/* * Copyright (c) 2008 Jiri Svoboda * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * - Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * - 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. * - The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission. * * 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. */ /** @addtogroup rtld rtld * @brief * @{ */ /** * @file */ #include #include #include #include #include #include #include #include #include #include #include #include /** Create module for static executable. * * @param rtld Run-time dynamic linker * @param rmodule Place to store pointer to new module or @c NULL * @return EOK on success, ENOMEM if out of memory */ errno_t module_create_static_exec(rtld_t *rtld, module_t **rmodule) { module_t *module; module = calloc(1, sizeof(module_t)); if (module == NULL) return ENOMEM; module->id = rtld_get_next_id(rtld); module->dyn.soname = "[program]"; module->rtld = rtld; module->exec = true; module->local = true; module->tdata = &_tdata_start; module->tdata_size = &_tdata_end - &_tdata_start; module->tbss_size = &_tbss_end - &_tbss_start; module->tls_align = (uintptr_t)&_tls_alignment; list_append(&module->modules_link, &rtld->modules); if (rmodule != NULL) *rmodule = module; return EOK; } /** (Eagerly) process all relocation tables in a module. * * Currently works as if LD_BIND_NOW was specified. */ void module_process_relocs(module_t *m) { DPRINTF("module_process_relocs('%s')\n", m->dyn.soname); /* Do not relocate twice. */ if (m->relocated) return; module_process_pre_arch(m); /* jmp_rel table */ if (m->dyn.jmp_rel != NULL) { DPRINTF("jmp_rel table\n"); if (m->dyn.plt_rel == DT_REL) { DPRINTF("jmp_rel table type DT_REL\n"); rel_table_process(m, m->dyn.jmp_rel, m->dyn.plt_rel_sz); } else { assert(m->dyn.plt_rel == DT_RELA); DPRINTF("jmp_rel table type DT_RELA\n"); rela_table_process(m, m->dyn.jmp_rel, m->dyn.plt_rel_sz); } } /* rel table */ if (m->dyn.rel != NULL) { DPRINTF("rel table\n"); rel_table_process(m, m->dyn.rel, m->dyn.rel_sz); } /* rela table */ if (m->dyn.rela != NULL) { DPRINTF("rela table\n"); rela_table_process(m, m->dyn.rela, m->dyn.rela_sz); } m->relocated = true; } /** Find module structure by soname/pathname. * * Used primarily to see if a module has already been loaded. * Modules are compared according to their soname, i.e. possible * path components are ignored. */ module_t *module_find(rtld_t *rtld, const char *name) { const char *p, *soname; DPRINTF("module_find('%s')\n", name); /* * If name contains slashes, treat it as a pathname and * construct soname by chopping off the path. Otherwise * treat it as soname. */ p = str_rchr(name, '/'); soname = p ? (p + 1) : name; /* Traverse list of all modules. Not extremely fast, but simple */ list_foreach(rtld->modules, modules_link, module_t, m) { DPRINTF("m = %p\n", m); if (str_cmp(m->dyn.soname, soname) == 0) { return m; /* Found */ } } return NULL; /* Not found */ } #define NAME_BUF_SIZE 64 /** Load a module. * * Currently this trivially tries to load '/'. */ module_t *module_load(rtld_t *rtld, const char *name, mlflags_t flags) { elf_finfo_t info; char name_buf[NAME_BUF_SIZE]; module_t *m; int rc; m = calloc(1, sizeof(module_t)); if (m == NULL) { printf("malloc failed\n"); exit(1); } m->rtld = rtld; m->id = rtld_get_next_id(rtld); if ((flags & mlf_local) != 0) m->local = true; if (str_size(name) > NAME_BUF_SIZE - 2) { printf("soname too long. increase NAME_BUF_SIZE\n"); exit(1); } /* Prepend soname with '/lib/' */ str_cpy(name_buf, NAME_BUF_SIZE, "/lib/"); str_cpy(name_buf + 5, NAME_BUF_SIZE - 5, name); /* FIXME: need to real allocation of address space */ m->bias = rtld->next_bias; rtld->next_bias += 0x100000; DPRINTF("filename:'%s'\n", name_buf); DPRINTF("load '%s' at 0x%zx\n", name_buf, m->bias); rc = elf_load_file_name(name_buf, m->bias, ELDF_RW, &info); if (rc != EE_OK) { printf("Failed to load '%s'\n", name_buf); exit(1); } if (info.dynamic == NULL) { printf("Error: '%s' is not a dynamically-linked object.\n", name_buf); exit(1); } /* Pending relocation. */ m->relocated = false; DPRINTF("parse dynamic section\n"); /* Parse ELF .dynamic section. Store info to m->dyn. */ dynamic_parse(info.dynamic, m->bias, &m->dyn); /* Insert into the list of loaded modules */ list_append(&m->modules_link, &rtld->modules); /* Copy TLS info */ m->tdata = info.tls.tdata; m->tdata_size = info.tls.tdata_size; m->tbss_size = info.tls.tbss_size; m->tls_align = info.tls.tls_align; DPRINTF("tdata at %p size %zu, tbss size %zu\n", m->tdata, m->tdata_size, m->tbss_size); return m; } /** Load all modules on which m (transitively) depends. */ void module_load_deps(module_t *m, mlflags_t flags) { elf_dyn_t *dp; char *dep_name; module_t *dm; size_t n, i; DPRINTF("module_load_deps('%s')\n", m->dyn.soname); /* Count direct dependencies */ dp = m->dyn.dynamic; n = 0; while (dp->d_tag != DT_NULL) { if (dp->d_tag == DT_NEEDED) ++n; ++dp; } /* Create an array of pointers to direct dependencies */ m->n_deps = n; if (n == 0) { /* There are no dependencies, so we are done. */ m->deps = NULL; return; } m->deps = malloc(n * sizeof(module_t *)); if (!m->deps) { printf("malloc failed\n"); exit(1); } i = 0; /* Current dependency index */ dp = m->dyn.dynamic; while (dp->d_tag != DT_NULL) { if (dp->d_tag == DT_NEEDED) { dep_name = m->dyn.str_tab + dp->d_un.d_val; DPRINTF("%s needs %s\n", m->dyn.soname, dep_name); dm = module_find(m->rtld, dep_name); if (!dm) { dm = module_load(m->rtld, dep_name, flags); module_load_deps(dm, flags); } /* Save into deps table */ m->deps[i++] = dm; } ++dp; } } /** Find module structure by ID. */ module_t *module_by_id(rtld_t *rtld, unsigned long id) { list_foreach(rtld->modules, modules_link, module_t, m) { if (m->id == id) return m; } return NULL; } /** Process relocations in modules. * * Processes relocations in @a start and all its dependencies. * Modules that have already been relocated are unaffected. * * @param start The module where to start from. */ void modules_process_relocs(rtld_t *rtld, module_t *start) { list_foreach(rtld->modules, modules_link, module_t, m) { /* Skip rtld module, since it has already been processed */ if (m != &rtld->rtld) { module_process_relocs(m); } } } void modules_process_tls(rtld_t *rtld) { #ifdef CONFIG_TLS_VARIANT_1 list_foreach(rtld->modules, modules_link, module_t, m) { m->ioffs = rtld->tls_size; list_append(&m->imodules_link, &rtmd->imodules); rtld->tls_size += m->tdata_size + m->tbss_size; } #else /* CONFIG_TLS_VARIANT_2 */ size_t offs; list_foreach(rtld->modules, modules_link, module_t, m) { rtld->tls_size += m->tdata_size + m->tbss_size; } offs = 0; list_foreach(rtld->modules, modules_link, module_t, m) { offs += m->tdata_size + m->tbss_size; m->ioffs = rtld->tls_size - offs; list_append(&m->imodules_link, &rtld->imodules); } #endif } /** Clear BFS tags of all modules. */ void modules_untag(rtld_t *rtld) { list_foreach(rtld->modules, modules_link, module_t, m) { m->bfs_tag = false; } } /** @} */