/* * This file is part of ltrace. * Copyright (C) 2011,2012 Petr Machata, Red Hat Inc. * Copyright (C) 2001,2009 Juan Cespedes * Copyright (C) 2006 Ian Wienand * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License as * published by the Free Software Foundation; either version 2 of the * License, or (at your option) any later version. * * This program 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 * General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA * 02110-1301 USA */ #include #include #include #include #include "library.h" #include "callback.h" #include "debug.h" #include "dict.h" #include "backend.h" // for arch_library_symbol_init, arch_library_init #ifndef ARCH_HAVE_LIBRARY_DATA void arch_library_init(struct library *lib) { } void arch_library_destroy(struct library *lib) { } void arch_library_clone(struct library *retp, struct library *lib) { } #endif #ifndef ARCH_HAVE_LIBRARY_SYMBOL_DATA int arch_library_symbol_init(struct library_symbol *libsym) { return 0; } void arch_library_symbol_destroy(struct library_symbol *libsym) { } int arch_library_symbol_clone(struct library_symbol *retp, struct library_symbol *libsym) { return 0; } #endif unsigned int target_address_hash(const void *key) { /* XXX this assumes that key is passed by value. */ union { arch_addr_t addr; unsigned int ints[sizeof(arch_addr_t) / sizeof(unsigned int)]; } u = { .addr = (arch_addr_t)key }; size_t i; unsigned int h = 0; for (i = 0; i < sizeof(u.ints) / sizeof(*u.ints); ++i) h ^= dict_key2hash_int((void *)(uintptr_t)u.ints[i]); return h; } int target_address_cmp(const void *key1, const void *key2) { /* XXX this assumes that key is passed by value. */ arch_addr_t addr1 = (arch_addr_t)key1; arch_addr_t addr2 = (arch_addr_t)key2; return addr1 < addr2 ? 1 : addr1 > addr2 ? -1 : 0; } /* If the other symbol owns the name, we need to make the copy, so * that the life-times of the two symbols are not dependent on each * other. */ static int strdup_if_owned(const char **retp, const char *str, int owned) { if (!owned || str == NULL) { *retp = str; return 0; } else { *retp = strdup(str); return *retp != NULL ? 0 : -1; } } static void private_library_symbol_init(struct library_symbol *libsym, arch_addr_t addr, const char *name, int own_name, enum toplt type_of_plt, int latent, int delayed) { libsym->next = NULL; libsym->lib = NULL; libsym->plt_type = type_of_plt; libsym->name = name; libsym->own_name = own_name; libsym->latent = latent; libsym->delayed = delayed; libsym->enter_addr = (void *)(uintptr_t)addr; } static void private_library_symbol_destroy(struct library_symbol *libsym) { library_symbol_set_name(libsym, NULL, 0); } int library_symbol_init(struct library_symbol *libsym, arch_addr_t addr, const char *name, int own_name, enum toplt type_of_plt) { private_library_symbol_init(libsym, addr, name, own_name, type_of_plt, 0, 0); /* If arch init fails, we've already set libsym->name and * own_name. But we return failure, and the client code isn't * supposed to call library_symbol_destroy in such a case. */ return arch_library_symbol_init(libsym); } void library_symbol_destroy(struct library_symbol *libsym) { if (libsym != NULL) { private_library_symbol_destroy(libsym); arch_library_symbol_destroy(libsym); } } int library_symbol_clone(struct library_symbol *retp, struct library_symbol *libsym) { const char *name; if (strdup_if_owned(&name, libsym->name, libsym->own_name) < 0) return -1; private_library_symbol_init(retp, libsym->enter_addr, name, libsym->own_name, libsym->plt_type, libsym->latent, libsym->delayed); if (arch_library_symbol_clone(retp, libsym) < 0) { private_library_symbol_destroy(retp); return -1; } return 0; } int library_symbol_cmp(struct library_symbol *a, struct library_symbol *b) { if (a->enter_addr < b->enter_addr) return -1; if (a->enter_addr > b->enter_addr) return 1; if (a->name != NULL && b->name != NULL) return strcmp(a->name, b->name); if (a->name == NULL) { if (b->name == NULL) return 0; return -1; } return 1; } void library_symbol_set_name(struct library_symbol *libsym, const char *name, int own_name) { if (libsym->own_name) free((char *)libsym->name); libsym->name = name; libsym->own_name = own_name; } enum callback_status library_symbol_equal_cb(struct library_symbol *libsym, void *u) { struct library_symbol *standard = u; return library_symbol_cmp(libsym, standard) == 0 ? CBS_STOP : CBS_CONT; } enum callback_status library_symbol_named_cb(struct library_symbol *libsym, void *name) { return strcmp(libsym->name, name) == 0 ? CBS_STOP : CBS_CONT; } enum callback_status library_symbol_delayed_cb(struct library_symbol *libsym, void *unused) { return libsym->delayed ? CBS_STOP : CBS_CONT; } static void private_library_init(struct library *lib, enum library_type type) { lib->next = NULL; lib->key = 0; lib->base = 0; lib->entry = 0; lib->dyn_addr = 0; lib->soname = NULL; lib->own_soname = 0; lib->pathname = NULL; lib->own_pathname = 0; lib->symbols = NULL; lib->exported_names = NULL; lib->type = type; } void library_init(struct library *lib, enum library_type type) { private_library_init(lib, type); arch_library_init(lib); } static int library_exported_name_clone(struct library_exported_name *retp, struct library_exported_name *exnm) { char *name = exnm->own_name ? strdup(exnm->name) : (char *)exnm->name; if (name == NULL) return -1; retp->name = name; retp->own_name = exnm->own_name; return 0; } int library_clone(struct library *retp, struct library *lib) { const char *soname = NULL; const char *pathname; if (strdup_if_owned(&soname, lib->soname, lib->own_soname) < 0 || strdup_if_owned(&pathname, lib->pathname, lib->own_pathname) < 0) { if (lib->own_soname) free((char *)soname); return -1; } private_library_init(retp, lib->type); library_set_soname(retp, soname, lib->own_soname); library_set_pathname(retp, pathname, lib->own_pathname); arch_library_clone(retp, lib); retp->key = lib->key; /* Clone symbols. */ { struct library_symbol *it; struct library_symbol **nsymp = &retp->symbols; for (it = lib->symbols; it != NULL; it = it->next) { *nsymp = malloc(sizeof(**nsymp)); if (*nsymp == NULL || library_symbol_clone(*nsymp, it) < 0) { free(*nsymp); fail: /* Release what we managed to allocate. */ library_destroy(retp); return -1; } (*nsymp)->lib = retp; nsymp = &(*nsymp)->next; } *nsymp = NULL; } /* Clone exported names. */ { struct library_exported_name *it; struct library_exported_name **nnamep = &retp->exported_names; for (it = lib->exported_names; it != NULL; it = it->next) { *nnamep = malloc(sizeof(**nnamep)); if (*nnamep == NULL || library_exported_name_clone(*nnamep, it) < 0) { free(*nnamep); goto fail; } nnamep = &(*nnamep)->next; } *nnamep = NULL; } return 0; } void library_destroy(struct library *lib) { if (lib == NULL) return; arch_library_destroy(lib); library_set_soname(lib, NULL, 0); library_set_pathname(lib, NULL, 0); struct library_symbol *sym; for (sym = lib->symbols; sym != NULL; ) { struct library_symbol *next = sym->next; library_symbol_destroy(sym); free(sym); sym = next; } /* Release exported names. */ struct library_exported_name *it; for (it = lib->exported_names; it != NULL; ) { struct library_exported_name *next = it->next; if (it->own_name) free((char *)it->name); free(it); it = next; } } void library_set_soname(struct library *lib, const char *new_name, int own_name) { if (lib->own_soname) free((char *)lib->soname); lib->soname = new_name; lib->own_soname = own_name; } void library_set_pathname(struct library *lib, const char *new_name, int own_name) { if (lib->own_pathname) free((char *)lib->pathname); lib->pathname = new_name; lib->own_pathname = own_name; } struct library_symbol * library_each_symbol(struct library *lib, struct library_symbol *start_after, enum callback_status (*cb)(struct library_symbol *, void *), void *data) { struct library_symbol *it = start_after == NULL ? lib->symbols : start_after->next; while (it != NULL) { struct library_symbol *next = it->next; switch ((*cb)(it, data)) { case CBS_FAIL: /* XXX handle me */ case CBS_STOP: return it; case CBS_CONT: break; } it = next; } return NULL; } void library_add_symbol(struct library *lib, struct library_symbol *first) { struct library_symbol *last; for (last = first; last != NULL; ) { last->lib = lib; if (last->next != NULL) last = last->next; else break; } assert(last->next == NULL); last->next = lib->symbols; lib->symbols = first; } enum callback_status library_named_cb(struct Process *proc, struct library *lib, void *name) { if (name == lib->soname || strcmp(lib->soname, (char *)name) == 0) return CBS_STOP; else return CBS_CONT; } enum callback_status library_with_key_cb(struct Process *proc, struct library *lib, void *keyp) { return lib->key == *(arch_addr_t *)keyp ? CBS_STOP : CBS_CONT; }