出时需要执行的函数列表等功能。

   
     
 
    
   


/* Thread cancellation */

#include
#include "pthread.h"
#include "internals.h"
#include "restart.h"

/*
修改线程的可取消属性。有一个取消点
取消状态分为可取消,不可取消
   不可取消的时候,收到取消信号,忽略
   可取消的时候,收到取消信号的时候,根据取消类型做处理。
     立即处理
     不立刻处理,到下一个取消点,判定线程的状态的取消类型再处理
*/
int pthread_setcancelstate(int state, int * oldstate)
{
 pthread_t self = thread_self();
 if (state < PTHREAD_CANCEL_ENABLE || state > PTHREAD_CANCEL_DISABLE)
   return EINVAL;
 // 保存旧的状态
 if (oldstate != NULL) *oldstate = self->p_cancelstate;
 // 设置新的状态
 self->p_cancelstate = state;
 // 判断线程是否被取消了,并且当前被设置成可取消状态,并且是需要马上处理的,则直接退出
 if (self->p_canceled &&
     self->p_cancelstate == PTHREAD_CANCEL_ENABLE &&
     self->p_canceltype == PTHREAD_CANCEL_ASYNCHRONOUS)
   pthread_exit(PTHREAD_CANCELED);
 return 0;
}
// 见上一个函数
int pthread_setcanceltype(int type, int * oldtype)
{
 pthread_t self = thread_self();
 if (type < PTHREAD_CANCEL_DEFERRED || type > PTHREAD_CANCEL_ASYNCHRONOUS)
   return EINVAL;
 if (oldtype != NULL) *oldtype = self->p_canceltype;
 self->p_canceltype = type;
 if (self->p_canceled &&
     self->p_cancelstate == PTHREAD_CANCEL_ENABLE &&
     self->p_canceltype == PTHREAD_CANCEL_ASYNCHRONOUS)
   pthread_exit(PTHREAD_CANCELED);
 return 0;
}
// 给线程发送取消请求,线程收到该信号是否处理,怎么处理取决于线程本身对于取消的相关配置
int pthread_cancel(pthread_t thread)
{
 thread->p_canceled = 1;
 kill(thread->p_pid, PTHREAD_SIG_CANCEL);
 return 0;
}
// 设置一个取消点
void pthread_testcancel(void)
{
 pthread_t self = thread_self();
 // 判断线程是不是已经被取消,并且是可取消的,则退出
 if (self->p_canceled && self->p_cancelstate == PTHREAD_CANCEL_ENABLE)
   pthread_exit(PTHREAD_CANCELED);
}
// 链表中新增一个clean函数
void _pthread_cleanup_push(struct _pthread_cleanup_buffer * buffer,
  void (*routine)(void *), void * arg)
{
 pthread_t self = thread_self();
 buffer->routine = routine;
 buffer->arg = arg;
 // 头插法
 buffer->prev = self->p_cleanup;
 self->p_cleanup = buffer;
}
// 删除一个clean节点,execute判断是否需要执行
void _pthread_cleanup_pop(struct _pthread_cleanup_buffer * buffer,
 int execute)
{
 pthread_t self = thread_self();
 if (execute) buffer->routine(buffer->arg);
 self->p_cleanup = buffer->prev;
}
// 新增一个clean节点,保存旧的取消类型,设置新的取消类型为PTHREAD_CANCEL_DEFERRED
void _pthread_cleanup_push_defer(struct _pthread_cleanup_buffer * buffer,
void (*routine)(void *), void * arg)
{
 pthread_t self = thread_self();
 buffer->routine = routine;
 buffer->arg = arg;
 buffer->canceltype = self->p_canceltype;
 buffer->prev = self->p_cleanup;
 self->p_canceltype = PTHREAD_CANCEL_DEFERRED;
 self->p_cleanup = buffer;
}

// 和上面的函数配套。删除一个clean节点,execute控制是否需要执行删除的这个节点,恢复线程的取消类型,是一个有取消点的函数
void _pthread_cleanup_pop_restore(struct _pthread_cleanup_buffer * buffer,
 int execute)
{
 pthread_t self = thread_self();
 if (execute) buffer->routine(buffer->arg);
 self->p_cleanup = buffer->prev;
 self->p_canceltype = buffer->canceltype;
 if (self->p_canceled &&
     self->p_cancelstate == PTHREAD_CANCEL_ENABLE &&
     self->p_canceltype == PTHREAD_CANCEL_ASYNCHRONOUS)
   pthread_exit(PTHREAD_CANCELED);
}
// 线程退出的时候(pthread_exit)调用执行clean链表的节点
void __pthread_perform_cleanup(void)
{
 pthread_t self = thread_self();
 struct _pthread_cleanup_buffer * c;
 for (c = self->p_cleanup; c != NULL; c = c->prev) c->routine(c->arg);
}

#ifndef PIC
/* We need a hook to force the cancelation wrappers to be linked in when
  static libpthread is used.  */
extern const int __pthread_provide_wrappers;
static const int * const __pthread_require_wrappers =
 &__pthread_provide_wrappers;
#endif  

上述就是小编为大家分享的如何进行基于linuxthreads2.0.1线程源码分析cancel.c了,如果刚好有类似的疑惑,不妨参照上述分析进行理解。如果想知道更多相关知识,欢迎关注创新互联行业资讯频道。


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