1e656b349d
as living processes before they are cleaned up (fixes wait()/waitpid() hanging forever on previously-ZOMBIE processes) . stop processes from running using sys_nice() with PRIO_STOP when a handled signal is delivered, before computing stack locations for sys_sigsend(). (fixes race condition when runnable processes get signals, and e.g. get scheduled before FS sends a reply to unpause(), which can make the signal stack location wrong.)
459 lines
17 KiB
C
459 lines
17 KiB
C
/* This file deals with creating processes (via FORK) and deleting them (via
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* EXIT/WAIT). When a process forks, a new slot in the 'mproc' table is
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* allocated for it, and a copy of the parent's core image is made for the
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* child. Then the kernel and file system are informed. A process is removed
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* from the 'mproc' table when two events have occurred: (1) it has exited or
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* been killed by a signal, and (2) the parent has done a WAIT. If the process
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* exits first, it continues to occupy a slot until the parent does a WAIT.
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*
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* The entry points into this file are:
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* do_fork: perform the FORK system call
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* do_pm_exit: perform the EXIT system call (by calling pm_exit())
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* pm_exit: actually do the exiting
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* do_wait: perform the WAITPID or WAIT system call
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* tell_parent: tell parent about the death of a child
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*/
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#include "pm.h"
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#include <sys/wait.h>
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#include <minix/callnr.h>
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#include <minix/com.h>
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#include <sys/resource.h>
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#include <signal.h>
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#include "mproc.h"
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#include "param.h"
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#define LAST_FEW 2 /* last few slots reserved for superuser */
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FORWARD _PROTOTYPE (void cleanup, (register struct mproc *child) );
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/*===========================================================================*
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* do_fork *
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*===========================================================================*/
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PUBLIC int do_fork()
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{
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/* The process pointed to by 'mp' has forked. Create a child process. */
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register struct mproc *rmp; /* pointer to parent */
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register struct mproc *rmc; /* pointer to child */
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int child_nr, s;
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phys_clicks prog_clicks, child_base;
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phys_bytes prog_bytes, parent_abs, child_abs; /* Intel only */
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pid_t new_pid;
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static int next_child;
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int n = 0, r;
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/* If tables might fill up during FORK, don't even start since recovery half
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* way through is such a nuisance.
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*/
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rmp = mp;
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if ((procs_in_use == NR_PROCS) ||
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(procs_in_use >= NR_PROCS-LAST_FEW && rmp->mp_effuid != 0))
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{
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printf("PM: warning, process table is full!\n");
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return(EAGAIN);
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}
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/* Determine how much memory to allocate. Only the data and stack need to
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* be copied, because the text segment is either shared or of zero length.
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*/
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prog_clicks = (phys_clicks) rmp->mp_seg[S].mem_len;
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prog_clicks += (rmp->mp_seg[S].mem_vir - rmp->mp_seg[D].mem_vir);
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prog_bytes = (phys_bytes) prog_clicks << CLICK_SHIFT;
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if ( (child_base = alloc_mem(prog_clicks)) == NO_MEM) return(ENOMEM);
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/* Create a copy of the parent's core image for the child. */
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child_abs = (phys_bytes) child_base << CLICK_SHIFT;
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parent_abs = (phys_bytes) rmp->mp_seg[D].mem_phys << CLICK_SHIFT;
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s = sys_abscopy(parent_abs, child_abs, prog_bytes);
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if (s < 0) panic(__FILE__,"do_fork can't copy", s);
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/* Find a slot in 'mproc' for the child process. A slot must exist. */
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do {
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next_child = (next_child+1) % NR_PROCS;
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n++;
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} while((mproc[next_child].mp_flags & IN_USE) && n <= NR_PROCS);
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if(n > NR_PROCS)
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panic(__FILE__,"do_fork can't find child slot", NO_NUM);
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if(next_child < 0 || next_child >= NR_PROCS
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|| (mproc[next_child].mp_flags & IN_USE))
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panic(__FILE__,"do_fork finds wrong child slot", next_child);
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rmc = &mproc[next_child];
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/* Set up the child and its memory map; copy its 'mproc' slot from parent. */
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child_nr = (int)(rmc - mproc); /* slot number of the child */
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procs_in_use++;
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*rmc = *rmp; /* copy parent's process slot to child's */
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rmc->mp_parent = who_p; /* record child's parent */
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/* inherit only these flags */
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rmc->mp_flags &= (IN_USE|SEPARATE|PRIV_PROC|DONT_SWAP);
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rmc->mp_child_utime = 0; /* reset administration */
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rmc->mp_child_stime = 0; /* reset administration */
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/* A separate I&D child keeps the parents text segment. The data and stack
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* segments must refer to the new copy.
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*/
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if (!(rmc->mp_flags & SEPARATE)) rmc->mp_seg[T].mem_phys = child_base;
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rmc->mp_seg[D].mem_phys = child_base;
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rmc->mp_seg[S].mem_phys = rmc->mp_seg[D].mem_phys +
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(rmp->mp_seg[S].mem_vir - rmp->mp_seg[D].mem_vir);
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rmc->mp_exitstatus = 0;
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rmc->mp_sigstatus = 0;
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/* Find a free pid for the child and put it in the table. */
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new_pid = get_free_pid();
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rmc->mp_pid = new_pid; /* assign pid to child */
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/* Tell kernel and file system about the (now successful) FORK. */
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if((r=sys_fork(who_e, child_nr, &rmc->mp_endpoint, rmc->mp_seg)) != OK) {
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panic(__FILE__,"do_fork can't sys_fork", r);
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}
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if (rmc->mp_fs_call != PM_IDLE)
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panic("pm", "do_fork: not idle", rmc->mp_fs_call);
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rmc->mp_fs_call= PM_FORK;
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r= notify(FS_PROC_NR);
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if (r != OK) panic("pm", "do_fork: unable to notify FS", r);
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/* Do not reply until FS is ready to process the fork
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* request
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*/
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return SUSPEND;
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}
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/*===========================================================================*
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* do_fork_nb *
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*===========================================================================*/
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PUBLIC int do_fork_nb()
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{
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/* The process pointed to by 'mp' has forked. Create a child process. */
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register struct mproc *rmp; /* pointer to parent */
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register struct mproc *rmc; /* pointer to child */
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int child_nr, s;
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phys_clicks prog_clicks, child_base;
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phys_bytes prog_bytes, parent_abs, child_abs; /* Intel only */
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pid_t new_pid;
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static int next_child;
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int n = 0, r;
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/* Only system processes are allowed to use fork_nb */
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if (!(mp->mp_flags & PRIV_PROC))
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return EPERM;
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/* If tables might fill up during FORK, don't even start since recovery half
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* way through is such a nuisance.
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*/
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rmp = mp;
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if ((procs_in_use == NR_PROCS) ||
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(procs_in_use >= NR_PROCS-LAST_FEW && rmp->mp_effuid != 0))
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{
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printf("PM: warning, process table is full!\n");
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return(EAGAIN);
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}
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/* Determine how much memory to allocate. Only the data and stack need to
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* be copied, because the text segment is either shared or of zero length.
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*/
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prog_clicks = (phys_clicks) rmp->mp_seg[S].mem_len;
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prog_clicks += (rmp->mp_seg[S].mem_vir - rmp->mp_seg[D].mem_vir);
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prog_bytes = (phys_bytes) prog_clicks << CLICK_SHIFT;
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if ( (child_base = alloc_mem(prog_clicks)) == NO_MEM) return(ENOMEM);
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/* Create a copy of the parent's core image for the child. */
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child_abs = (phys_bytes) child_base << CLICK_SHIFT;
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parent_abs = (phys_bytes) rmp->mp_seg[D].mem_phys << CLICK_SHIFT;
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s = sys_abscopy(parent_abs, child_abs, prog_bytes);
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if (s < 0) panic(__FILE__,"do_fork can't copy", s);
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/* Find a slot in 'mproc' for the child process. A slot must exist. */
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do {
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next_child = (next_child+1) % NR_PROCS;
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n++;
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} while((mproc[next_child].mp_flags & IN_USE) && n <= NR_PROCS);
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if(n > NR_PROCS)
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panic(__FILE__,"do_fork can't find child slot", NO_NUM);
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if(next_child < 0 || next_child >= NR_PROCS
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|| (mproc[next_child].mp_flags & IN_USE))
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panic(__FILE__,"do_fork finds wrong child slot", next_child);
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rmc = &mproc[next_child];
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/* Set up the child and its memory map; copy its 'mproc' slot from parent. */
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child_nr = (int)(rmc - mproc); /* slot number of the child */
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procs_in_use++;
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*rmc = *rmp; /* copy parent's process slot to child's */
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rmc->mp_parent = who_p; /* record child's parent */
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/* inherit only these flags */
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rmc->mp_flags &= (IN_USE|SEPARATE|PRIV_PROC|DONT_SWAP);
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rmc->mp_child_utime = 0; /* reset administration */
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rmc->mp_child_stime = 0; /* reset administration */
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/* A separate I&D child keeps the parents text segment. The data and stack
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* segments must refer to the new copy.
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*/
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if (!(rmc->mp_flags & SEPARATE)) rmc->mp_seg[T].mem_phys = child_base;
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rmc->mp_seg[D].mem_phys = child_base;
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rmc->mp_seg[S].mem_phys = rmc->mp_seg[D].mem_phys +
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(rmp->mp_seg[S].mem_vir - rmp->mp_seg[D].mem_vir);
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rmc->mp_exitstatus = 0;
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rmc->mp_sigstatus = 0;
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/* Find a free pid for the child and put it in the table. */
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new_pid = get_free_pid();
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rmc->mp_pid = new_pid; /* assign pid to child */
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/* Tell kernel and file system about the (now successful) FORK. */
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if((r=sys_fork(who_e, child_nr, &rmc->mp_endpoint, rmc->mp_seg)) != OK) {
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panic(__FILE__,"do_fork can't sys_fork", r);
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}
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if (rmc->mp_fs_call != PM_IDLE)
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panic("pm", "do_fork: not idle", rmc->mp_fs_call);
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rmc->mp_fs_call= PM_FORK_NB;
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r= notify(FS_PROC_NR);
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if (r != OK) panic("pm", "do_fork: unable to notify FS", r);
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/* Wakeup the newly created process */
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setreply(rmc-mproc, OK);
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return rmc->mp_pid;
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}
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/*===========================================================================*
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* do_pm_exit *
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*===========================================================================*/
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PUBLIC int do_pm_exit()
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{
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/* Perform the exit(status) system call. The real work is done by pm_exit(),
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* which is also called when a process is killed by a signal.
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*/
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pm_exit(mp, m_in.status, FALSE /*!for_trace*/);
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return(SUSPEND); /* can't communicate from beyond the grave */
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}
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/*===========================================================================*
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* pm_exit *
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*===========================================================================*/
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PUBLIC void pm_exit(rmp, exit_status, for_trace)
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register struct mproc *rmp; /* pointer to the process to be terminated */
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int exit_status; /* the process' exit status (for parent) */
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int for_trace;
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{
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/* A process is done. Release most of the process' possessions. If its
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* parent is waiting, release the rest, else keep the process slot and
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* become a zombie.
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*/
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register int proc_nr, proc_nr_e;
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int parent_waiting, right_child, r;
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pid_t pidarg, procgrp;
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struct mproc *p_mp;
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clock_t t[5];
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proc_nr = (int) (rmp - mproc); /* get process slot number */
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proc_nr_e = rmp->mp_endpoint;
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/* Remember a session leader's process group. */
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procgrp = (rmp->mp_pid == mp->mp_procgrp) ? mp->mp_procgrp : 0;
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/* If the exited process has a timer pending, kill it. */
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if (rmp->mp_flags & ALARM_ON) set_alarm(proc_nr_e, (unsigned) 0);
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/* Do accounting: fetch usage times and accumulate at parent. */
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if((r=sys_times(proc_nr_e, t)) != OK)
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panic(__FILE__,"pm_exit: sys_times failed", r);
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p_mp = &mproc[rmp->mp_parent]; /* process' parent */
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p_mp->mp_child_utime += t[0] + rmp->mp_child_utime; /* add user time */
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p_mp->mp_child_stime += t[1] + rmp->mp_child_stime; /* add system time */
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/* Tell the kernel the process is no longer runnable to prevent it from
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* being scheduled in between the following steps. Then tell FS that it
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* the process has exited and finally, clean up the process at the kernel.
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* This order is important so that FS can tell drivers to cancel requests
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* such as copying to/ from the exiting process, before it is gone.
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*/
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sys_nice(proc_nr_e, PRIO_STOP); /* stop the process */
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if (proc_nr_e == INIT_PROC_NR)
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{
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printf("PM: INIT died\n");
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return;
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}
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else
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if(proc_nr_e != FS_PROC_NR) /* if it is not FS that is exiting.. */
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{
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/* Tell FS about the exiting process. */
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if (rmp->mp_fs_call != PM_IDLE)
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panic(__FILE__, "pm_exit: not idle", rmp->mp_fs_call);
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rmp->mp_fs_call= (for_trace ? PM_EXIT_TR : PM_EXIT);
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r= notify(FS_PROC_NR);
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if (r != OK) panic(__FILE__, "pm_exit: unable to notify FS", r);
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if (rmp->mp_flags & PRIV_PROC)
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{
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/* destroy system processes without waiting for FS */
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if((r= sys_exit(rmp->mp_endpoint)) != OK)
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panic(__FILE__, "pm_exit: sys_exit failed", r);
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}
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}
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else
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{
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printf("PM: FS died\n");
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return;
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}
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/* Pending reply messages for the dead process cannot be delivered. */
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rmp->mp_flags &= ~REPLY;
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/* Keep the process around until FS is finished with it. */
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rmp->mp_exitstatus = (char) exit_status;
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pidarg = p_mp->mp_wpid; /* who's being waited for? */
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parent_waiting = p_mp->mp_flags & WAITING;
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right_child = /* child meets one of the 3 tests? */
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(pidarg == -1 || pidarg == rmp->mp_pid || -pidarg == rmp->mp_procgrp);
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if (parent_waiting && right_child) {
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tell_parent(rmp); /* tell parent */
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} else {
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rmp->mp_flags &= (IN_USE|PRIV_PROC);
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rmp->mp_flags |= ZOMBIE; /* parent not waiting, zombify child */
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sig_proc(p_mp, SIGCHLD); /* send parent a "child died" signal */
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}
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/* If the process has children, disinherit them. INIT is the new parent. */
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for (rmp = &mproc[0]; rmp < &mproc[NR_PROCS]; rmp++) {
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if (rmp->mp_flags & IN_USE && rmp->mp_parent == proc_nr) {
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/* 'rmp' now points to a child to be disinherited. */
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rmp->mp_parent = INIT_PROC_NR;
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parent_waiting = mproc[INIT_PROC_NR].mp_flags & WAITING;
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if (parent_waiting && (rmp->mp_flags & ZOMBIE) &&
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!(rmp->mp_flags & TOLD_PARENT) &&
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rmp->mp_fs_call != PM_EXIT) {
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cleanup(rmp);
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}
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}
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}
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/* Send a hangup to the process' process group if it was a session leader. */
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if (procgrp != 0) check_sig(-procgrp, SIGHUP);
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}
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/*===========================================================================*
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* do_waitpid *
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*===========================================================================*/
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PUBLIC int do_waitpid()
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{
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/* A process wants to wait for a child to terminate. If a child is already
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* waiting, go clean it up and let this WAIT call terminate. Otherwise,
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* really wait.
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* A process calling WAIT never gets a reply in the usual way at the end
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* of the main loop (unless WNOHANG is set or no qualifying child exists).
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* If a child has already exited, the routine cleanup() sends the reply
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* to awaken the caller.
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* Both WAIT and WAITPID are handled by this code.
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*/
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register struct mproc *rp;
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int pidarg, options, children;
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/* Set internal variables, depending on whether this is WAIT or WAITPID. */
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pidarg = (call_nr == WAIT ? -1 : m_in.pid); /* 1st param of waitpid */
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options = (call_nr == WAIT ? 0 : m_in.sig_nr); /* 3rd param of waitpid */
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if (pidarg == 0) pidarg = -mp->mp_procgrp; /* pidarg < 0 ==> proc grp */
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/* Is there a child waiting to be collected? At this point, pidarg != 0:
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* pidarg > 0 means pidarg is pid of a specific process to wait for
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* pidarg == -1 means wait for any child
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* pidarg < -1 means wait for any child whose process group = -pidarg
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*/
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children = 0;
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for (rp = &mproc[0]; rp < &mproc[NR_PROCS]; rp++) {
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if ( (rp->mp_flags & IN_USE) && rp->mp_parent == who_p) {
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/* The value of pidarg determines which children qualify. */
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if (pidarg > 0 && pidarg != rp->mp_pid) continue;
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if (pidarg < -1 && -pidarg != rp->mp_procgrp) continue;
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if (rp->mp_flags & TOLD_PARENT) continue; /* post-ZOMBIE */
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children++; /* this child is acceptable */
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if (rp->mp_flags & ZOMBIE) {
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/* This child meets the pid test and has exited. */
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tell_parent(rp); /* this child has already exited */
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if (rp->mp_fs_call == PM_IDLE)
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real_cleanup(rp);
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return(SUSPEND);
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}
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if ((rp->mp_flags & STOPPED) && rp->mp_sigstatus) {
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/* This child meets the pid test and is being traced.*/
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mp->mp_reply.reply_res2 = 0177|(rp->mp_sigstatus << 8);
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rp->mp_sigstatus = 0;
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return(rp->mp_pid);
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}
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}
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}
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/* No qualifying child has exited. Wait for one, unless none exists. */
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if (children > 0) {
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/* At least 1 child meets the pid test exists, but has not exited. */
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if (options & WNOHANG) return(0); /* parent does not want to wait */
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mp->mp_flags |= WAITING; /* parent wants to wait */
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mp->mp_wpid = (pid_t) pidarg; /* save pid for later */
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return(SUSPEND); /* do not reply, let it wait */
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} else {
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/* No child even meets the pid test. Return error immediately. */
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return(ECHILD); /* no - parent has no children */
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}
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}
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/*===========================================================================*
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* cleanup *
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*===========================================================================*/
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PRIVATE void cleanup(child)
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register struct mproc *child; /* tells which process is exiting */
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{
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/* Finish off the exit of a process. The process has exited or been killed
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* by a signal, and its parent is waiting.
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*/
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if (child->mp_fs_call != PM_IDLE)
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panic(__FILE__, "cleanup: not idle", child->mp_fs_call);
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tell_parent(child);
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real_cleanup(child);
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}
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/*===========================================================================*
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* tell_parent *
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*===========================================================================*/
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PUBLIC void tell_parent(child)
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register struct mproc *child; /* tells which process is exiting */
|
|
{
|
|
int exitstatus, mp_parent;
|
|
struct mproc *parent;
|
|
|
|
mp_parent= child->mp_parent;
|
|
if (mp_parent <= 0)
|
|
panic(__FILE__, "tell_parent: bad value in mp_parent", mp_parent);
|
|
if(child->mp_flags & TOLD_PARENT)
|
|
panic(__FILE__, "tell_parent: telling parent again", NO_NUM);
|
|
parent = &mproc[mp_parent];
|
|
|
|
/* Wake up the parent by sending the reply message. */
|
|
exitstatus = (child->mp_exitstatus << 8) | (child->mp_sigstatus & 0377);
|
|
parent->mp_reply.reply_res2 = exitstatus;
|
|
setreply(child->mp_parent, child->mp_pid);
|
|
parent->mp_flags &= ~WAITING; /* parent no longer waiting */
|
|
child->mp_flags |= TOLD_PARENT; /* avoid informing parent twice */
|
|
}
|
|
|
|
/*===========================================================================*
|
|
* real_cleanup *
|
|
*===========================================================================*/
|
|
PUBLIC void real_cleanup(rmp)
|
|
register struct mproc *rmp; /* tells which process is exiting */
|
|
{
|
|
/* Release the process table entry and reinitialize some field. */
|
|
rmp->mp_pid = 0;
|
|
rmp->mp_flags = 0;
|
|
rmp->mp_child_utime = 0;
|
|
rmp->mp_child_stime = 0;
|
|
procs_in_use--;
|
|
}
|