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|
/* $OpenBSD: kern_exit.c,v 1.216 2023/09/21 13:49:25 claudio Exp $ */
/* $NetBSD: kern_exit.c,v 1.39 1996/04/22 01:38:25 christos Exp $ */
/*
* Copyright (c) 1982, 1986, 1989, 1991, 1993
* The Regents of the University of California. All rights reserved.
* (c) UNIX System Laboratories, Inc.
* All or some portions of this file are derived from material licensed
* to the University of California by American Telephone and Telegraph
* Co. or Unix System Laboratories, Inc. and are reproduced herein with
* the permission of UNIX System Laboratories, Inc.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. Neither the name of the University nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
* @(#)kern_exit.c 8.7 (Berkeley) 2/12/94
*/
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/proc.h>
#include <sys/time.h>
#include <sys/resource.h>
#include <sys/wait.h>
#include <sys/vnode.h>
#include <sys/malloc.h>
#include <sys/resourcevar.h>
#include <sys/ptrace.h>
#include <sys/acct.h>
#include <sys/filedesc.h>
#include <sys/signalvar.h>
#include <sys/sched.h>
#include <sys/ktrace.h>
#include <sys/pool.h>
#include <sys/mutex.h>
#ifdef SYSVSEM
#include <sys/sem.h>
#endif
#include <sys/witness.h>
#include <sys/mount.h>
#include <sys/syscallargs.h>
#include <uvm/uvm_extern.h>
#include "kcov.h"
#if NKCOV > 0
#include <sys/kcov.h>
#endif
void proc_finish_wait(struct proc *, struct proc *);
void process_clear_orphan(struct process *);
void process_zap(struct process *);
void proc_free(struct proc *);
void unveil_destroy(struct process *ps);
/*
* exit --
* Death of process.
*/
int
sys_exit(struct proc *p, void *v, register_t *retval)
{
struct sys_exit_args /* {
syscallarg(int) rval;
} */ *uap = v;
exit1(p, SCARG(uap, rval), 0, EXIT_NORMAL);
/* NOTREACHED */
return (0);
}
int
sys___threxit(struct proc *p, void *v, register_t *retval)
{
struct sys___threxit_args /* {
syscallarg(pid_t *) notdead;
} */ *uap = v;
if (SCARG(uap, notdead) != NULL) {
pid_t zero = 0;
if (copyout(&zero, SCARG(uap, notdead), sizeof(zero)))
psignal(p, SIGSEGV);
}
exit1(p, 0, 0, EXIT_THREAD);
return (0);
}
/*
* Exit: deallocate address space and other resources, change proc state
* to zombie, and unlink proc from allproc and parent's lists. Save exit
* status and rusage for wait(). Check for child processes and orphan them.
*/
void
exit1(struct proc *p, int xexit, int xsig, int flags)
{
struct process *pr, *qr, *nqr;
struct rusage *rup;
struct timespec ts;
int s;
atomic_setbits_int(&p->p_flag, P_WEXIT);
pr = p->p_p;
/* single-threaded? */
if (!P_HASSIBLING(p)) {
flags = EXIT_NORMAL;
} else {
/* nope, multi-threaded */
if (flags == EXIT_NORMAL)
single_thread_set(p, SINGLE_EXIT, 1);
else if (flags == EXIT_THREAD)
single_thread_check(p, 0);
}
if (flags == EXIT_NORMAL && !(pr->ps_flags & PS_EXITING)) {
if (pr->ps_pid == 1)
panic("init died (signal %d, exit %d)", xsig, xexit);
atomic_setbits_int(&pr->ps_flags, PS_EXITING);
pr->ps_xexit = xexit;
pr->ps_xsig = xsig;
/*
* If parent is waiting for us to exit or exec, PS_PPWAIT
* is set; we wake up the parent early to avoid deadlock.
*/
if (pr->ps_flags & PS_PPWAIT) {
atomic_clearbits_int(&pr->ps_flags, PS_PPWAIT);
atomic_clearbits_int(&pr->ps_pptr->ps_flags,
PS_ISPWAIT);
wakeup(pr->ps_pptr);
}
}
/* unlink ourselves from the active threads */
SCHED_LOCK(s);
TAILQ_REMOVE(&pr->ps_threads, p, p_thr_link);
SCHED_UNLOCK(s);
if ((p->p_flag & P_THREAD) == 0) {
/* main thread gotta wait because it has the pid, et al */
while (pr->ps_threadcnt > 1)
tsleep_nsec(&pr->ps_threads, PWAIT, "thrdeath", INFSLP);
}
rup = pr->ps_ru;
if (rup == NULL) {
rup = pool_get(&rusage_pool, PR_WAITOK | PR_ZERO);
if (pr->ps_ru == NULL) {
pr->ps_ru = rup;
} else {
pool_put(&rusage_pool, rup);
rup = pr->ps_ru;
}
}
p->p_siglist = 0;
if ((p->p_flag & P_THREAD) == 0)
pr->ps_siglist = 0;
kqpoll_exit();
#if NKCOV > 0
kcov_exit(p);
#endif
if ((p->p_flag & P_THREAD) == 0) {
if (pr->ps_flags & PS_PROFIL)
stopprofclock(pr);
sigio_freelist(&pr->ps_sigiolst);
/* close open files and release open-file table */
fdfree(p);
cancel_all_itimers();
timeout_del(&pr->ps_rucheck_to);
#ifdef SYSVSEM
semexit(pr);
#endif
killjobc(pr);
#ifdef ACCOUNTING
acct_process(p);
#endif
#ifdef KTRACE
/* release trace file */
if (pr->ps_tracevp)
ktrcleartrace(pr);
#endif
unveil_destroy(pr);
/*
* If parent has the SAS_NOCLDWAIT flag set, we're not
* going to become a zombie.
*/
if (pr->ps_pptr->ps_sigacts->ps_sigflags & SAS_NOCLDWAIT)
atomic_setbits_int(&pr->ps_flags, PS_NOZOMBIE);
}
p->p_fd = NULL; /* zap the thread's copy */
/* Release the thread's read reference of resource limit structure. */
if (p->p_limit != NULL) {
struct plimit *limit;
limit = p->p_limit;
p->p_limit = NULL;
lim_free(limit);
}
/*
* Remove proc from pidhash chain and allproc so looking
* it up won't work. We will put the proc on the
* deadproc list later (using the p_hash member), and
* wake up the reaper when we do. If this is the last
* thread of a process that isn't PS_NOZOMBIE, we'll put
* the process on the zombprocess list below.
*/
/*
* NOTE: WE ARE NO LONGER ALLOWED TO SLEEP!
*/
p->p_stat = SDEAD;
LIST_REMOVE(p, p_hash);
LIST_REMOVE(p, p_list);
if ((p->p_flag & P_THREAD) == 0) {
LIST_REMOVE(pr, ps_hash);
LIST_REMOVE(pr, ps_list);
if ((pr->ps_flags & PS_NOZOMBIE) == 0)
LIST_INSERT_HEAD(&zombprocess, pr, ps_list);
else {
/*
* Not going to be a zombie, so it's now off all
* the lists scanned by ispidtaken(), so block
* fast reuse of the pid now.
*/
freepid(pr->ps_pid);
}
/*
* Reparent children to their original parent, in case
* they were being traced, or to init(8).
*/
qr = LIST_FIRST(&pr->ps_children);
if (qr) /* only need this if any child is S_ZOMB */
wakeup(initprocess);
for (; qr != NULL; qr = nqr) {
nqr = LIST_NEXT(qr, ps_sibling);
/*
* Traced processes are killed since their
* existence means someone is screwing up.
*/
if (qr->ps_flags & PS_TRACED &&
!(qr->ps_flags & PS_EXITING)) {
process_untrace(qr);
/*
* If single threading is active,
* direct the signal to the active
* thread to avoid deadlock.
*/
if (qr->ps_single)
ptsignal(qr->ps_single, SIGKILL,
STHREAD);
else
prsignal(qr, SIGKILL);
} else {
process_reparent(qr, initprocess);
}
}
/*
* Make sure orphans won't remember the exiting process.
*/
while ((qr = LIST_FIRST(&pr->ps_orphans)) != NULL) {
KASSERT(qr->ps_oppid == pr->ps_pid);
qr->ps_oppid = 0;
process_clear_orphan(qr);
}
}
/* add thread's accumulated rusage into the process's total */
ruadd(rup, &p->p_ru);
nanouptime(&ts);
if (timespeccmp(&ts, &curcpu()->ci_schedstate.spc_runtime, <))
timespecclear(&ts);
else
timespecsub(&ts, &curcpu()->ci_schedstate.spc_runtime, &ts);
SCHED_LOCK(s);
tuagg_locked(pr, p, &ts);
SCHED_UNLOCK(s);
/*
* clear %cpu usage during swap
*/
p->p_pctcpu = 0;
if ((p->p_flag & P_THREAD) == 0) {
/*
* Final thread has died, so add on our children's rusage
* and calculate the total times
*/
calcru(&pr->ps_tu, &rup->ru_utime, &rup->ru_stime, NULL);
ruadd(rup, &pr->ps_cru);
/*
* Notify parent that we're gone. If we're not going to
* become a zombie, reparent to process 1 (init) so that
* we can wake our original parent to possibly unblock
* wait4() to return ECHILD.
*/
if (pr->ps_flags & PS_NOZOMBIE) {
struct process *ppr = pr->ps_pptr;
process_reparent(pr, initprocess);
wakeup(ppr);
}
}
/* just a thread? detach it from its process */
if (p->p_flag & P_THREAD) {
/* scheduler_wait_hook(pr->ps_mainproc, p); XXX */
if (--pr->ps_threadcnt == 1)
wakeup(&pr->ps_threads);
KASSERT(pr->ps_threadcnt > 0);
}
/*
* Other substructures are freed from reaper and wait().
*/
/*
* Finally, call machine-dependent code to switch to a new
* context (possibly the idle context). Once we are no longer
* using the dead process's vmspace and stack, exit2() will be
* called to schedule those resources to be released by the
* reaper thread.
*
* Note that cpu_exit() will end with a call equivalent to
* cpu_switch(), finishing our execution (pun intended).
*/
uvmexp.swtch++;
cpu_exit(p);
panic("cpu_exit returned");
}
/*
* Locking of this proclist is special; it's accessed in a
* critical section of process exit, and thus locking it can't
* modify interrupt state. We use a simple spin lock for this
* proclist. We use the p_hash member to linkup to deadproc.
*/
struct mutex deadproc_mutex =
MUTEX_INITIALIZER_FLAGS(IPL_NONE, "deadproc", MTX_NOWITNESS);
struct proclist deadproc = LIST_HEAD_INITIALIZER(deadproc);
/*
* We are called from cpu_exit() once it is safe to schedule the
* dead process's resources to be freed.
*
* NOTE: One must be careful with locking in this routine. It's
* called from a critical section in machine-dependent code, so
* we should refrain from changing any interrupt state.
*
* We lock the deadproc list, place the proc on that list (using
* the p_hash member), and wake up the reaper.
*/
void
exit2(struct proc *p)
{
mtx_enter(&deadproc_mutex);
LIST_INSERT_HEAD(&deadproc, p, p_hash);
mtx_leave(&deadproc_mutex);
wakeup(&deadproc);
}
void
proc_free(struct proc *p)
{
crfree(p->p_ucred);
pool_put(&proc_pool, p);
nthreads--;
}
/*
* Process reaper. This is run by a kernel thread to free the resources
* of a dead process. Once the resources are free, the process becomes
* a zombie, and the parent is allowed to read the undead's status.
*/
void
reaper(void *arg)
{
struct proc *p;
KERNEL_UNLOCK();
SCHED_ASSERT_UNLOCKED();
for (;;) {
mtx_enter(&deadproc_mutex);
while ((p = LIST_FIRST(&deadproc)) == NULL)
msleep_nsec(&deadproc, &deadproc_mutex, PVM, "reaper",
INFSLP);
/* Remove us from the deadproc list. */
LIST_REMOVE(p, p_hash);
mtx_leave(&deadproc_mutex);
WITNESS_THREAD_EXIT(p);
KERNEL_LOCK();
/*
* Free the VM resources we're still holding on to.
* We must do this from a valid thread because doing
* so may block.
*/
uvm_uarea_free(p);
p->p_vmspace = NULL; /* zap the thread's copy */
if (p->p_flag & P_THREAD) {
/* Just a thread */
proc_free(p);
} else {
struct process *pr = p->p_p;
/* Release the rest of the process's vmspace */
uvm_exit(pr);
if ((pr->ps_flags & PS_NOZOMBIE) == 0) {
/* Process is now a true zombie. */
atomic_setbits_int(&pr->ps_flags, PS_ZOMBIE);
}
/* Notify listeners of our demise and clean up. */
knote_processexit(pr);
if (pr->ps_flags & PS_ZOMBIE) {
/* Post SIGCHLD and wake up parent. */
prsignal(pr->ps_pptr, SIGCHLD);
wakeup(pr->ps_pptr);
} else {
/* No one will wait for us, just zap it. */
process_zap(pr);
}
}
KERNEL_UNLOCK();
}
}
int
dowait6(struct proc *q, idtype_t idtype, id_t id, int *statusp, int options,
struct rusage *rusage, siginfo_t *info, register_t *retval)
{
int nfound;
struct process *pr;
struct proc *p;
int error;
if (info != NULL)
memset(info, 0, sizeof(*info));
loop:
nfound = 0;
LIST_FOREACH(pr, &q->p_p->ps_children, ps_sibling) {
if ((pr->ps_flags & PS_NOZOMBIE) ||
(idtype == P_PID && id != pr->ps_pid) ||
(idtype == P_PGID && id != pr->ps_pgid))
continue;
p = pr->ps_mainproc;
nfound++;
if ((options & WEXITED) && (pr->ps_flags & PS_ZOMBIE)) {
*retval = pr->ps_pid;
if (info != NULL) {
info->si_pid = pr->ps_pid;
info->si_uid = pr->ps_ucred->cr_uid;
info->si_signo = SIGCHLD;
if (pr->ps_xsig == 0) {
info->si_code = CLD_EXITED;
info->si_status = pr->ps_xexit;
} else if (WCOREDUMP(pr->ps_xsig)) {
info->si_code = CLD_DUMPED;
info->si_status = _WSTATUS(pr->ps_xsig);
} else {
info->si_code = CLD_KILLED;
info->si_status = _WSTATUS(pr->ps_xsig);
}
}
if (statusp != NULL)
*statusp = W_EXITCODE(pr->ps_xexit,
pr->ps_xsig);
if (rusage != NULL)
memcpy(rusage, pr->ps_ru, sizeof(*rusage));
if ((options & WNOWAIT) == 0)
proc_finish_wait(q, p);
return (0);
}
if ((options & WTRAPPED) &&
pr->ps_flags & PS_TRACED &&
(pr->ps_flags & PS_WAITED) == 0 && pr->ps_single &&
pr->ps_single->p_stat == SSTOP &&
(pr->ps_single->p_flag & P_SUSPSINGLE) == 0) {
if (single_thread_wait(pr, 0))
goto loop;
if ((options & WNOWAIT) == 0)
atomic_setbits_int(&pr->ps_flags, PS_WAITED);
*retval = pr->ps_pid;
if (info != NULL) {
info->si_pid = pr->ps_pid;
info->si_uid = pr->ps_ucred->cr_uid;
info->si_signo = SIGCHLD;
info->si_code = CLD_TRAPPED;
info->si_status = pr->ps_xsig;
}
if (statusp != NULL)
*statusp = W_STOPCODE(pr->ps_xsig);
if (rusage != NULL)
memset(rusage, 0, sizeof(*rusage));
return (0);
}
if (p->p_stat == SSTOP &&
(pr->ps_flags & PS_WAITED) == 0 &&
(p->p_flag & P_SUSPSINGLE) == 0 &&
(pr->ps_flags & PS_TRACED ||
options & WUNTRACED)) {
if ((options & WNOWAIT) == 0)
atomic_setbits_int(&pr->ps_flags, PS_WAITED);
*retval = pr->ps_pid;
if (info != 0) {
info->si_pid = pr->ps_pid;
info->si_uid = pr->ps_ucred->cr_uid;
info->si_signo = SIGCHLD;
info->si_code = CLD_STOPPED;
info->si_status = pr->ps_xsig;
}
if (statusp != NULL)
*statusp = W_STOPCODE(pr->ps_xsig);
if (rusage != NULL)
memset(rusage, 0, sizeof(*rusage));
return (0);
}
if ((options & WCONTINUED) && (p->p_flag & P_CONTINUED)) {
if ((options & WNOWAIT) == 0)
atomic_clearbits_int(&p->p_flag, P_CONTINUED);
*retval = pr->ps_pid;
if (info != NULL) {
info->si_pid = pr->ps_pid;
info->si_uid = pr->ps_ucred->cr_uid;
info->si_signo = SIGCHLD;
info->si_code = CLD_CONTINUED;
info->si_status = SIGCONT;
}
if (statusp != NULL)
*statusp = _WCONTINUED;
if (rusage != NULL)
memset(rusage, 0, sizeof(*rusage));
return (0);
}
}
/*
* Look in the orphans list too, to allow the parent to
* collect its child's exit status even if child is being
* debugged.
*
* Debugger detaches from the parent upon successful
* switch-over from parent to child. At this point due to
* re-parenting the parent loses the child to debugger and a
* wait4(2) call would report that it has no children to wait
* for. By maintaining a list of orphans we allow the parent
* to successfully wait until the child becomes a zombie.
*/
if (nfound == 0) {
LIST_FOREACH(pr, &q->p_p->ps_orphans, ps_orphan) {
if ((pr->ps_flags & PS_NOZOMBIE) ||
(idtype == P_PID && id != pr->ps_pid) ||
(idtype == P_PGID && id != pr->ps_pgid))
continue;
nfound++;
break;
}
}
if (nfound == 0)
return (ECHILD);
if (options & WNOHANG) {
*retval = 0;
return (0);
}
if ((error = tsleep_nsec(q->p_p, PWAIT | PCATCH, "wait", INFSLP)) != 0)
return (error);
goto loop;
}
int
sys_wait4(struct proc *q, void *v, register_t *retval)
{
struct sys_wait4_args /* {
syscallarg(pid_t) pid;
syscallarg(int *) status;
syscallarg(int) options;
syscallarg(struct rusage *) rusage;
} */ *uap = v;
struct rusage ru;
pid_t pid = SCARG(uap, pid);
int options = SCARG(uap, options);
int status, error;
idtype_t idtype;
id_t id;
if (SCARG(uap, options) &~ (WUNTRACED|WNOHANG|WCONTINUED))
return (EINVAL);
options |= WEXITED | WTRAPPED;
if (SCARG(uap, pid) == WAIT_MYPGRP) {
idtype = P_PGID;
id = q->p_p->ps_pgid;
} else if (SCARG(uap, pid) == WAIT_ANY) {
idtype = P_ALL;
id = 0;
} else if (pid < 0) {
idtype = P_PGID;
id = -pid;
} else {
idtype = P_PID;
id = pid;
}
error = dowait6(q, idtype, id,
SCARG(uap, status) ? &status : NULL, options,
SCARG(uap, rusage) ? &ru : NULL, NULL, retval);
if (error == 0 && *retval > 0 && SCARG(uap, status)) {
error = copyout(&status, SCARG(uap, status), sizeof(status));
}
if (error == 0 && *retval > 0 && SCARG(uap, rusage)) {
error = copyout(&ru, SCARG(uap, rusage), sizeof(ru));
#ifdef KTRACE
if (error == 0 && KTRPOINT(q, KTR_STRUCT))
ktrrusage(q, &ru);
#endif
}
return (error);
}
int
sys_waitid(struct proc *q, void *v, register_t *retval)
{
struct sys_waitid_args /* {
syscallarg(idtype_t) idtype;
syscallarg(id_t) id;
syscallarg(siginfo_t) info;
syscallarg(int) options;
} */ *uap = v;
siginfo_t info;
idtype_t idtype = SCARG(uap, idtype);
int options = SCARG(uap, options);
int error;
if (options &~ (WSTOPPED|WCONTINUED|WEXITED|WTRAPPED|WNOHANG|WNOWAIT))
return (EINVAL);
if ((options & (WSTOPPED|WCONTINUED|WEXITED|WTRAPPED)) == 0)
return (EINVAL);
if (idtype != P_ALL && idtype != P_PID && idtype != P_PGID)
return (EINVAL);
error = dowait6(q, idtype, SCARG(uap, id), NULL,
options, NULL, &info, retval);
if (error == 0) {
error = copyout(&info, SCARG(uap, info), sizeof(info));
#ifdef KTRACE
if (error == 0 && KTRPOINT(q, KTR_STRUCT))
ktrsiginfo(q, &info);
#endif
}
if (error == 0)
*retval = 0;
return (error);
}
void
proc_finish_wait(struct proc *waiter, struct proc *p)
{
struct process *pr, *tr;
struct rusage *rup;
/*
* If we got the child via a ptrace 'attach',
* we need to give it back to the old parent.
*/
pr = p->p_p;
if (pr->ps_oppid != 0 && (pr->ps_oppid != pr->ps_pptr->ps_pid) &&
(tr = prfind(pr->ps_oppid))) {
pr->ps_oppid = 0;
atomic_clearbits_int(&pr->ps_flags, PS_TRACED);
process_reparent(pr, tr);
prsignal(tr, SIGCHLD);
wakeup(tr);
} else {
scheduler_wait_hook(waiter, p);
rup = &waiter->p_p->ps_cru;
ruadd(rup, pr->ps_ru);
LIST_REMOVE(pr, ps_list); /* off zombprocess */
freepid(pr->ps_pid);
process_zap(pr);
}
}
/*
* give process back to original parent or init(8)
*/
void
process_untrace(struct process *pr)
{
struct process *ppr = NULL;
KASSERT(pr->ps_flags & PS_TRACED);
if (pr->ps_oppid != 0 &&
(pr->ps_oppid != pr->ps_pptr->ps_pid))
ppr = prfind(pr->ps_oppid);
/* not being traced any more */
pr->ps_oppid = 0;
atomic_clearbits_int(&pr->ps_flags, PS_TRACED);
process_reparent(pr, ppr ? ppr : initprocess);
}
void
process_clear_orphan(struct process *pr)
{
if (pr->ps_flags & PS_ORPHAN) {
LIST_REMOVE(pr, ps_orphan);
atomic_clearbits_int(&pr->ps_flags, PS_ORPHAN);
}
}
/*
* make process 'parent' the new parent of process 'child'.
*/
void
process_reparent(struct process *child, struct process *parent)
{
if (child->ps_pptr == parent)
return;
KASSERT(child->ps_oppid == 0 ||
child->ps_oppid == child->ps_pptr->ps_pid);
LIST_REMOVE(child, ps_sibling);
LIST_INSERT_HEAD(&parent->ps_children, child, ps_sibling);
process_clear_orphan(child);
if (child->ps_flags & PS_TRACED) {
atomic_setbits_int(&child->ps_flags, PS_ORPHAN);
LIST_INSERT_HEAD(&child->ps_pptr->ps_orphans, child, ps_orphan);
}
child->ps_pptr = parent;
child->ps_ppid = parent->ps_pid;
}
void
process_zap(struct process *pr)
{
struct vnode *otvp;
struct proc *p = pr->ps_mainproc;
/*
* Finally finished with old proc entry.
* Unlink it from its process group and free it.
*/
leavepgrp(pr);
LIST_REMOVE(pr, ps_sibling);
process_clear_orphan(pr);
/*
* Decrement the count of procs running with this uid.
*/
(void)chgproccnt(pr->ps_ucred->cr_ruid, -1);
/*
* Release reference to text vnode
*/
otvp = pr->ps_textvp;
pr->ps_textvp = NULL;
if (otvp)
vrele(otvp);
KASSERT(pr->ps_threadcnt == 1);
if (pr->ps_ptstat != NULL)
free(pr->ps_ptstat, M_SUBPROC, sizeof(*pr->ps_ptstat));
pool_put(&rusage_pool, pr->ps_ru);
KASSERT(TAILQ_EMPTY(&pr->ps_threads));
sigactsfree(pr->ps_sigacts);
lim_free(pr->ps_limit);
crfree(pr->ps_ucred);
pool_put(&process_pool, pr);
nprocesses--;
proc_free(p);
}
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