7967177710
'who', indicating caller number in pm and fs and some other servers, has been removed in favour of 'who_e' (endpoint) and 'who_p' (proc nr.). In both PM and FS, isokendpt() convert endpoints to process slot numbers, returning OK if it was a valid and consistent endpoint number. okendpt() does the same but panic()s if it doesn't succeed. (In PM, this is pm_isok..) pm and fs keep their own records of process endpoints in their proc tables, which are needed to make kernel calls about those processes. message field names have changed. fs drivers are endpoints. fs now doesn't try to get out of driver deadlock, as the protocol isn't supposed to let that happen any more. (A warning is printed if ELOCKED is detected though.) fproc[].fp_task (indicating which driver the process is suspended on) became an int. PM and FS now get endpoint numbers of initial boot processes from the kernel. These happen to be the same as the old proc numbers, to let user processes reach them with the old numbers, but FS and PM don't know that. All new processes after INIT, even after the generation number wraps around, get endpoint numbers with generation 1 and higher, so the first instances of the boot processes are the only processes ever to have endpoint numbers in the old proc number range. More return code checks of sys_* functions have been added. IS has become endpoint-aware. Ditched the 'text' and 'data' fields in the kernel dump (which show locations, not sizes, so aren't terribly useful) in favour of the endpoint number. Proc number is still visible. Some other dumps (e.g. dmap, rs) show endpoint numbers now too which got the formatting changed. PM reading segments using rw_seg() has changed - it uses other fields in the message now instead of encoding the segment and process number and fd in the fd field. For that it uses _read_pm() and _write_pm() which to _taskcall()s directly in pm/misc.c. PM now sys_exit()s itself on panic(), instead of sys_abort(). RS also talks in endpoints instead of process numbers.
302 lines
12 KiB
C
302 lines
12 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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*/
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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 <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)) != OK) {
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panic(__FILE__,"do_fork can't sys_fork", r);
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}
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tell_fs(FORK, who_e, rmc->mp_endpoint, rmc->mp_pid);
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/* Report child's memory map to kernel. */
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if((r=sys_newmap(rmc->mp_endpoint, rmc->mp_seg)) != OK) {
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panic(__FILE__,"do_fork can't sys_newmap", r);
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}
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/* Reply to child to wake it up. */
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setreply(child_nr, 0); /* only parent gets details */
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rmp->mp_reply.endpt = rmc->mp_endpoint; /* child's process number */
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return(new_pid); /* child's 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);
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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)
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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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{
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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 and FS that the process is no longer runnable. */
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tell_fs(EXIT, proc_nr_e, 0, 0); /* file system can free the proc slot */
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if((r=sys_exit(proc_nr_e)) != OK)
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panic(__FILE__,"pm_exit: sys_exit failed", r);
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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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/* Release the memory occupied by the child. */
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if (find_share(rmp, rmp->mp_ino, rmp->mp_dev, rmp->mp_ctime) == NULL) {
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/* No other process shares the text segment, so free it. */
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free_mem(rmp->mp_seg[T].mem_phys, rmp->mp_seg[T].mem_len);
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}
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/* Free the data and stack segments. */
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free_mem(rmp->mp_seg[D].mem_phys,
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rmp->mp_seg[S].mem_vir
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+ rmp->mp_seg[S].mem_len - rmp->mp_seg[D].mem_vir);
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/* The process slot can only be freed if the parent has done a WAIT. */
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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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cleanup(rmp); /* tell parent and release child slot */
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} else {
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rmp->mp_flags = IN_USE|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)) cleanup(rmp);
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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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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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cleanup(rp); /* this child has already exited */
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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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struct mproc *parent = &mproc[child->mp_parent];
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int exitstatus;
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/* Wake up the parent by sending the reply message. */
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exitstatus = (child->mp_exitstatus << 8) | (child->mp_sigstatus & 0377);
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parent->mp_reply.reply_res2 = exitstatus;
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setreply(child->mp_parent, child->mp_pid);
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parent->mp_flags &= ~WAITING; /* parent no longer waiting */
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/* Release the process table entry and reinitialize some field. */
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child->mp_pid = 0;
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child->mp_flags = 0;
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child->mp_child_utime = 0;
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child->mp_child_stime = 0;
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procs_in_use--;
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}
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