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  1.   96c73dfc6ec39d418a8b6b4203948ea2ab4a8675
  2.   lib
  3.   sigaction.c
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/* POSIX compatible signal blocking.
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   Copyright (C) 2008-2017 Free Software Foundation, Inc.
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   Written by Eric Blake <ebb9@byu.net>, 2008.
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   This program is free software: you can redistribute it and/or modify
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   it under the terms of the GNU General Public License as published by
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   the Free Software Foundation; either version 3 of the License, or
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   (at your option) any later version.
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   This program is distributed in the hope that it will be useful,
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   but WITHOUT ANY WARRANTY; without even the implied warranty of
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   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
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   GNU General Public License for more details.
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   You should have received a copy of the GNU General Public License
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   along with this program.  If not, see <http://www.gnu.org/licenses/>.  */
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#include <config.h>
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/* Specification.  */
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#include <signal.h>
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#include <errno.h>
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#include <stdint.h>
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#include <stdlib.h>
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/* This implementation of sigaction is tailored to native Windows behavior:
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   signal() has SysV semantics (ie. the handler is uninstalled before
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   it is invoked).  This is an inherent data race if an asynchronous
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   signal is sent twice in a row before we can reinstall our handler,
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   but there's nothing we can do about it.  Meanwhile, sigprocmask()
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   is not present, and while we can use the gnulib replacement to
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   provide critical sections, it too suffers from potential data races
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   in the face of an ill-timed asynchronous signal.  And we compound
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   the situation by reading static storage in a signal handler, which
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   POSIX warns is not generically async-signal-safe.  Oh well.
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   Additionally:
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     - We don't implement SA_NOCLDSTOP or SA_NOCLDWAIT, because SIGCHLD
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       is not defined.
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     - We don't implement SA_ONSTACK, because sigaltstack() is not present.
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     - We ignore SA_RESTART, because blocking native Windows API calls are
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       not interrupted anyway when an asynchronous signal occurs, and the
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       MSVCRT runtime never sets errno to EINTR.
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     - We don't implement SA_SIGINFO because it is impossible to do so
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       portably.
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   POSIX states that an application should not mix signal() and
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   sigaction().  We support the use of signal() within the gnulib
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   sigprocmask() substitute, but all other application code linked
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   with this module should stick with only sigaction().  */
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/* Check some of our assumptions.  */
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#if defined SIGCHLD || defined HAVE_SIGALTSTACK || defined HAVE_SIGINTERRUPT
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# error "Revisit the assumptions made in the sigaction module"
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#endif
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/* Out-of-range substitutes make a good fallback for uncatchable
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   signals.  */
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#ifndef SIGKILL
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# define SIGKILL (-1)
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#endif
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#ifndef SIGSTOP
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# define SIGSTOP (-1)
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#endif
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/* On native Windows, as of 2008, the signal SIGABRT_COMPAT is an alias
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   for the signal SIGABRT.  Only one signal handler is stored for both
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   SIGABRT and SIGABRT_COMPAT.  SIGABRT_COMPAT is not a signal of its own.  */
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#if (defined _WIN32 || defined __WIN32__) && ! defined __CYGWIN__
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# undef SIGABRT_COMPAT
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# define SIGABRT_COMPAT 6
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#endif
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/* A signal handler.  */
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typedef void (*handler_t) (int signal);
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/* Set of current actions.  If sa_handler for an entry is NULL, then
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   that signal is not currently handled by the sigaction handler.  */
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static struct sigaction volatile action_array[NSIG] /* = 0 */;
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/* Signal handler that is installed for signals.  */
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static void
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sigaction_handler (int sig)
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{
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  handler_t handler;
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  sigset_t mask;
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  sigset_t oldmask;
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  int saved_errno = errno;
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  if (sig < 0 || NSIG <= sig || !action_array[sig].sa_handler)
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    {
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      /* Unexpected situation; be careful to avoid recursive abort.  */
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      if (sig == SIGABRT)
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        signal (SIGABRT, SIG_DFL);
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      abort ();
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    }
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  /* Reinstall the signal handler when required; otherwise update the
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     bookkeeping so that the user's handler may call sigaction and get
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     accurate results.  We know the signal isn't currently blocked, or
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     we wouldn't be in its handler, therefore we know that we are not
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     interrupting a sigaction() call.  There is a race where any
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     asynchronous instance of the same signal occurring before we
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     reinstall the handler will trigger the default handler; oh
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     well.  */
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  handler = action_array[sig].sa_handler;
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  if ((action_array[sig].sa_flags & SA_RESETHAND) == 0)
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    signal (sig, sigaction_handler);
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  else
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    action_array[sig].sa_handler = NULL;
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  /* Block appropriate signals.  */
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  mask = action_array[sig].sa_mask;
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  if ((action_array[sig].sa_flags & SA_NODEFER) == 0)
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    sigaddset (&mask, sig);
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  sigprocmask (SIG_BLOCK, &mask, &oldmask);
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  /* Invoke the user's handler, then restore prior mask.  */
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  errno = saved_errno;
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  handler (sig);
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  saved_errno = errno;
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  sigprocmask (SIG_SETMASK, &oldmask, NULL);
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  errno = saved_errno;
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}
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/* Change and/or query the action that will be taken on delivery of
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   signal SIG.  If not NULL, ACT describes the new behavior.  If not
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   NULL, OACT is set to the prior behavior.  Return 0 on success, or
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   set errno and return -1 on failure.  */
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int
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sigaction (int sig, const struct sigaction *restrict act,
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           struct sigaction *restrict oact)
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{
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  sigset_t mask;
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  sigset_t oldmask;
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  int saved_errno;
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  if (sig < 0 || NSIG <= sig || sig == SIGKILL || sig == SIGSTOP
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      || (act && act->sa_handler == SIG_ERR))
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    {
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      errno = EINVAL;
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      return -1;
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    }
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#ifdef SIGABRT_COMPAT
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  if (sig == SIGABRT_COMPAT)
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    sig = SIGABRT;
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#endif
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  /* POSIX requires sigaction() to be async-signal-safe.  In other
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     words, if an asynchronous signal can occur while we are anywhere
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     inside this function, the user's handler could then call
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     sigaction() recursively and expect consistent results.  We meet
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     this rule by using sigprocmask to block all signals before
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     modifying any data structure that could be read from a signal
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     handler; this works since we know that the gnulib sigprocmask
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     replacement does not try to use sigaction() from its handler.  */
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  if (!act && !oact)
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    return 0;
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  sigfillset (&mask);
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  sigprocmask (SIG_BLOCK, &mask, &oldmask);
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  if (oact)
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    {
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      if (action_array[sig].sa_handler)
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        *oact = action_array[sig];
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      else
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        {
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          /* Safe to change the handler at will here, since all
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             signals are currently blocked.  */
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          oact->sa_handler = signal (sig, SIG_DFL);
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          if (oact->sa_handler == SIG_ERR)
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            goto failure;
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          signal (sig, oact->sa_handler);
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          oact->sa_flags = SA_RESETHAND | SA_NODEFER;
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          sigemptyset (&oact->sa_mask);
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        }
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    }
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  if (act)
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    {
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      /* Safe to install the handler before updating action_array,
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         since all signals are currently blocked.  */
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      if (act->sa_handler == SIG_DFL || act->sa_handler == SIG_IGN)
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        {
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          if (signal (sig, act->sa_handler) == SIG_ERR)
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            goto failure;
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          action_array[sig].sa_handler = NULL;
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        }
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      else
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        {
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          if (signal (sig, sigaction_handler) == SIG_ERR)
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            goto failure;
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          action_array[sig] = *act;
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        }
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    }
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  sigprocmask (SIG_SETMASK, &oldmask, NULL);
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  return 0;
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 failure:
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  saved_errno = errno;
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  sigprocmask (SIG_SETMASK, &oldmask, NULL);
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  errno = saved_errno;
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  return -1;
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}

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