/* Basic tests for _dl_find_object. Copyright (C) 2021-2022 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, see . */ #include #include #include #include #include #include #include #include /* Use data objects for testing, so that it is not necessary to decode function descriptors on architectures that have them. */ static char main_program_data; /* Computes the expected _dl_find_object result directly from the map. */ static void from_map (struct link_map *l, struct dl_find_object *expected) { struct dl_find_object_internal internal; _dl_find_object_from_map (l, &internal); _dl_find_object_to_external (&internal, expected); } /* Compare _dl_find_object result at ADDRESS with *EXPECTED. */ static void check (void *address, struct dl_find_object *expected, int line) { struct dl_find_object actual; int ret = _dl_find_object (address, &actual); if (expected == NULL) { if (ret != -1) { support_record_failure (); printf ("%s:%d: unexpected success for %p\n", __FILE__, line, address); } return; } if (ret != 0) { support_record_failure (); printf ("%s:%d: unexpected failure for %p\n", __FILE__, line, address); return; } if (actual.dlfo_flags != expected->dlfo_flags) { support_record_failure (); printf ("%s:%d: error: %p: flags is %llu, expected %llu\n", __FILE__, line, address, actual.dlfo_flags, expected->dlfo_flags); } if (actual.dlfo_flags != expected->dlfo_flags) { support_record_failure (); printf ("%s:%d: error: %p: map start is %p, expected %p\n", __FILE__, line, address, actual.dlfo_map_start, expected->dlfo_map_start); } if (actual.dlfo_map_end != expected->dlfo_map_end) { support_record_failure (); printf ("%s:%d: error: %p: map end is %p, expected %p\n", __FILE__, line, address, actual.dlfo_map_end, expected->dlfo_map_end); } if (actual.dlfo_link_map != expected->dlfo_link_map) { support_record_failure (); printf ("%s:%d: error: %p: link map is %p, expected %p\n", __FILE__, line, address, actual.dlfo_link_map, expected->dlfo_link_map); } if (actual.dlfo_eh_frame != expected->dlfo_eh_frame) { support_record_failure (); printf ("%s:%d: error: %p: EH frame is %p, expected %p\n", __FILE__, line, address, actual.dlfo_eh_frame, expected->dlfo_eh_frame); } #if DLFO_STRUCT_HAS_EH_DBASE if (actual.dlfo_eh_dbase != expected->dlfo_eh_dbase) { support_record_failure (); printf ("%s:%d: error: %p: data base is %p, expected %p\n", __FILE__, line, address, actual.dlfo_eh_dbase, expected->dlfo_eh_dbase); } #endif #if DLFO_STRUCT_HAS_EH_COUNT if (actual.dlfo_eh_count != expected->dlfo_eh_count) { support_record_failure (); printf ("%s:%d: error: %p: count is %d, expected %d\n", __FILE__, line, address, actual.dlfo_eh_count, expected->dlfo_eh_count); } #endif } /* Check that unwind data for the main executable and the dynamic linker can be found. */ static void check_initial (void) { #ifndef FOR_STATIC /* Avoid direct reference, which could lead to copy relocations. */ struct r_debug *debug = xdlsym (NULL, "_r_debug"); TEST_VERIFY_EXIT (debug != NULL); char **tzname = xdlsym (NULL, "tzname"); /* The main executable has an unnamed link map. */ struct link_map *main_map = (struct link_map *) debug->r_map; TEST_COMPARE_STRING (main_map->l_name, ""); /* The link map of the dynamic linker. */ struct link_map *rtld_map = xdlopen (LD_SO, RTLD_LAZY | RTLD_NOLOAD); TEST_VERIFY_EXIT (rtld_map != NULL); /* The link map of libc.so. */ struct link_map *libc_map = xdlopen (LIBC_SO, RTLD_LAZY | RTLD_NOLOAD); TEST_VERIFY_EXIT (libc_map != NULL); struct dl_find_object expected; /* Data in the main program. */ from_map (main_map, &expected); check (&main_program_data, &expected, __LINE__); /* Corner cases for the mapping. */ check ((void *) main_map->l_map_start, &expected, __LINE__); check ((void *) (main_map->l_map_end - 1), &expected, __LINE__); /* Data in the dynamic loader. */ from_map (rtld_map, &expected); check (debug, &expected, __LINE__); check ((void *) rtld_map->l_map_start, &expected, __LINE__); check ((void *) (rtld_map->l_map_end - 1), &expected, __LINE__); /* Data in libc. */ from_map (libc_map, &expected); check (tzname, &expected, __LINE__); check ((void *) libc_map->l_map_start, &expected, __LINE__); check ((void *) (libc_map->l_map_end - 1), &expected, __LINE__); #endif } static int do_test (void) { { struct dl_find_object dlfo = { }; int ret = _dl_find_object (&main_program_data, &dlfo); printf ("info: main program unwind data: %p (%d)\n", dlfo.dlfo_eh_frame, ret); TEST_COMPARE (ret, 0); TEST_VERIFY (dlfo.dlfo_eh_frame != NULL); } check_initial (); /* dlopen-based test. First an object that can be dlclosed. */ struct link_map *mod1 = xdlopen ("tst-dl_find_object-mod1.so", RTLD_NOW); void *mod1_data = xdlsym (mod1, "mod1_data"); void *map_start = (void *) mod1->l_map_start; void *map_end = (void *) (mod1->l_map_end - 1); check_initial (); struct dl_find_object expected; from_map (mod1, &expected); check (mod1_data, &expected, __LINE__); check (map_start, &expected, __LINE__); check (map_end, &expected, __LINE__); /* Unloading must make the data unavailable. */ xdlclose (mod1); check_initial (); check (mod1_data, NULL, __LINE__); check (map_start, NULL, __LINE__); check (map_end, NULL, __LINE__); /* Now try a NODELETE load. */ struct link_map *mod2 = xdlopen ("tst-dl_find_object-mod2.so", RTLD_NOW); void *mod2_data = xdlsym (mod1, "mod2_data"); map_start = (void *) mod2->l_map_start; map_end = (void *) (mod2->l_map_end - 1); check_initial (); from_map (mod2, &expected); check (mod2_data, &expected, __LINE__); check (map_start, &expected, __LINE__); check (map_end, &expected, __LINE__); dlclose (mod2); /* Does nothing due to NODELETE. */ check_initial (); check (mod2_data, &expected, __LINE__); check (map_start, &expected, __LINE__); check (map_end, &expected, __LINE__); /* Now load again the first module. */ mod1 = xdlopen ("tst-dl_find_object-mod1.so", RTLD_NOW); mod1_data = xdlsym (mod1, "mod1_data"); map_start = (void *) mod1->l_map_start; map_end = (void *) (mod1->l_map_end - 1); check_initial (); from_map (mod1, &expected); check (mod1_data, &expected, __LINE__); check (map_start, &expected, __LINE__); check (map_end, &expected, __LINE__); /* Check that _dl_find_object works from a shared object (mostly for static dlopen). */ __typeof (_dl_find_object) *find_object = *(void **) xdlsym (mod2, "find_object"); struct dl_find_object actual; TEST_COMPARE (find_object (&main_program_data, &actual), 0); check (&main_program_data, &actual, __LINE__); /* Reversed check. */ return 0; } #include