void LayoutReachabilityPass::run_pass(DexStoresVector& stores, ConfigFiles& conf, PassManager& mgr) { TRACE(PGR, 1, "Recomputing layout classes\n"); std::string apk_dir; conf.get_json_config().get("apk_dir", "", apk_dir); always_assert(apk_dir.size()); auto scope = build_class_scope(stores); // Update the m_byresources rstate flags on classes/methods recompute_reachable_from_xml_layouts(scope, apk_dir); }
void AddRedexTxtToApkPass::run_pass(DexStoresVector& /* unused */, ConfigFiles& conf, PassManager& /* unused */) { std::string apk_dir; conf.get_json_config().get("apk_dir", "", apk_dir); if (!apk_dir.size()) { TRACE(ADD_REDEX_TXT, 2, "apk_dir not set, so not writing redex.txt\n"); return; } std::string out_file_name = apk_dir + "/redex.txt"; std::ofstream redex_txt(out_file_name); if (redex_txt.is_open()) { redex_txt << "Optimized by Redex" << std::endl << "http://fbredex.com/" << std::endl; redex_txt.close(); } else { opt_warn(CANT_WRITE_FILE, "Unable to write file %s\n", out_file_name.c_str()); } }
void RenameClassesPass::run_pass(DexStoresVector& stores, ConfigFiles& cfg, PassManager& mgr) { const JsonWrapper& json_cfg = cfg.get_json_config(); if (json_cfg.get("emit_name_based_locators", false)) { // TODO: Purge the old RenameClassesPass entirely everywhere. fprintf(stderr, "[RenameClassesPass] error: Configuration option " "emit_locator_strings is not compatible with RenameClassesPass. " "Upgrade to RenameClassesPassV2 instead.\n"); exit(EXIT_FAILURE); } auto scope = build_class_scope(stores); ClassHierarchy ch = build_type_hierarchy(scope); std::unordered_set<const DexType*> untouchables; for (const auto& base : m_untouchable_hierarchies) { auto base_type = DexType::get_type(base.c_str()); if (base_type != nullptr) { untouchables.insert(base_type); TypeSet children; get_all_children(ch, base_type, children); untouchables.insert(children.begin(), children.end()); } } mgr.incr_metric(METRIC_CLASSES_IN_SCOPE, scope.size()); rename_classes( scope, m_pre_filter_whitelist, m_post_filter_whitelist, untouchables, m_rename_annotations, mgr); TRACE(RENAME, 1, "renamed classes: %d anon classes, %d from single char patterns, " "%d from multi char patterns\n", match_inner, match_short, match_long); TRACE(RENAME, 1, "String savings, at least %d bytes \n", base_strings_size - ren_strings_size); }
void PassManager::run_passes(DexStoresVector& stores, ConfigFiles& cfg) { DexStoreClassesIterator it(stores); Scope scope = build_class_scope(it); { Timer t("API Level Checker"); api::LevelChecker::init(m_redex_options.min_sdk, scope); } char* seeds_output_file = std::getenv("REDEX_SEEDS_FILE"); if (seeds_output_file) { std::string seed_filename = seeds_output_file; Timer t("Writing seeds file " + seed_filename); std::ofstream seeds_file(seed_filename); redex::print_seeds(seeds_file, cfg.get_proguard_map(), scope, false, false); } if (!cfg.get_printseeds().empty()) { Timer t("Writing seeds to file " + cfg.get_printseeds()); std::ofstream seeds_file(cfg.get_printseeds()); redex::print_seeds(seeds_file, cfg.get_proguard_map(), scope); std::ofstream config_file(cfg.get_printseeds() + ".pro"); redex::show_configuration(config_file, scope, *m_pg_config); std::ofstream incoming(cfg.get_printseeds() + ".incoming"); redex::print_classes(incoming, cfg.get_proguard_map(), scope); std::ofstream shrinking_file(cfg.get_printseeds() + ".allowshrinking"); redex::print_seeds(shrinking_file, cfg.get_proguard_map(), scope, true, false); std::ofstream obfuscation_file(cfg.get_printseeds() + ".allowobfuscation"); redex::print_seeds(obfuscation_file, cfg.get_proguard_map(), scope, false, true); } // Enable opt decision logging if specified in config. const Json::Value& opt_decisions_args = cfg.get_json_config()["opt_decisions"]; if (opt_decisions_args.get("enable_logs", false).asBool()) { opt_metadata::OptDataMapper::get_instance().enable_logs(); } // TODO(fengliu) : Remove Pass::eval_pass API for (size_t i = 0; i < m_activated_passes.size(); ++i) { Pass* pass = m_activated_passes[i]; TRACE(PM, 1, "Evaluating %s...\n", pass->name().c_str()); Timer t(pass->name() + " (eval)"); m_current_pass_info = &m_pass_info[i]; pass->eval_pass(stores, cfg, *this); m_current_pass_info = nullptr; } // Retrieve the type checker's settings. const Json::Value& type_checker_args = cfg.get_json_config()["ir_type_checker"]; bool run_after_each_pass = type_checker_args.get("run_after_each_pass", false).asBool(); // When verify_none is enabled, it's OK to have polymorphic constants. bool polymorphic_constants = type_checker_args.get("polymorphic_constants", false).asBool() || get_redex_options().verify_none_enabled; bool verify_moves = type_checker_args.get("verify_moves", false).asBool(); bool check_no_overwrite_this = type_checker_args.get("check_no_overwrite_this", false).asBool(); std::unordered_set<std::string> trigger_passes; for (auto& trigger_pass : type_checker_args["run_after_passes"]) { trigger_passes.insert(trigger_pass.asString()); } for (size_t i = 0; i < m_activated_passes.size(); ++i) { Pass* pass = m_activated_passes[i]; TRACE(PM, 1, "Running %s...\n", pass->name().c_str()); Timer t(pass->name() + " (run)"); m_current_pass_info = &m_pass_info[i]; { ScopedCommandProfiling cmd_prof( m_profiler_info && m_profiler_info->pass == pass ? boost::make_optional(m_profiler_info->command) : boost::none); jemalloc_util::ScopedProfiling malloc_prof(m_malloc_profile_pass == pass); pass->run_pass(stores, cfg, *this); } if (run_after_each_pass || trigger_passes.count(pass->name()) > 0) { scope = build_class_scope(it); // It's OK to overwrite the `this` register if we are not yet at the // output phase -- the register allocator can fix it up later. run_type_checker(scope, polymorphic_constants, verify_moves, /* check_no_overwrite_this */ false); } m_current_pass_info = nullptr; } // Always run the type checker before generating the optimized dex code. scope = build_class_scope(it); run_type_checker(scope, polymorphic_constants, verify_moves, check_no_overwrite_this); if (!cfg.get_printseeds().empty()) { Timer t("Writing outgoing classes to file " + cfg.get_printseeds() + ".outgoing"); // Recompute the scope. scope = build_class_scope(it); std::ofstream outgoing(cfg.get_printseeds() + ".outgoing"); redex::print_classes(outgoing, cfg.get_proguard_map(), scope); } }