/* * linux/kernel/exit.c * * (C) 1991 Linus Torvalds */ #include #include #include #include #include #include #include #include // int sys_pause(void); int sys_close(int fd); void* thread_value[4096] = {};// void release(struct task_struct * p) { int i; if (!p) return; for (i=1 ; i32) return -EINVAL; if (priv || (current->euid==p->euid) || suser()) p->signal |= (1<<(sig-1)); else return -EPERM; return 0; } static void kill_session(void) { struct task_struct **p = NR_TASKS + task; while (--p > &FIRST_TASK) { if (*p && (*p)->session == current->session) (*p)->signal |= 1<<(SIGHUP-1); } } /* * XXX need to check permissions needed to send signals to process * groups, etc. etc. kill() permissions semantics are tricky! */ int sys_kill(int pid,int sig) { struct task_struct **p = NR_TASKS + task; int err, retval = 0; if (!pid) while (--p > &FIRST_TASK) { if (*p && (*p)->pgrp == current->pid) if (err=send_sig(sig,*p,1)) retval = err; } else if (pid>0) while (--p > &FIRST_TASK) { if (*p && (*p)->pid == pid) if (err=send_sig(sig,*p,0)) retval = err; } else if (pid == -1) while (--p > &FIRST_TASK) if (err = send_sig(sig,*p,0)) retval = err; else while (--p > &FIRST_TASK) if (*p && (*p)->pgrp == -pid) if (err = send_sig(sig,*p,0)) retval = err; return retval; } static void tell_father(int pid) { int i; if (pid) for (i=0;ipid != pid) continue; task[i]->signal |= (1<<(SIGCHLD-1)); return; } /* if we don't find any fathers, we just release ourselves */ /* This is not really OK. Must change it to make father 1 */ printk("BAD BAD - no father found\n\r"); release(current); } int do_exit(long code) { int i; free_page_tables(get_base(current->ldt[1]),get_limit(0x0f)); free_page_tables(get_base(current->ldt[2]),get_limit(0x17)); for (i=0 ; ifather == current->pid) { task[i]->father = 1; if (task[i]->state == TASK_ZOMBIE) /* assumption task[1] is always init */ (void) send_sig(SIGCHLD, task[1], 1); } for (i=0 ; ifilp[i]) sys_close(i); iput(current->pwd); current->pwd=NULL; iput(current->root); current->root=NULL; iput(current->executable); current->executable=NULL; if (current->leader && current->tty >= 0) tty_table[current->tty].pgrp = 0; if (last_task_used_math == current) last_task_used_math = NULL; if (current->leader) kill_session(); current->state = TASK_ZOMBIE; current->exit_code = code; tell_father(current->father); schedule(); return (-1); /* just to suppress warnings */ } int sys_exit(int error_code) { return do_exit((error_code&0xff)<<8); } int sys_waitpid(pid_t pid,unsigned long * stat_addr, int options) { int flag, code; struct task_struct ** p; verify_area(stat_addr,4); repeat: flag=0; for(p = &LAST_TASK ; p > &FIRST_TASK ; --p) { if (!*p || *p == current) continue; if ((*p)->father != current->pid) continue; if (pid>0) { if ((*p)->pid != pid) continue; } else if (!pid) { if ((*p)->pgrp != current->pgrp) continue; } else if (pid != -1) { if ((*p)->pgrp != -pid) continue; } switch ((*p)->state) { case TASK_STOPPED: if (!(options & WUNTRACED)) continue; put_fs_long(0x7f,stat_addr); return (*p)->pid; case TASK_ZOMBIE: current->cutime += (*p)->utime; current->cstime += (*p)->stime; flag = (*p)->pid; code = (*p)->exit_code; release(*p); put_fs_long(code,stat_addr); return flag; default: flag=1; continue; } } if (flag) { if (options & WNOHANG) return 0; current->state=TASK_INTERRUPTIBLE; schedule(); if (!(current->signal &= ~(1<<(SIGCHLD-1)))) goto repeat; else return -EINTR; } return -ECHILD; } int sys_thread_exit(void* value_ptr) /* ϵͳ����thread_exitʵ�ֺ������ο���do_exit */ { int i; pthread_t thread; free_page_tables(get_base(current->ldt[1]), get_limit(0x0f)); free_page_tables(get_base(current->ldt[2]), get_limit(0x17)); for (i = 0; i < NR_TASKS; i++) if (task[i] && task[i]->father == current->pid) { task[i]->father = 1; if (task[i]->state == TASK_ZOMBIE) /* assumption task[1] is always init */ (void)send_sig(SIGCHLD, task[1], 1); } for (i = 0; i < NR_OPEN; i++) if (current->filp[i]) sys_close(i); iput(current->pwd); current->pwd = NULL; iput(current->root); current->root = NULL; iput(current->executable); current->executable = NULL; if (current->leader && current->tty >= 0) tty_table[current->tty].pgrp = 0; if (last_task_used_math == current) last_task_used_math = NULL; if (current->leader) kill_session(); current->state = TASK_ZOMBIE; thread = current->pid; /*��ǰ�߳�ID*/ thread_value[thread] = value_ptr; tell_father(current->father); schedule(); return (-1); } int sys_thread_join(pthread_t thread, void** value_ptr) /* ϵͳ����thread_exitʵ�ֺ������ο���wait_pid */ { if (thread <= 0 || value_ptr == NULL) { printk("Error:thread joining failed!\n"); sys_exit(0); } int flag; struct task_struct** p; repeat: flag = 0; for (p = &LAST_TASK; p > &FIRST_TASK; --p) { if (!*p || *p == current) continue; if ((*p)->father != current->pid) continue; if ((*p)->pid != thread) continue; switch ((*p)->state) { case TASK_STOPPED: break; case TASK_ZOMBIE: current->cutime += (*p)->utime; current->cstime += (*p)->stime; release(*p); put_fs_long(thread_value[thread], value_ptr); return 0; default: flag = 1; break; } } if (flag) { current->state = TASK_INTERRUPTIBLE; schedule(); if (!(current->signal &= ~(1 << (SIGCHLD - 1)))) goto repeat; else return -EINTR; } return -ECHILD; }