/* $OpenBSD: loader.c,v 1.149 2014/07/06 19:15:16 otto Exp $ */ /* * Copyright (c) 1998 Per Fogelstrom, Opsycon AB * * 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. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``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 AUTHOR 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. * */ #define _DYN_LOADER #include #include #include #include #include #include #include #include #include #include "syscall.h" #include "archdep.h" #include "path.h" #include "resolve.h" #include "sod.h" #include "stdlib.h" #include "dl_prebind.h" /* * Local decls. */ unsigned long _dl_boot(const char **, char **, const long, long *); void _dl_debug_state(void); void _dl_setup_env(char **); void _dl_dtors(void); void _dl_fixup_user_env(void); void _dl_call_init_recurse(elf_object_t *object, int initfirst); const char *_dl_progname; int _dl_pagesz; char **_dl_libpath; char *_dl_preload; char *_dl_bindnow; char *_dl_traceld; char *_dl_debug; char *_dl_showmap; char *_dl_noprebind; char *_dl_prebind_validate; char *_dl_tracefmt1, *_dl_tracefmt2, *_dl_traceprog; int _dl_trust; struct r_debug *_dl_debug_map; void _dl_dopreload(char *paths); /* * Run dtors for all objects that are eligible. */ void _dl_run_all_dtors(void) { elf_object_t *node; struct dep_node *dnode; int fini_complete; int skip_initfirst; int initfirst_skipped; fini_complete = 0; skip_initfirst = 1; initfirst_skipped = 0; while (fini_complete == 0) { fini_complete = 1; for (node = _dl_objects->next; node != NULL; node = node->next) { if ((node->dyn.fini) && (OBJECT_REF_CNT(node) == 0) && (node->status & STAT_INIT_DONE) && ((node->status & STAT_FINI_DONE) == 0)) { if (skip_initfirst && (node->obj_flags & DF_1_INITFIRST)) initfirst_skipped = 1; else node->status |= STAT_FINI_READY; } } for (node = _dl_objects->next; node != NULL; node = node->next ) { if ((node->dyn.fini) && (OBJECT_REF_CNT(node) == 0) && (node->status & STAT_INIT_DONE) && ((node->status & STAT_FINI_DONE) == 0) && (!skip_initfirst || (node->obj_flags & DF_1_INITFIRST) == 0)) TAILQ_FOREACH(dnode, &node->child_list, next_sib) dnode->data->status &= ~STAT_FINI_READY; } for (node = _dl_objects->next; node != NULL; node = node->next ) { if (node->status & STAT_FINI_READY) { DL_DEB(("doing dtors obj %p @%p: [%s]\n", node, node->dyn.fini, node->load_name)); fini_complete = 0; node->status |= STAT_FINI_DONE; node->status &= ~STAT_FINI_READY; (*node->dyn.fini)(); } } if (fini_complete && initfirst_skipped) fini_complete = initfirst_skipped = skip_initfirst = 0; } } /* * Routine to walk through all of the objects except the first * (main executable). * * Big question, should dlopen()ed objects be unloaded before or after * the destructor for the main application runs? */ void _dl_dtors(void) { _dl_thread_kern_stop(); /* ORDER? */ _dl_unload_dlopen(); DL_DEB(("doing dtors\n")); /* main program runs its dtors itself * but we want to run dtors on all it's children); */ _dl_objects->status |= STAT_FINI_DONE; _dl_objects->opencount--; _dl_notify_unload_shlib(_dl_objects); _dl_run_all_dtors(); } void _dl_dopreload(char *paths) { char *cp, *dp; elf_object_t *shlib; dp = paths = _dl_strdup(paths); if (dp == NULL) { _dl_printf("preload: out of memory"); _dl_exit(1); } while ((cp = _dl_strsep(&dp, ":")) != NULL) { shlib = _dl_load_shlib(cp, _dl_objects, OBJTYPE_LIB, _dl_objects->obj_flags); if (shlib == NULL) { _dl_printf("%s: can't preload library '%s'\n", _dl_progname, cp); _dl_exit(4); } _dl_add_object(shlib); _dl_link_child(shlib, _dl_objects); } _dl_free(paths); return; } /* * grab interesting environment variables, zap bad env vars if * issetugid */ char **_dl_so_envp; void _dl_setup_env(char **envp) { /* * Get paths to various things we are going to use. */ _dl_debug = _dl_getenv("LD_DEBUG", envp); _dl_libpath = _dl_split_path(_dl_getenv("LD_LIBRARY_PATH", envp)); _dl_preload = _dl_getenv("LD_PRELOAD", envp); _dl_bindnow = _dl_getenv("LD_BIND_NOW", envp); _dl_traceld = _dl_getenv("LD_TRACE_LOADED_OBJECTS", envp); _dl_tracefmt1 = _dl_getenv("LD_TRACE_LOADED_OBJECTS_FMT1", envp); _dl_tracefmt2 = _dl_getenv("LD_TRACE_LOADED_OBJECTS_FMT2", envp); _dl_traceprog = _dl_getenv("LD_TRACE_LOADED_OBJECTS_PROGNAME", envp); _dl_noprebind = _dl_getenv("LD_NOPREBIND", envp); _dl_prebind_validate = _dl_getenv("LD_PREBINDVALIDATE", envp); /* * Don't allow someone to change the search paths if he runs * a suid program without credentials high enough. */ _dl_trust = !_dl_issetugid(); if (!_dl_trust) { /* Zap paths if s[ug]id... */ if (_dl_libpath) { _dl_free_path(_dl_libpath); _dl_libpath = NULL; _dl_unsetenv("LD_LIBRARY_PATH", envp); } if (_dl_preload) { _dl_preload = NULL; _dl_unsetenv("LD_PRELOAD", envp); } if (_dl_bindnow) { _dl_bindnow = NULL; _dl_unsetenv("LD_BIND_NOW", envp); } if (_dl_debug) { _dl_debug = NULL; _dl_unsetenv("LD_DEBUG", envp); } } _dl_so_envp = envp; _dl_trace_setup(envp); } int _dl_load_dep_libs(elf_object_t *object, int flags, int booting) { elf_object_t *dynobj; Elf_Dyn *dynp; unsigned int loop; int libcount; int depflags; dynobj = object; while (dynobj) { DL_DEB(("examining: '%s'\n", dynobj->load_name)); libcount = 0; /* propagate DF_1_NOW to deplibs (can be set by dynamic tags) */ depflags = flags | (dynobj->obj_flags & DF_1_NOW); for (dynp = dynobj->load_dyn; dynp->d_tag; dynp++) { if (dynp->d_tag == DT_NEEDED) { libcount++; } } if ( libcount != 0) { struct listent { Elf_Dyn *dynp; elf_object_t *depobj; } *liblist; int *randomlist; liblist = _dl_reallocarray(NULL, libcount, sizeof(struct listent)); randomlist = _dl_reallocarray(NULL, libcount, sizeof(int)); if (liblist == NULL || randomlist == NULL) _dl_exit(5); for (dynp = dynobj->load_dyn, loop = 0; dynp->d_tag; dynp++) if (dynp->d_tag == DT_NEEDED) liblist[loop++].dynp = dynp; /* Randomize these */ for (loop = 0; loop < libcount; loop++) randomlist[loop] = loop; for (loop = 1; loop < libcount; loop++) { unsigned int rnd; int cur; rnd = _dl_random(); rnd = rnd % (loop+1); cur = randomlist[rnd]; randomlist[rnd] = randomlist[loop]; randomlist[loop] = cur; } for (loop = 0; loop < libcount; loop++) { elf_object_t *depobj; const char *libname; libname = dynobj->dyn.strtab; libname += liblist[randomlist[loop]].dynp->d_un.d_val; DL_DEB(("loading: %s required by %s\n", libname, dynobj->load_name)); depobj = _dl_load_shlib(libname, dynobj, OBJTYPE_LIB, depflags); if (depobj == 0) { if (booting) { _dl_printf( "%s: can't load library '%s'\n", _dl_progname, libname); _dl_exit(4); } else { DL_DEB(("dlopen: failed to open %s\n", libname)); _dl_free(liblist); return (1); } } liblist[randomlist[loop]].depobj = depobj; } for (loop = 0; loop < libcount; loop++) { _dl_add_object(liblist[loop].depobj); _dl_link_child(liblist[loop].depobj, dynobj); } _dl_free(liblist); } dynobj = dynobj->next; } /* add first object manually */ _dl_link_grpsym(object, 1); _dl_cache_grpsym_list_setup(object); return(0); } #define PFLAGS(X) ((((X) & PF_R) ? PROT_READ : 0) | \ (((X) & PF_W) ? PROT_WRITE : 0) | \ (((X) & PF_X) ? PROT_EXEC : 0)) /* * This is the dynamic loader entrypoint. When entering here, depending * on architecture type, the stack and registers are set up according * to the architectures ABI specification. The first thing required * to do is to dig out all information we need to accomplish our task. */ unsigned long _dl_boot(const char **argv, char **envp, const long dyn_loff, long *dl_data) { struct elf_object *exe_obj; /* Pointer to executable object */ struct elf_object *dyn_obj; /* Pointer to executable object */ struct r_debug **map_link; /* Where to put pointer for gdb */ struct r_debug *debug_map; struct load_list *next_load, *load_list = NULL; Elf_Dyn *dynp; Elf_Phdr *phdp; Elf_Ehdr *ehdr; char *us = NULL; unsigned int loop; int failed; struct dep_node *n; Elf_Addr minva, maxva, exe_loff; int align; _dl_setup_env(envp); _dl_progname = argv[0]; if (dl_data[AUX_pagesz] != 0) _dl_pagesz = dl_data[AUX_pagesz]; else _dl_pagesz = 4096; align = _dl_pagesz - 1; #define ROUND_PG(x) (((x) + align) & ~(align)) #define TRUNC_PG(x) ((x) & ~(align)) /* * now that GOT and PLT have been relocated, and we know * page size, protect them from modification */ #ifndef RTLD_NO_WXORX { extern char *__got_start; extern char *__got_end; #ifdef RTLD_PROTECT_PLT extern char *__plt_start; extern char *__plt_end; #endif _dl_mprotect((void *)ELF_TRUNC((long)&__got_start, _dl_pagesz), ELF_ROUND((long)&__got_end,_dl_pagesz) - ELF_TRUNC((long)&__got_start, _dl_pagesz), GOT_PERMS); #ifdef RTLD_PROTECT_PLT /* only for DATA_PLT or BSS_PLT */ _dl_mprotect((void *)ELF_TRUNC((long)&__plt_start, _dl_pagesz), ELF_ROUND((long)&__plt_end,_dl_pagesz) - ELF_TRUNC((long)&__plt_start, _dl_pagesz), PROT_READ|PROT_EXEC); #endif } #endif DL_DEB(("rtld loading: '%s'\n", _dl_progname)); /* init this in runtime, not statically */ TAILQ_INIT(&_dlopened_child_list); exe_obj = NULL; _dl_loading_object = NULL; minva = ELFDEFNNAME(NO_ADDR); maxva = exe_loff = 0; /* * Examine the user application and set up object information. */ phdp = (Elf_Phdr *)dl_data[AUX_phdr]; for (loop = 0; loop < dl_data[AUX_phnum]; loop++) { switch (phdp->p_type) { case PT_PHDR: exe_loff = (Elf_Addr)dl_data[AUX_phdr] - phdp->p_vaddr; us += exe_loff; DL_DEB(("exe load offset: 0x%lx\n", exe_loff)); break; case PT_DYNAMIC: minva = TRUNC_PG(minva); maxva = ROUND_PG(maxva); exe_obj = _dl_finalize_object(argv[0] ? argv[0] : "", (Elf_Dyn *)(phdp->p_vaddr + exe_loff), (Elf_Phdr *)dl_data[AUX_phdr], dl_data[AUX_phnum], OBJTYPE_EXE, minva + exe_loff, exe_loff); _dl_add_object(exe_obj); break; case PT_INTERP: us += phdp->p_vaddr; break; case PT_LOAD: if (phdp->p_vaddr < minva) minva = phdp->p_vaddr; if (phdp->p_vaddr > maxva) maxva = phdp->p_vaddr + phdp->p_memsz; next_load = _dl_calloc(1, sizeof(struct load_list)); next_load->next = load_list; load_list = next_load; next_load->start = (char *)TRUNC_PG(phdp->p_vaddr) + exe_loff; next_load->size = (phdp->p_vaddr & align) + phdp->p_filesz; next_load->prot = PFLAGS(phdp->p_flags); if (phdp->p_flags & 0x08000000) { // dump_prelink(phdp->p_vaddr + exe_loff, phdp->p_memsz); prebind_load_exe(phdp, exe_obj); } break; case PT_TLS: _dl_printf("%s: unsupported TLS program header\n", _dl_progname); _dl_exit(1); break; } phdp++; } exe_obj->load_list = load_list; exe_obj->obj_flags |= DF_1_GLOBAL; exe_obj->load_size = maxva - minva; _dl_set_sod(exe_obj->load_name, &exe_obj->sod); n = _dl_malloc(sizeof *n); if (n == NULL) _dl_exit(5); n->data = exe_obj; TAILQ_INSERT_TAIL(&_dlopened_child_list, n, next_sib); exe_obj->opencount++; if (_dl_preload != NULL) _dl_dopreload(_dl_preload); _dl_load_dep_libs(exe_obj, exe_obj->obj_flags, 1); /* * Now add the dynamic loader itself last in the object list * so we can use the _dl_ code when serving dl.... calls. * Intentionally left off the exe child_list. */ dynp = (Elf_Dyn *)((void *)_DYNAMIC); ehdr = (Elf_Ehdr *)dl_data[AUX_base]; dyn_obj = _dl_finalize_object(us, dynp, (Elf_Phdr *)((char *)dl_data[AUX_base] + ehdr->e_phoff), ehdr->e_phnum, OBJTYPE_LDR, dl_data[AUX_base], dyn_loff); _dl_add_object(dyn_obj); dyn_obj->refcount++; _dl_link_grpsym(dyn_obj, 1); dyn_obj->status |= STAT_RELOC_DONE; _dl_set_sod(dyn_obj->load_name, &dyn_obj->sod); /* * Everything should be in place now for doing the relocation * and binding. Call _dl_rtld to do the job. Fingers crossed. */ _dl_prebind_pre_resolve(); failed = 0; if (_dl_traceld == NULL) failed = _dl_rtld(_dl_objects); _dl_prebind_post_resolve(); if (_dl_debug || _dl_traceld) _dl_show_objects(); DL_DEB(("dynamic loading done, %s.\n", (failed == 0) ? "success":"failed")); if (failed != 0) _dl_exit(1); if (_dl_traceld) _dl_exit(0); _dl_loading_object = NULL; _dl_fixup_user_env(); /* * Finally make something to help gdb when poking around in the code. */ map_link = NULL; #ifdef __mips__ map_link = (struct r_debug **)(exe_obj->Dyn.info[DT_MIPS_RLD_MAP - DT_LOPROC + DT_NUM]); #endif if (map_link == NULL) { for (dynp = exe_obj->load_dyn; dynp->d_tag; dynp++) { if (dynp->d_tag == DT_DEBUG) { map_link = (struct r_debug **)&dynp->d_un.d_ptr; break; } } if (dynp->d_tag != DT_DEBUG) DL_DEB(("failed to mark DTDEBUG\n")); } if (map_link) { /* XXX */ debug_map = (struct r_debug *)_dl_malloc(sizeof(*debug_map)); debug_map->r_version = 1; debug_map->r_map = (struct link_map *)_dl_objects; debug_map->r_brk = (Elf_Addr)_dl_debug_state; debug_map->r_state = RT_CONSISTENT; debug_map->r_ldbase = dyn_loff; _dl_debug_map = debug_map; #ifdef __mips__ if (dynp->d_tag == DT_DEBUG) _dl_mprotect(map_link, sizeof(*map_link), PROT_READ|PROT_WRITE|PROT_EXEC); #endif *map_link = _dl_debug_map; #ifdef __mips__ if (dynp->d_tag == DT_DEBUG) _dl_mprotect(map_link, sizeof(*map_link), PROT_READ|PROT_EXEC); #endif } _dl_debug_state(); /* * The first object is the executable itself, * it is responsible for running it's own ctors/dtors * thus do NOT run the ctors for the executable, all of * the shared libraries which follow. * Do not run init code if run from ldd. */ if (_dl_objects->next != NULL) { _dl_objects->status |= STAT_INIT_DONE; _dl_call_init(_dl_objects); } DL_DEB(("entry point: 0x%lx\n", dl_data[AUX_entry])); /* * Return the entry point. */ return(dl_data[AUX_entry]); } #define DL_SM_SYMBUF_CNT 512 sym_cache _dl_sm_symcache_buffer[DL_SM_SYMBUF_CNT]; int _dl_rtld(elf_object_t *object) { size_t sz; int fails = 0; if (object->next) fails += _dl_rtld(object->next); if (object->status & STAT_RELOC_DONE) return 0; sz = 0; if (object->nchains < DL_SM_SYMBUF_CNT) { _dl_symcache = _dl_sm_symcache_buffer; // DL_DEB(("using static buffer for %d entries\n", // object->nchains)); _dl_memset(_dl_symcache, 0, sizeof (sym_cache) * object->nchains); } else { sz = ELF_ROUND(sizeof (sym_cache) * object->nchains, _dl_pagesz); // DL_DEB(("allocating symcache sz %x with mmap\n", sz)); _dl_symcache = (void *)_dl_mmap(0, sz, PROT_READ|PROT_WRITE, MAP_PRIVATE|MAP_ANON, -1, 0); if (_dl_mmap_error(_dl_symcache)) { sz = 0; _dl_symcache = NULL; } } prebind_symcache(object, SYM_NOTPLT); /* * Do relocation information first, then GOT. */ fails =_dl_md_reloc(object, DT_REL, DT_RELSZ); fails += _dl_md_reloc(object, DT_RELA, DT_RELASZ); prebind_symcache(object, SYM_PLT); fails += _dl_md_reloc_got(object, !(_dl_bindnow || object->obj_flags & DF_1_NOW)); if (_dl_symcache != NULL) { if (sz != 0) _dl_munmap( _dl_symcache, sz); _dl_symcache = NULL; } if (fails == 0) object->status |= STAT_RELOC_DONE; return (fails); } void _dl_call_init(elf_object_t *object) { _dl_call_init_recurse(object, 1); _dl_call_init_recurse(object, 0); } void _dl_call_init_recurse(elf_object_t *object, int initfirst) { struct dep_node *n; object->status |= STAT_VISITED; TAILQ_FOREACH(n, &object->child_list, next_sib) { if (n->data->status & STAT_VISITED) continue; _dl_call_init_recurse(n->data, initfirst); } object->status &= ~STAT_VISITED; if (object->status & STAT_INIT_DONE) return; if (initfirst && (object->obj_flags & DF_1_INITFIRST) == 0) return; if (object->dyn.init) { DL_DEB(("doing ctors obj %p @%p: [%s]\n", object, object->dyn.init, object->load_name)); (*object->dyn.init)(); } object->status |= STAT_INIT_DONE; } char * _dl_getenv(const char *var, char **env) { const char *ep; while ((ep = *env++)) { const char *vp = var; while (*vp && *vp == *ep) { vp++; ep++; } if (*vp == '\0' && *ep++ == '=') return((char *)ep); } return(NULL); } void _dl_unsetenv(const char *var, char **env) { char *ep; while ((ep = *env)) { const char *vp = var; while (*vp && *vp == *ep) { vp++; ep++; } if (*vp == '\0' && *ep++ == '=') { char **P; for (P = env;; ++P) if (!(*P = *(P + 1))) break; } else env++; } } /* * _dl_fixup_user_env() * * Set the user environment so that programs can use the environment * while running constructors. Specifically, MALLOC_OPTIONS= for malloc() */ void _dl_fixup_user_env(void) { const Elf_Sym *sym; Elf_Addr ooff; struct elf_object dummy_obj; dummy_obj.dyn.symbolic = 0; dummy_obj.load_name = "ld.so"; sym = NULL; ooff = _dl_find_symbol("environ", &sym, SYM_SEARCH_ALL|SYM_NOWARNNOTFOUND|SYM_PLT, NULL, &dummy_obj, NULL); if (sym != NULL) *((char ***)(sym->st_value + ooff)) = _dl_so_envp; }