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path: root/elf/dl-close.c
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/* Close a shared object opened by `_dl_open'.
   Copyright (C) 1996-2005, 2006 Free Software Foundation, Inc.
   This file is part of the GNU C Library.

   The GNU C Library is free software; you can redistribute it and/or
   modify it under the terms of the GNU Lesser General Public
   License as published by the Free Software Foundation; either
   version 2.1 of the License, or (at your option) any later version.

   The GNU C Library is distributed in the hope that it will be useful,
   but WITHOUT ANY WARRANTY; without even the implied warranty of
   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
   Lesser General Public License for more details.

   You should have received a copy of the GNU Lesser General Public
   License along with the GNU C Library; if not, write to the Free
   Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA
   02111-1307 USA.  */

#include <assert.h>
#include <dlfcn.h>
#include <errno.h>
#include <libintl.h>
#include <stddef.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include <bits/libc-lock.h>
#include <ldsodefs.h>
#include <sys/types.h>
#include <sys/mman.h>
#include <sysdep-cancel.h>


/* Type of the constructor functions.  */
typedef void (*fini_t) (void);


/* Special l_idx value used to indicate which objects remain loaded.  */
#define IDX_STILL_USED -1


/* Returns true we an non-empty was found.  */
static bool
remove_slotinfo (size_t idx, struct dtv_slotinfo_list *listp, size_t disp,
		 bool should_be_there)
{
  if (idx - disp >= listp->len)
    {
      if (listp->next == NULL)
	{
	  /* The index is not actually valid in the slotinfo list,
	     because this object was closed before it was fully set
	     up due to some error.  */
	  assert (! should_be_there);
	}
      else
	{
	  if (remove_slotinfo (idx, listp->next, disp + listp->len,
			       should_be_there))
	    return true;

	  /* No non-empty entry.  Search from the end of this element's
	     slotinfo array.  */
	  idx = disp + listp->len;
	}
    }
  else
    {
      struct link_map *old_map = listp->slotinfo[idx - disp].map;

      /* The entry might still be in its unused state if we are closing an
	 object that wasn't fully set up.  */
      if (__builtin_expect (old_map != NULL, 1))
	{
	  assert (old_map->l_tls_modid == idx);

	  /* Mark the entry as unused. */
	  listp->slotinfo[idx - disp].gen = GL(dl_tls_generation) + 1;
	  listp->slotinfo[idx - disp].map = NULL;
	}

      /* If this is not the last currently used entry no need to look
	 further.  */
      if (idx != GL(dl_tls_max_dtv_idx))
	return true;
    }

  while (idx - disp > (disp == 0 ? 1 + GL(dl_tls_static_nelem) : 0))
    {
      --idx;

      if (listp->slotinfo[idx - disp].map != NULL)
	{
	  /* Found a new last used index.  */
	  GL(dl_tls_max_dtv_idx) = idx;
	  return true;
	}
    }

  /* No non-entry in this list element.  */
  return false;
}


void
_dl_close_worker (struct link_map *map)
{
  Lmid_t ns = map->l_ns;

  /* One less direct use.  */
  --map->l_direct_opencount;

  /* If _dl_close is called recursively (some destructor call dlclose),
     just record that the parent _dl_close will need to do garbage collection
     again and return.  */
  static enum { not_pending, pending, rerun } dl_close_state;

  if (map->l_direct_opencount > 0 || map->l_type != lt_loaded
      || dl_close_state != not_pending)
    {
      if (map->l_direct_opencount == 0 && map->l_type == lt_loaded)
	dl_close_state = rerun;

      /* There are still references to this object.  Do nothing more.  */
      if (__builtin_expect (GLRO(dl_debug_mask) & DL_DEBUG_FILES, 0))
	_dl_debug_printf ("\nclosing file=%s; direct_opencount=%u\n",
			  map->l_name, map->l_direct_opencount);

      return;
    }

 retry:
  dl_close_state = pending;

  bool any_tls = false;
  const unsigned int nloaded = GL(dl_ns)[ns]._ns_nloaded;
  char used[nloaded];
  char done[nloaded];
  struct link_map *maps[nloaded];

  /* Run over the list and assign indexes to the link maps and enter
     them into the MAPS array.  */
  int idx = 0;
  for (struct link_map *l = GL(dl_ns)[ns]._ns_loaded; l != NULL; l = l->l_next)
    {
      l->l_idx = idx;
      maps[idx] = l;
      ++idx;
    }
  assert (idx == nloaded);

  /* Prepare the bitmaps.  */
  memset (used, '\0', sizeof (used));
  memset (done, '\0', sizeof (done));

  /* Keep track of the lowest index link map we have covered already.  */
  int done_index = -1;
  while (++done_index < nloaded)
    {
      struct link_map *l = maps[done_index];

      if (done[done_index])
	/* Already handled.  */
	continue;

      /* Check whether this object is still used.  */
      if (l->l_type == lt_loaded
	  && l->l_direct_opencount == 0
	  && (l->l_flags_1 & DF_1_NODELETE) == 0
	  && !used[done_index])
	continue;

      /* We need this object and we handle it now.  */
      done[done_index] = 1;
      used[done_index] = 1;
      /* Signal the object is still needed.  */
      l->l_idx = IDX_STILL_USED;

      /* Mark all dependencies as used.  */
      if (l->l_initfini != NULL)
	{
	  struct link_map **lp = &l->l_initfini[1];
	  while (*lp != NULL)
	    {
	      if ((*lp)->l_idx != IDX_STILL_USED)
		{
		  assert ((*lp)->l_idx >= 0 && (*lp)->l_idx < nloaded);

		  if (!used[(*lp)->l_idx])
		    {
		      used[(*lp)->l_idx] = 1;
		      if ((*lp)->l_idx - 1 < done_index)
			done_index = (*lp)->l_idx - 1;
		    }
		}

	      ++lp;
	    }
	}
      /* And the same for relocation dependencies.  */
      if (l->l_reldeps != NULL)
	for (unsigned int j = 0; j < l->l_reldepsact; ++j)
	  {
	    struct link_map *jmap = l->l_reldeps[j];

	    if (jmap->l_idx != IDX_STILL_USED)
	      {
		assert (jmap->l_idx >= 0 && jmap->l_idx < nloaded);

		if (!used[jmap->l_idx])
		  {
		    used[jmap->l_idx] = 1;
		    if (jmap->l_idx - 1 < done_index)
		      done_index = jmap->l_idx - 1;
		  }
	      }
	  }
    }

  /* Sort the entries.  */
  _dl_sort_fini (GL(dl_ns)[ns]._ns_loaded, maps, nloaded, used, ns);

  /* Call all termination functions at once.  */
#ifdef SHARED
  bool do_audit = GLRO(dl_naudit) > 0 && !GL(dl_ns)[ns]._ns_loaded->l_auditing;
#endif
  bool unload_any = false;
  unsigned int first_loaded = ~0;
  for (unsigned int i = 0; i < nloaded; ++i)
    {
      struct link_map *imap = maps[i];

      /* All elements must be in the same namespace.  */
      assert (imap->l_ns == ns);

      if (!used[i])
	{
	  assert (imap->l_type == lt_loaded
		  && (imap->l_flags_1 & DF_1_NODELETE) == 0);

	  /* Call its termination function.  Do not do it for
	     half-cooked objects.  */
	  if (imap->l_init_called)
	    {
	      /* When debugging print a message first.  */
	      if (__builtin_expect (GLRO(dl_debug_mask) & DL_DEBUG_IMPCALLS,
				    0))
		_dl_debug_printf ("\ncalling fini: %s [%lu]\n\n",
				  imap->l_name, ns);

	      if (imap->l_info[DT_FINI_ARRAY] != NULL)
		{
		  ElfW(Addr) *array =
		    (ElfW(Addr) *) (imap->l_addr
				    + imap->l_info[DT_FINI_ARRAY]->d_un.d_ptr);
		  unsigned int sz = (imap->l_info[DT_FINI_ARRAYSZ]->d_un.d_val
				     / sizeof (ElfW(Addr)));

		  while (sz-- > 0)
		    ((fini_t) array[sz]) ();
		}

	      /* Next try the old-style destructor.  */
	      if (imap->l_info[DT_FINI] != NULL)
		(*(void (*) (void)) DL_DT_FINI_ADDRESS
		 (imap, ((void *) imap->l_addr
			 + imap->l_info[DT_FINI]->d_un.d_ptr))) ();
	    }

#ifdef SHARED
	  /* Auditing checkpoint: we have a new object.  */
	  if (__builtin_expect (do_audit, 0))
	    {
	      struct audit_ifaces *afct = GLRO(dl_audit);
	      for (unsigned int cnt = 0; cnt < GLRO(dl_naudit); ++cnt)
		{
		  if (afct->objclose != NULL)
		    /* Return value is ignored.  */
		    (void) afct->objclose (&imap->l_audit[cnt].cookie);

		  afct = afct->next;
		}
	    }
#endif

	  /* This object must not be used anymore.  */
	  imap->l_removed = 1;

	  /* We indeed have an object to remove.  */
	  unload_any = true;

	  /* Remember where the first dynamically loaded object is.  */
	  if (i < first_loaded)
	    first_loaded = i;
	}
      /* Else used[i].  */
      else if (imap->l_type == lt_loaded)
	{
	  struct r_scope_elem *new_list = NULL;

	  if (imap->l_searchlist.r_list == NULL && imap->l_initfini != NULL)
	    {
	      /* The object is still used.  But one of the objects we are
		 unloading right now is responsible for loading it.  If
		 the current object does not have it's own scope yet we
		 have to create one.  This has to be done before running
		 the finalizers.

		 To do this count the number of dependencies.  */
	      unsigned int cnt;
	      for (cnt = 1; imap->l_initfini[cnt] != NULL; ++cnt)
		;

	      /* We simply reuse the l_initfini list.  */
	      imap->l_searchlist.r_list = &imap->l_initfini[cnt + 1];
	      imap->l_searchlist.r_nlist = cnt;

	      new_list = &imap->l_searchlist;
	    }

	  /* Count the number of scopes which remain after the unload.
	     When we add the local search list count it.  Always add
	     one for the terminating NULL pointer.  */
	  size_t remain = (new_list != NULL) + 1;
	  bool removed_any = false;
	  for (size_t cnt = 0; imap->l_scope[cnt] != NULL; ++cnt)
	    /* This relies on l_scope[] entries being always set either
	       to its own l_symbolic_searchlist address, or some map's
	       l_searchlist address.  */
	    if (imap->l_scope[cnt] != &imap->l_symbolic_searchlist)
	      {
		struct link_map *tmap = (struct link_map *)
		  ((char *) imap->l_scope[cnt]
		   - offsetof (struct link_map, l_searchlist));
		assert (tmap->l_ns == ns);
		if (tmap->l_idx == IDX_STILL_USED)
		  ++remain;
		else
		  removed_any = true;
	      }
	    else
	      ++remain;

	  if (removed_any)
	    {
	      /* Always allocate a new array for the scope.  This is
		 necessary since we must be able to determine the last
		 user of the current array.  If possible use the link map's
		 memory.  */
	      size_t new_size;
	      struct r_scope_elem **newp;

#define SCOPE_ELEMS(imap) \
  (sizeof (imap->l_scope_mem) / sizeof (imap->l_scope_mem[0]))

	      if (imap->l_scope != imap->l_scope_mem
		  && remain < SCOPE_ELEMS (imap))
		{
		  new_size = SCOPE_ELEMS (imap);
		  newp = imap->l_scope_mem;
		}
	      else
		{
		  new_size = imap->l_scope_max;
		  newp = (struct r_scope_elem **)
		    malloc (new_size * sizeof (struct r_scope_elem *));
		  if (newp == NULL)
		    _dl_signal_error (ENOMEM, "dlclose", NULL,
				      N_("cannot create scope list"));
		}

	      /* Copy over the remaining scope elements.  */
	      remain = 0;
	      for (size_t cnt = 0; imap->l_scope[cnt] != NULL; ++cnt)
		{
		  if (imap->l_scope[cnt] != &imap->l_symbolic_searchlist)
		    {
		      struct link_map *tmap = (struct link_map *)
			((char *) imap->l_scope[cnt]
			 - offsetof (struct link_map, l_searchlist));
		      if (tmap->l_idx != IDX_STILL_USED)
			{
			  /* Remove the scope.  Or replace with own map's
			     scope.  */
			  if (new_list != NULL)
			    {
			      newp[remain++] = new_list;
			      new_list = NULL;
			    }
			  continue;
			}
		    }

		  newp[remain++] = imap->l_scope[cnt];
		}
	      newp[remain] = NULL;

	      struct r_scope_elem **old = imap->l_scope;

	      if (SINGLE_THREAD_P)
		imap->l_scope = newp;
	      else
		{
		  __rtld_mrlock_change (imap->l_scope_lock);
		  imap->l_scope = newp;
		  __rtld_mrlock_done (imap->l_scope_lock);
		}

	      /* No user anymore, we can free it now.  */
	      if (old != imap->l_scope_mem)
		free (old);

	      imap->l_scope_max = new_size;
	    }

	  /* The loader is gone, so mark the object as not having one.
	     Note: l_idx != IDX_STILL_USED -> object will be removed.  */
	  if (imap->l_loader != NULL
	      && imap->l_loader->l_idx != IDX_STILL_USED)
	    imap->l_loader = NULL;

	  /* Remember where the first dynamically loaded object is.  */
	  if (i < first_loaded)
	    first_loaded = i;
	}
    }

  /* If there are no objects to unload, do nothing further.  */
  if (!unload_any)
    goto out;

#ifdef SHARED
  /* Auditing checkpoint: we will start deleting objects.  */
  if (__builtin_expect (do_audit, 0))
    {
      struct link_map *head = GL(dl_ns)[ns]._ns_loaded;
      struct audit_ifaces *afct = GLRO(dl_audit);
      /* Do not call the functions for any auditing object.  */
      if (head->l_auditing == 0)
	{
	  for (unsigned int cnt = 0; cnt < GLRO(dl_naudit); ++cnt)
	    {
	      if (afct->activity != NULL)
		afct->activity (&head->l_audit[cnt].cookie, LA_ACT_DELETE);

	      afct = afct->next;
	    }
	}
    }
#endif

  /* Notify the debugger we are about to remove some loaded objects.  */
  struct r_debug *r = _dl_debug_initialize (0, ns);
  r->r_state = RT_DELETE;
  _dl_debug_state ();

  size_t tls_free_start;
  size_t tls_free_end;
  tls_free_start = tls_free_end = NO_TLS_OFFSET;

  /* Check each element of the search list to see if all references to
     it are gone.  */
  for (unsigned int i = first_loaded; i < nloaded; ++i)
    {
      struct link_map *imap = maps[i];
      if (!used[i])
	{
	  assert (imap->l_type == lt_loaded);

	  /* That was the last reference, and this was a dlopen-loaded
	     object.  We can unmap it.  */
	  if (__builtin_expect (imap->l_global, 0))
	    {
	      /* This object is in the global scope list.  Remove it.  */
	      unsigned int cnt = GL(dl_ns)[ns]._ns_main_searchlist->r_nlist;

	      do
		--cnt;
	      while (GL(dl_ns)[ns]._ns_main_searchlist->r_list[cnt] != imap);

	      /* The object was already correctly registered.  */
	      while (++cnt
		     < GL(dl_ns)[ns]._ns_main_searchlist->r_nlist)
		GL(dl_ns)[ns]._ns_main_searchlist->r_list[cnt - 1]
		  = GL(dl_ns)[ns]._ns_main_searchlist->r_list[cnt];

	      --GL(dl_ns)[ns]._ns_main_searchlist->r_nlist;
	    }

	  /* Remove the object from the dtv slotinfo array if it uses TLS.  */
	  if (__builtin_expect (imap->l_tls_blocksize > 0, 0))
	    {
	      any_tls = true;

	      if (GL(dl_tls_dtv_slotinfo_list) != NULL
		  && ! remove_slotinfo (imap->l_tls_modid,
					GL(dl_tls_dtv_slotinfo_list), 0,
					imap->l_init_called))
		/* All dynamically loaded modules with TLS are unloaded.  */
		GL(dl_tls_max_dtv_idx) = GL(dl_tls_static_nelem);

	      if (imap->l_tls_offset != NO_TLS_OFFSET)
		{
		  /* Collect a contiguous chunk built from the objects in
		     this search list, going in either direction.  When the
		     whole chunk is at the end of the used area then we can
		     reclaim it.  */
#if TLS_TCB_AT_TP
		  if (tls_free_start == NO_TLS_OFFSET
		      || (size_t) imap->l_tls_offset == tls_free_start)
		    {
		      /* Extend the contiguous chunk being reclaimed.  */
		      tls_free_start
			= imap->l_tls_offset - imap->l_tls_blocksize;

		      if (tls_free_end == NO_TLS_OFFSET)
			tls_free_end = imap->l_tls_offset;
		    }
		  else if (imap->l_tls_offset - imap->l_tls_blocksize
			   == tls_free_end)
		    /* Extend the chunk backwards.  */
		    tls_free_end = imap->l_tls_offset;
		  else
		    {
		      /* This isn't contiguous with the last chunk freed.
			 One of them will be leaked unless we can free
			 one block right away.  */
		      if (tls_free_end == GL(dl_tls_static_used))
			{
			  GL(dl_tls_static_used) = tls_free_start;
			  tls_free_end = imap->l_tls_offset;
			  tls_free_start
			    = tls_free_end - imap->l_tls_blocksize;
			}
		      else if ((size_t) imap->l_tls_offset
			       == GL(dl_tls_static_used))
			GL(dl_tls_static_used)
			  = imap->l_tls_offset - imap->l_tls_blocksize;
		      else if (tls_free_end < (size_t) imap->l_tls_offset)
			{
			  /* We pick the later block.  It has a chance to
			     be freed.  */
			  tls_free_end = imap->l_tls_offset;
			  tls_free_start
			    = tls_free_end - imap->l_tls_blocksize;
			}
		    }
#elif TLS_DTV_AT_TP
		  if ((size_t) imap->l_tls_offset == tls_free_end)
		    /* Extend the contiguous chunk being reclaimed.  */
		    tls_free_end -= imap->l_tls_blocksize;
		  else if (imap->l_tls_offset + imap->l_tls_blocksize
			   == tls_free_start)
		    /* Extend the chunk backwards.  */
		    tls_free_start = imap->l_tls_offset;
		  else
		    {
		      /* This isn't contiguous with the last chunk freed.
			 One of them will be leaked.  */
		      if (tls_free_end == GL(dl_tls_static_used))
			GL(dl_tls_static_used) = tls_free_start;
		      tls_free_start = imap->l_tls_offset;
		      tls_free_end = tls_free_start + imap->l_tls_blocksize;
		    }
#else
# error "Either TLS_TCB_AT_TP or TLS_DTV_AT_TP must be defined"
#endif
		}
	    }

	  /* We can unmap all the maps at once.  We determined the
	     start address and length when we loaded the object and
	     the `munmap' call does the rest.  */
	  DL_UNMAP (imap);

	  /* Finally, unlink the data structure and free it.  */
	  if (imap->l_prev != NULL)
	    imap->l_prev->l_next = imap->l_next;
	  else
	    {
#ifdef SHARED
	      assert (ns != LM_ID_BASE);
#endif
	      GL(dl_ns)[ns]._ns_loaded = imap->l_next;
	    }

	  --GL(dl_ns)[ns]._ns_nloaded;
	  if (imap->l_next != NULL)
	    imap->l_next->l_prev = imap->l_prev;

	  free (imap->l_versions);
	  if (imap->l_origin != (char *) -1)
	    free ((char *) imap->l_origin);

	  free (imap->l_reldeps);

	  /* Print debugging message.  */
	  if (__builtin_expect (GLRO(dl_debug_mask) & DL_DEBUG_FILES, 0))
	    _dl_debug_printf ("\nfile=%s [%lu];  destroying link map\n",
			      imap->l_name, imap->l_ns);

	  /* This name always is allocated.  */
	  free (imap->l_name);
	  /* Remove the list with all the names of the shared object.  */

	  struct libname_list *lnp = imap->l_libname;
	  do
	    {
	      struct libname_list *this = lnp;
	      lnp = lnp->next;
	      if (!this->dont_free)
		free (this);
	    }
	  while (lnp != NULL);

	  /* Remove the searchlists.  */
	  free (imap->l_initfini);

	  /* Remove the scope array if we allocated it.  */
	  if (imap->l_scope != imap->l_scope_mem)
	    free (imap->l_scope);

	  if (imap->l_phdr_allocated)
	    free ((void *) imap->l_phdr);

	  if (imap->l_rpath_dirs.dirs != (void *) -1)
	    free (imap->l_rpath_dirs.dirs);
	  if (imap->l_runpath_dirs.dirs != (void *) -1)
	    free (imap->l_runpath_dirs.dirs);

	  free (imap);
	}
    }

  /* If we removed any object which uses TLS bump the generation counter.  */
  if (any_tls)
    {
      if (__builtin_expect (++GL(dl_tls_generation) == 0, 0))
	_dl_fatal_printf ("TLS generation counter wrapped!  Please report as described in <http://www.gnu.org/software/libc/bugs.html>.\n");

      if (tls_free_end == GL(dl_tls_static_used))
	GL(dl_tls_static_used) = tls_free_start;
    }

#ifdef SHARED
  /* Auditing checkpoint: we have deleted all objects.  */
  if (__builtin_expect (do_audit, 0))
    {
      struct link_map *head = GL(dl_ns)[ns]._ns_loaded;
      /* Do not call the functions for any auditing object.  */
      if (head->l_auditing == 0)
	{
	  struct audit_ifaces *afct = GLRO(dl_audit);
	  for (unsigned int cnt = 0; cnt < GLRO(dl_naudit); ++cnt)
	    {
	      if (afct->activity != NULL)
		afct->activity (&head->l_audit[cnt].cookie, LA_ACT_CONSISTENT);

	      afct = afct->next;
	    }
	}
    }
#endif

  /* Notify the debugger those objects are finalized and gone.  */
  r->r_state = RT_CONSISTENT;
  _dl_debug_state ();

  /* Recheck if we need to retry, release the lock.  */
 out:
  if (dl_close_state == rerun)
    goto retry;

  dl_close_state = not_pending;
}


void
_dl_close (void *_map)
{
  struct link_map *map = _map;

  /* First see whether we can remove the object at all.  */
  if (__builtin_expect (map->l_flags_1 & DF_1_NODELETE, 0))
    {
      assert (map->l_init_called);
      /* Nope.  Do nothing.  */
      return;
    }

  if (__builtin_expect (map->l_direct_opencount, 1) == 0)
    GLRO(dl_signal_error) (0, map->l_name, NULL, N_("shared object not open"));

  /* Acquire the lock.  */
  __rtld_lock_lock_recursive (GL(dl_load_lock));

  _dl_close_worker (map);

  __rtld_lock_unlock_recursive (GL(dl_load_lock));
}


static bool __libc_freeres_fn_section
free_slotinfo (struct dtv_slotinfo_list **elemp)
{
  size_t cnt;

  if (*elemp == NULL)
    /* Nothing here, all is removed (or there never was anything).  */
    return true;

  if (!free_slotinfo (&(*elemp)->next))
    /* We cannot free the entry.  */
    return false;

  /* That cleared our next pointer for us.  */

  for (cnt = 0; cnt < (*elemp)->len; ++cnt)
    if ((*elemp)->slotinfo[cnt].map != NULL)
      /* Still used.  */
      return false;

  /* We can remove the list element.  */
  free (*elemp);
  *elemp = NULL;

  return true;
}


libc_freeres_fn (free_mem)
{
  for (Lmid_t ns = 0; ns < DL_NNS; ++ns)
    if (__builtin_expect (GL(dl_ns)[ns]._ns_global_scope_alloc, 0) != 0
	&& (GL(dl_ns)[ns]._ns_main_searchlist->r_nlist
	    // XXX Check whether we need NS-specific initial_searchlist
	    == GLRO(dl_initial_searchlist).r_nlist))
      {
	/* All object dynamically loaded by the program are unloaded.  Free
	   the memory allocated for the global scope variable.  */
	struct link_map **old = GL(dl_ns)[ns]._ns_main_searchlist->r_list;

	/* Put the old map in.  */
	GL(dl_ns)[ns]._ns_main_searchlist->r_list
	  // XXX Check whether we need NS-specific initial_searchlist
	  = GLRO(dl_initial_searchlist).r_list;
	/* Signal that the original map is used.  */
	GL(dl_ns)[ns]._ns_global_scope_alloc = 0;

	/* Now free the old map.  */
	free (old);
      }

  if (USE___THREAD || GL(dl_tls_dtv_slotinfo_list) != NULL)
    {
      /* Free the memory allocated for the dtv slotinfo array.  We can do
	 this only if all modules which used this memory are unloaded.  */
#ifdef SHARED
      if (GL(dl_initial_dtv) == NULL)
	/* There was no initial TLS setup, it was set up later when
	   it used the normal malloc.  */
	free_slotinfo (&GL(dl_tls_dtv_slotinfo_list));
      else
#endif
	/* The first element of the list does not have to be deallocated.
	   It was allocated in the dynamic linker (i.e., with a different
	   malloc), and in the static library it's in .bss space.  */
	free_slotinfo (&GL(dl_tls_dtv_slotinfo_list)->next);
    }
}