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689 lines
20 KiB
C
689 lines
20 KiB
C
/* Load the dependencies of a mapped object.
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Copyright (C) 1996-2015 Free Software Foundation, Inc.
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This file is part of the GNU C Library.
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The GNU C Library is free software; you can redistribute it and/or
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modify it under the terms of the GNU Lesser General Public
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License as published by the Free Software Foundation; either
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version 2.1 of the License, or (at your option) any later version.
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The GNU C Library 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 GNU
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Lesser General Public License for more details.
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You should have received a copy of the GNU Lesser General Public
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License along with the GNU C Library; if not, see
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<http://www.gnu.org/licenses/>. */
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#include <atomic.h>
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#include <assert.h>
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#include <dlfcn.h>
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#include <errno.h>
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#include <libintl.h>
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#include <stddef.h>
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#include <stdlib.h>
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#include <string.h>
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#include <unistd.h>
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#include <sys/param.h>
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#include <ldsodefs.h>
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#include <dl-dst.h>
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/* Whether an shared object references one or more auxiliary objects
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is signaled by the AUXTAG entry in l_info. */
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#define AUXTAG (DT_NUM + DT_THISPROCNUM + DT_VERSIONTAGNUM \
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+ DT_EXTRATAGIDX (DT_AUXILIARY))
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/* Whether an shared object references one or more auxiliary objects
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is signaled by the AUXTAG entry in l_info. */
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#define FILTERTAG (DT_NUM + DT_THISPROCNUM + DT_VERSIONTAGNUM \
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+ DT_EXTRATAGIDX (DT_FILTER))
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/* When loading auxiliary objects we must ignore errors. It's ok if
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an object is missing. */
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struct openaux_args
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{
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/* The arguments to openaux. */
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struct link_map *map;
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int trace_mode;
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int open_mode;
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const char *strtab;
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const char *name;
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/* The return value of openaux. */
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struct link_map *aux;
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};
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static void
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openaux (void *a)
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{
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struct openaux_args *args = (struct openaux_args *) a;
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args->aux = _dl_map_object (args->map, args->name,
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(args->map->l_type == lt_executable
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? lt_library : args->map->l_type),
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args->trace_mode, args->open_mode,
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args->map->l_ns);
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}
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static ptrdiff_t
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internal_function
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_dl_build_local_scope (struct link_map **list, struct link_map *map)
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{
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struct link_map **p = list;
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struct link_map **q;
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*p++ = map;
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map->l_reserved = 1;
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if (map->l_initfini)
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for (q = map->l_initfini + 1; *q; ++q)
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if (! (*q)->l_reserved)
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p += _dl_build_local_scope (p, *q);
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return p - list;
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}
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/* We use a very special kind of list to track the path
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through the list of loaded shared objects. We have to
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produce a flat list with unique members of all involved objects.
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*/
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struct list
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{
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int done; /* Nonzero if this map was processed. */
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struct link_map *map; /* The data. */
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struct list *next; /* Elements for normal list. */
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};
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/* Macro to expand DST. It is an macro since we use `alloca'. */
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#define expand_dst(l, str, fatal) \
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({ \
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const char *__str = (str); \
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const char *__result = __str; \
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size_t __dst_cnt = DL_DST_COUNT (__str, 0); \
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\
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if (__dst_cnt != 0) \
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{ \
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char *__newp; \
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\
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/* DST must not appear in SUID/SGID programs. */ \
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if (__libc_enable_secure) \
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_dl_signal_error (0, __str, NULL, N_("\
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DST not allowed in SUID/SGID programs")); \
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\
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__newp = (char *) alloca (DL_DST_REQUIRED (l, __str, strlen (__str), \
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__dst_cnt)); \
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\
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__result = _dl_dst_substitute (l, __str, __newp, 0); \
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\
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if (*__result == '\0') \
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{ \
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/* The replacement for the DST is not known. We can't \
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processed. */ \
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if (fatal) \
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_dl_signal_error (0, __str, NULL, N_("\
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empty dynamic string token substitution")); \
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else \
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{ \
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/* This is for DT_AUXILIARY. */ \
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if (__glibc_unlikely (GLRO(dl_debug_mask) & DL_DEBUG_LIBS)) \
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_dl_debug_printf (N_("\
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cannot load auxiliary `%s' because of empty dynamic string token " \
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"substitution\n"), __str); \
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continue; \
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} \
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} \
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} \
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\
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__result; })
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static void
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preload (struct list *known, unsigned int *nlist, struct link_map *map)
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{
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known[*nlist].done = 0;
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known[*nlist].map = map;
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known[*nlist].next = &known[*nlist + 1];
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++*nlist;
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/* We use `l_reserved' as a mark bit to detect objects we have
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already put in the search list and avoid adding duplicate
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elements later in the list. */
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map->l_reserved = 1;
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}
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void
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internal_function
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_dl_map_object_deps (struct link_map *map,
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struct link_map **preloads, unsigned int npreloads,
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int trace_mode, int open_mode)
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{
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struct list *known = __alloca (sizeof *known * (1 + npreloads + 1));
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struct list *runp, *tail;
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unsigned int nlist, i;
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/* Object name. */
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const char *name;
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int errno_saved;
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int errno_reason;
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const char *errstring;
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const char *objname;
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/* No loaded object so far. */
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nlist = 0;
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/* First load MAP itself. */
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preload (known, &nlist, map);
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/* Add the preloaded items after MAP but before any of its dependencies. */
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for (i = 0; i < npreloads; ++i)
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preload (known, &nlist, preloads[i]);
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/* Terminate the lists. */
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known[nlist - 1].next = NULL;
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/* Pointer to last unique object. */
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tail = &known[nlist - 1];
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/* No alloca'd space yet. */
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struct link_map **needed_space = NULL;
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size_t needed_space_bytes = 0;
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/* Process each element of the search list, loading each of its
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auxiliary objects and immediate dependencies. Auxiliary objects
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will be added in the list before the object itself and
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dependencies will be appended to the list as we step through it.
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This produces a flat, ordered list that represents a
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breadth-first search of the dependency tree.
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The whole process is complicated by the fact that we better
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should use alloca for the temporary list elements. But using
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alloca means we cannot use recursive function calls. */
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errno_saved = errno;
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errno_reason = 0;
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errstring = NULL;
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errno = 0;
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name = NULL;
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for (runp = known; runp; )
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{
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struct link_map *l = runp->map;
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struct link_map **needed = NULL;
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unsigned int nneeded = 0;
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/* Unless otherwise stated, this object is handled. */
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runp->done = 1;
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/* Allocate a temporary record to contain the references to the
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dependencies of this object. */
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if (l->l_searchlist.r_list == NULL && l->l_initfini == NULL
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&& l != map && l->l_ldnum > 0)
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{
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size_t new_size = l->l_ldnum * sizeof (struct link_map *);
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if (new_size > needed_space_bytes)
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needed_space
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= extend_alloca (needed_space, needed_space_bytes, new_size);
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needed = needed_space;
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}
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if (l->l_info[DT_NEEDED] || l->l_info[AUXTAG] || l->l_info[FILTERTAG])
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{
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const char *strtab = (const void *) D_PTR (l, l_info[DT_STRTAB]);
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struct openaux_args args;
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struct list *orig;
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const ElfW(Dyn) *d;
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args.strtab = strtab;
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args.map = l;
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args.trace_mode = trace_mode;
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args.open_mode = open_mode;
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orig = runp;
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for (d = l->l_ld; d->d_tag != DT_NULL; ++d)
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if (__builtin_expect (d->d_tag, DT_NEEDED) == DT_NEEDED)
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{
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/* Map in the needed object. */
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struct link_map *dep;
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/* Recognize DSTs. */
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name = expand_dst (l, strtab + d->d_un.d_val, 0);
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/* Store the tag in the argument structure. */
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args.name = name;
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bool malloced;
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int err = _dl_catch_error (&objname, &errstring, &malloced,
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openaux, &args);
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if (__glibc_unlikely (errstring != NULL))
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{
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char *new_errstring = strdupa (errstring);
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objname = strdupa (objname);
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if (malloced)
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free ((char *) errstring);
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errstring = new_errstring;
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if (err)
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errno_reason = err;
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else
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errno_reason = -1;
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goto out;
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}
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else
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dep = args.aux;
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if (! dep->l_reserved)
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{
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/* Allocate new entry. */
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struct list *newp;
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newp = alloca (sizeof (struct list));
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/* Append DEP to the list. */
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newp->map = dep;
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newp->done = 0;
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newp->next = NULL;
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tail->next = newp;
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tail = newp;
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++nlist;
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/* Set the mark bit that says it's already in the list. */
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dep->l_reserved = 1;
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}
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/* Remember this dependency. */
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if (needed != NULL)
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needed[nneeded++] = dep;
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}
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else if (d->d_tag == DT_AUXILIARY || d->d_tag == DT_FILTER)
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{
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struct list *newp;
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/* Recognize DSTs. */
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name = expand_dst (l, strtab + d->d_un.d_val,
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d->d_tag == DT_AUXILIARY);
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/* Store the tag in the argument structure. */
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args.name = name;
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/* Say that we are about to load an auxiliary library. */
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if (__builtin_expect (GLRO(dl_debug_mask) & DL_DEBUG_LIBS,
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0))
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_dl_debug_printf ("load auxiliary object=%s"
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" requested by file=%s\n",
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name,
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DSO_FILENAME (l->l_name));
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/* We must be prepared that the addressed shared
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object is not available. For filter objects the dependency
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must be available. */
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bool malloced;
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int err = _dl_catch_error (&objname, &errstring, &malloced,
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openaux, &args);
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if (__glibc_unlikely (errstring != NULL))
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{
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if (d->d_tag == DT_AUXILIARY)
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{
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/* We are not interested in the error message. */
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assert (errstring != NULL);
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if (malloced)
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free ((char *) errstring);
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/* Simply ignore this error and continue the work. */
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continue;
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}
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else
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{
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char *new_errstring = strdupa (errstring);
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objname = strdupa (objname);
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if (malloced)
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free ((char *) errstring);
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errstring = new_errstring;
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if (err)
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errno_reason = err;
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else
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errno_reason = -1;
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goto out;
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}
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}
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/* The auxiliary object is actually available.
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Incorporate the map in all the lists. */
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/* Allocate new entry. This always has to be done. */
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newp = alloca (sizeof (struct list));
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/* We want to insert the new map before the current one,
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but we have no back links. So we copy the contents of
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the current entry over. Note that ORIG and NEWP now
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have switched their meanings. */
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memcpy (newp, orig, sizeof (*newp));
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/* Initialize new entry. */
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orig->done = 0;
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orig->map = args.aux;
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/* Remember this dependency. */
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if (needed != NULL)
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needed[nneeded++] = args.aux;
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/* We must handle two situations here: the map is new,
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so we must add it in all three lists. If the map
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is already known, we have two further possibilities:
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- if the object is before the current map in the
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search list, we do nothing. It is already found
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early
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- if the object is after the current one, we must
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move it just before the current map to make sure
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the symbols are found early enough
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*/
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if (args.aux->l_reserved)
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{
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/* The object is already somewhere in the list.
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Locate it first. */
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struct list *late;
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/* This object is already in the search list we
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are building. Don't add a duplicate pointer.
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Just added by _dl_map_object. */
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for (late = newp; late->next != NULL; late = late->next)
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if (late->next->map == args.aux)
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break;
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if (late->next != NULL)
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{
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/* The object is somewhere behind the current
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position in the search path. We have to
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move it to this earlier position. */
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orig->next = newp;
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/* Now remove the later entry from the list
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and adjust the tail pointer. */
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if (tail == late->next)
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tail = late;
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late->next = late->next->next;
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/* We must move the object earlier in the chain. */
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if (args.aux->l_prev != NULL)
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args.aux->l_prev->l_next = args.aux->l_next;
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if (args.aux->l_next != NULL)
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args.aux->l_next->l_prev = args.aux->l_prev;
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args.aux->l_prev = newp->map->l_prev;
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newp->map->l_prev = args.aux;
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if (args.aux->l_prev != NULL)
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args.aux->l_prev->l_next = args.aux;
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args.aux->l_next = newp->map;
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}
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else
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{
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/* The object must be somewhere earlier in the
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list. Undo to the current list element what
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we did above. */
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memcpy (orig, newp, sizeof (*newp));
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continue;
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}
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}
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else
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{
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/* This is easy. We just add the symbol right here. */
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orig->next = newp;
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++nlist;
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/* Set the mark bit that says it's already in the list. */
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args.aux->l_reserved = 1;
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/* The only problem is that in the double linked
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list of all objects we don't have this new
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object at the correct place. Correct this here. */
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if (args.aux->l_prev)
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args.aux->l_prev->l_next = args.aux->l_next;
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if (args.aux->l_next)
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args.aux->l_next->l_prev = args.aux->l_prev;
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args.aux->l_prev = newp->map->l_prev;
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newp->map->l_prev = args.aux;
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if (args.aux->l_prev != NULL)
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args.aux->l_prev->l_next = args.aux;
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args.aux->l_next = newp->map;
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}
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/* Move the tail pointer if necessary. */
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if (orig == tail)
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tail = newp;
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/* Move on the insert point. */
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orig = newp;
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}
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}
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/* Terminate the list of dependencies and store the array address. */
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if (needed != NULL)
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{
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needed[nneeded++] = NULL;
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struct link_map **l_initfini = (struct link_map **)
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malloc ((2 * nneeded + 1) * sizeof needed[0]);
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if (l_initfini == NULL)
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_dl_signal_error (ENOMEM, map->l_name, NULL,
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N_("cannot allocate dependency list"));
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l_initfini[0] = l;
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memcpy (&l_initfini[1], needed, nneeded * sizeof needed[0]);
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memcpy (&l_initfini[nneeded + 1], l_initfini,
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nneeded * sizeof needed[0]);
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atomic_write_barrier ();
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l->l_initfini = l_initfini;
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l->l_free_initfini = 1;
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}
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/* If we have no auxiliary objects just go on to the next map. */
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if (runp->done)
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do
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runp = runp->next;
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while (runp != NULL && runp->done);
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}
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out:
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if (errno == 0 && errno_saved != 0)
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__set_errno (errno_saved);
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struct link_map **old_l_initfini = NULL;
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if (map->l_initfini != NULL && map->l_type == lt_loaded)
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{
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/* This object was previously loaded as a dependency and we have
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a separate l_initfini list. We don't need it anymore. */
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assert (map->l_searchlist.r_list == NULL);
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old_l_initfini = map->l_initfini;
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}
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/* Store the search list we built in the object. It will be used for
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searches in the scope of this object. */
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struct link_map **l_initfini =
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(struct link_map **) malloc ((2 * nlist + 1)
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* sizeof (struct link_map *));
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if (l_initfini == NULL)
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_dl_signal_error (ENOMEM, map->l_name, NULL,
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N_("cannot allocate symbol search list"));
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map->l_searchlist.r_list = &l_initfini[nlist + 1];
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map->l_searchlist.r_nlist = nlist;
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for (nlist = 0, runp = known; runp; runp = runp->next)
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{
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if (__builtin_expect (trace_mode, 0) && runp->map->l_faked)
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/* This can happen when we trace the loading. */
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--map->l_searchlist.r_nlist;
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else
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map->l_searchlist.r_list[nlist++] = runp->map;
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/* Now clear all the mark bits we set in the objects on the search list
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to avoid duplicates, so the next call starts fresh. */
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|
runp->map->l_reserved = 0;
|
|
}
|
|
|
|
if (__builtin_expect (GLRO(dl_debug_mask) & DL_DEBUG_PRELINK, 0) != 0
|
|
&& map == GL(dl_ns)[LM_ID_BASE]._ns_loaded)
|
|
{
|
|
/* If we are to compute conflicts, we have to build local scope
|
|
for each library, not just the ultimate loader. */
|
|
for (i = 0; i < nlist; ++i)
|
|
{
|
|
struct link_map *l = map->l_searchlist.r_list[i];
|
|
unsigned int j, cnt;
|
|
|
|
/* The local scope has been already computed. */
|
|
if (l == map
|
|
|| (l->l_local_scope[0]
|
|
&& l->l_local_scope[0]->r_nlist) != 0)
|
|
continue;
|
|
|
|
if (l->l_info[AUXTAG] || l->l_info[FILTERTAG])
|
|
{
|
|
/* As current DT_AUXILIARY/DT_FILTER implementation needs to be
|
|
rewritten, no need to bother with prelinking the old
|
|
implementation. */
|
|
_dl_signal_error (EINVAL, l->l_name, NULL, N_("\
|
|
Filters not supported with LD_TRACE_PRELINKING"));
|
|
}
|
|
|
|
cnt = _dl_build_local_scope (l_initfini, l);
|
|
assert (cnt <= nlist);
|
|
for (j = 0; j < cnt; j++)
|
|
{
|
|
l_initfini[j]->l_reserved = 0;
|
|
if (j && __builtin_expect (l_initfini[j]->l_info[DT_SYMBOLIC]
|
|
!= NULL, 0))
|
|
l->l_symbolic_in_local_scope = true;
|
|
}
|
|
|
|
l->l_local_scope[0] =
|
|
(struct r_scope_elem *) malloc (sizeof (struct r_scope_elem)
|
|
+ (cnt
|
|
* sizeof (struct link_map *)));
|
|
if (l->l_local_scope[0] == NULL)
|
|
_dl_signal_error (ENOMEM, map->l_name, NULL,
|
|
N_("cannot allocate symbol search list"));
|
|
l->l_local_scope[0]->r_nlist = cnt;
|
|
l->l_local_scope[0]->r_list =
|
|
(struct link_map **) (l->l_local_scope[0] + 1);
|
|
memcpy (l->l_local_scope[0]->r_list, l_initfini,
|
|
cnt * sizeof (struct link_map *));
|
|
}
|
|
}
|
|
|
|
/* Maybe we can remove some relocation dependencies now. */
|
|
assert (map->l_searchlist.r_list[0] == map);
|
|
struct link_map_reldeps *l_reldeps = NULL;
|
|
if (map->l_reldeps != NULL)
|
|
{
|
|
for (i = 1; i < nlist; ++i)
|
|
map->l_searchlist.r_list[i]->l_reserved = 1;
|
|
|
|
struct link_map **list = &map->l_reldeps->list[0];
|
|
for (i = 0; i < map->l_reldeps->act; ++i)
|
|
if (list[i]->l_reserved)
|
|
{
|
|
/* Need to allocate new array of relocation dependencies. */
|
|
l_reldeps = malloc (sizeof (*l_reldeps)
|
|
+ map->l_reldepsmax
|
|
* sizeof (struct link_map *));
|
|
if (l_reldeps == NULL)
|
|
/* Bad luck, keep the reldeps duplicated between
|
|
map->l_reldeps->list and map->l_initfini lists. */
|
|
;
|
|
else
|
|
{
|
|
unsigned int j = i;
|
|
memcpy (&l_reldeps->list[0], &list[0],
|
|
i * sizeof (struct link_map *));
|
|
for (i = i + 1; i < map->l_reldeps->act; ++i)
|
|
if (!list[i]->l_reserved)
|
|
l_reldeps->list[j++] = list[i];
|
|
l_reldeps->act = j;
|
|
}
|
|
}
|
|
|
|
for (i = 1; i < nlist; ++i)
|
|
map->l_searchlist.r_list[i]->l_reserved = 0;
|
|
}
|
|
|
|
/* Sort the initializer list to take dependencies into account. The binary
|
|
itself will always be initialize last. */
|
|
memcpy (l_initfini, map->l_searchlist.r_list,
|
|
nlist * sizeof (struct link_map *));
|
|
if (__glibc_likely (nlist > 1))
|
|
{
|
|
/* We can skip looking for the binary itself which is at the front
|
|
of the search list. */
|
|
i = 1;
|
|
uint16_t seen[nlist];
|
|
memset (seen, 0, nlist * sizeof (seen[0]));
|
|
while (1)
|
|
{
|
|
/* Keep track of which object we looked at this round. */
|
|
++seen[i];
|
|
struct link_map *thisp = l_initfini[i];
|
|
|
|
/* Find the last object in the list for which the current one is
|
|
a dependency and move the current object behind the object
|
|
with the dependency. */
|
|
unsigned int k = nlist - 1;
|
|
while (k > i)
|
|
{
|
|
struct link_map **runp = l_initfini[k]->l_initfini;
|
|
if (runp != NULL)
|
|
/* Look through the dependencies of the object. */
|
|
while (*runp != NULL)
|
|
if (__glibc_unlikely (*runp++ == thisp))
|
|
{
|
|
/* Move the current object to the back past the last
|
|
object with it as the dependency. */
|
|
memmove (&l_initfini[i], &l_initfini[i + 1],
|
|
(k - i) * sizeof (l_initfini[0]));
|
|
l_initfini[k] = thisp;
|
|
|
|
if (seen[i + 1] > nlist - i)
|
|
{
|
|
++i;
|
|
goto next_clear;
|
|
}
|
|
|
|
uint16_t this_seen = seen[i];
|
|
memmove (&seen[i], &seen[i + 1],
|
|
(k - i) * sizeof (seen[0]));
|
|
seen[k] = this_seen;
|
|
|
|
goto next;
|
|
}
|
|
|
|
--k;
|
|
}
|
|
|
|
if (++i == nlist)
|
|
break;
|
|
next_clear:
|
|
memset (&seen[i], 0, (nlist - i) * sizeof (seen[0]));
|
|
|
|
next:;
|
|
}
|
|
}
|
|
|
|
/* Terminate the list of dependencies. */
|
|
l_initfini[nlist] = NULL;
|
|
atomic_write_barrier ();
|
|
map->l_initfini = l_initfini;
|
|
map->l_free_initfini = 1;
|
|
if (l_reldeps != NULL)
|
|
{
|
|
atomic_write_barrier ();
|
|
void *old_l_reldeps = map->l_reldeps;
|
|
map->l_reldeps = l_reldeps;
|
|
_dl_scope_free (old_l_reldeps);
|
|
}
|
|
if (old_l_initfini != NULL)
|
|
_dl_scope_free (old_l_initfini);
|
|
|
|
if (errno_reason)
|
|
_dl_signal_error (errno_reason == -1 ? 0 : errno_reason, objname,
|
|
NULL, errstring);
|
|
}
|